maclaurin's theorem crucflceuir - uoausers.uoa.gr/~nchilak/vivlio/parts/14 m.pdfa = = = = = = =...
TRANSCRIPT
M-curve, Ka~muA.ri M (= Kaµnu/..ri µovaorov M).
M-unit, µovac; M ('tpononotouµt. VOi) StaGA.acr'tlKOU oeiK'tOU).
Macfarlane (Alexander -), ('AU. savopoc;) Mmcq>apA.av (crKci:l'tOc; µa0riµanK6c;).
Mach (Ernst -), ('Epvfow~) Max ( = aucr•ptuKoc; cpucrtK6c;· 1838 -1916).
Mach angle, µaxwvq yrovia· [ yrovia 'tOU Max}.
Mach cone, µaxwvoc; Kci:lvoc;· {Kci:lvoc; •ou Max].
Mach line, µaxwvq ypaµµft· [ypaµµi] 'tOU Max].
Mach number, µaxaptGµoc;· [µaxiavoc; api6µ6c;· api6µoc; (wu) Max].
choking Mach number, crtpayyaA.1K6~ µaxcip10µo~· [ crtpayyaA.1K6~ µaxiavo~ ap10µo~J.
Mach reflection, µaxiavi] avaKAacric;· [uvaKA.amc; wu Max].
Mach stem, µax1avov cr•tA.exoc;· [cr•fAexoc; wu Max]. (:EYN.: single vertical wave).
Mach wave, µux6Kuµa· [ µaxwvov Kl>µa· Kuµa (wu) Max].
machine, 1, µrixuv1iµa. 2, <I>Yl:., (anJ.:fj) µrixavf].
accounting machine, A.oymnKl) µT]xavi}.
610 .
M
adding machine, 7tpocr0enKl) [ 7tpocr-0mpmpenKl)] µT]xaviJ.
addressing machine, Steu0uvmaKl) µT]xavi}.
analogy machine, MHXT., MA0., uvaJ..oytaKOV µT]XcIVT]µa.
billing machine, tlµoA.oyiJ-rp1a· [nµoA.oy11nKl) µT]xavi}].
business machines, ypmpetaKai µT]xavai · [µTJxavai ypmpelou].
calculating machine, U7toA.oy1crnKi) µT]xavi].
computing machine, I, A.oy1crµoµT]xaviJ· {J..oytcrµlKl) µT]XUVTJ}. 2, = computer.
data processing machine, crto1xe10-µ::myroylKl) µT]xaviJ.
design of machines, crxeotoA.6yT]mi;; [crxeowA.oyla] µT]xavT]µcitrov· [µTJxavT]µanKl) cr:xeotoA.<'>yT]crt~} .
designer of machines, crxeotoA.6yoi;; µT]xav11µcitrov.
dictating machine, imayop6cprovov· [imayopeuttKl) µT]:xaviJJ.
duplicating machine, 7toMypacpo~· [ 7to/.uypacp1Kl) µT]xavi]j.
electrical accounting machine, i]AEKtp1Kl) A.oy1crttKl) µT]xaviJ.
high-speed computing machine, -raxuA.oy1crµ1Kl) µT]XUVTJ" {A,oymµoµT]XUVl) taxeia~ a7to06crero~].
integrating machine, 6A.oKA.T]pronKi) µrixavi}.
invoicing machine, nµoA.oyiJ-rpia· {ttµoA.oyT]ttKl) µT]xaviJ].
mechanical (and electronic) machines, µT]:xav1Ka (Kai 1iA.eKtpov1Ka) µT]:xavi}µata .
numbering machine, ap10µoµT]xaviJ· [ µT]xavl) apt0µi]crero~].
office machine, ypacpetaKi] µT]xavi}.
machine address
Post machine, 7tocrt1avov µT]:x<i.v11-µa· [autoµarnv toi:\ IT6crt].
self-organizing machine, aurnpyavronKl) µT]:xav(].
simple machine, <l>YI:., U7tAi'\ µT]xaviJ · [a7t/.ou~ µri:xavlcrµ6~].
testing machine, µrixuvl) [µrixuvT]µa] OOKtµacria~.
Turing machine,. t0p1vyKmvl) µi1-xaviJ· {tup1vyKiavl) cruCflCeuir 6µ01rottK6v 01ucrKeuov rnu Ttoup1vyK].
unbalanced machine, acrtu0µtcrto~ [ uv1crocrtU0µ1crto~] µT]xavi}.
machine address, AOrn:M., µrixuvriµanKl) Staµovf] .
machine check indicator, evOstK'tf]c; eseA.ty~eroc; µrixuvi]µawc;.
machine element, (BacrtKov) •µflµa (cruv6twu) µrixavftµawc;.
machine error, µrixavriµanKov crq>aA.µa· [ crcpaA.µa µi1xavi]µawc;].
machine language, AOrn:M., µ1']xav1iµanKi} yJ..ci:lcrcra.
preparation in machine language of the commands to be inserted into the memory of a computer, ew1µacria
' I cruvta~t~] Ei~ µT]XUVT]µan!'l)v yMJC'Jcrav trov 7tpocrmyrov t&v etcrax0TJcroµevrov sl~ to µvriµ1Kov tou A.oy1crµ11-toiJ.
machine-language code, AOrU:M., K&<>is µrixavriµanKiic; yA.rocrcrric;· [ µrixuvoyA.rocrcrtKoc; Kci:ll>t~].
machine operator, xeiptcr•l'Jc; µrixuvfjc;"[ xeiptcr'ti}c; µrixavf] µawe;].
machine oriented language, AOrn:M., µi1xuvocrK07tlKTJ { µrixuVf]µanKi}j yA.ci:lcrcra.
machine run, Aorn::M., µrixavriµanKi} owopo~1ft.
machine-sensible, AOrn:M., µri-
Maclaurin's theorem
xuvuu;rGri•6c;,f],6v· h1rixuvuvn/.rin•6c;,ft,6v].
machine tool, TEXN., epyuA.etoµrixuvf].
machine translation, µrixavriµunKTJ µe•aq> pucric;.
machine word, AOrI~M., µrixuvriµanKTJ M~tc;.
machinery, µrixavf]µarn. computing machinery, A.oy1crµT]ttKa
µrtxavi]µata.
machinist, ~1rixu Vf]ti]c;.
MacLane (Saunders -), o:rov•epc;) MaKAairiv ( = aµeptKUVoc; µaGriµanKoc;· y. 1909).
Eilenberg-MacLane spaces, xropo1 • Ai'A.evµ7tF.pyK-MaKA.airiv.
MacLane theorem, µaKA.aviavov esropriµu· [6eropriµa iou MaK),airiv ]. ,
Maclaurin (Colin - ), (K6A.tv) Mmc/.roptv· ( = crKci:lwc; µuGriµanK6c;· 1698 - 1746).
Euler-Maclaurin sum formufa, Stat\J7troµa . a0poicrµatO~ · ouA.ep-MaKMilptV' [ suA.T]poµaKA.rop1v1avo~ t\J7to~ a0poicrµat0~].
trisectrix of Maclaurin, µaKA.rop1-v1avl) -rp1xot6µ0~· [ tp1xo•6µoi;; tou MaKMlptv}.
Maclaurin expansion, µaKA.ropwtavov uvan•uyµa· [ avan•uyµa :rnu MmcA.ropiv· uvamusic; wu MaK/,!Optv].
Maclaurin's configuration, µutlropiviavoc; crxriµcmcrµoc;· f crxriµancrµoc; •ou MaKA.roptv ].
Maclaurin's series, µaKA.ropiviavft cr&ipa· [ creipa •ou MaKA.ropiv].
Maclaurin's theorem, µaKA.ropivia-
611 ,
m acroinstruction
vov 0i;ci>prnw: [0sci>prnia wu MmcA.ci>pL v j.
macroinstruction, AOrII:M., µa-1CpoeV'toA. 11 .
maelstrom, po0<pou/...ai;.
magazine, J, 0i1Krr [ &.7to0ii.q}. 2, AOrII:M., l>e/... rnpHiniJi;· [l>fJ. rnpto<popi::ui;·}.
input magazine, oeA.'taptooc'rrri i; · [ e!m:oµL<:m'Ji; oe>..:raplrov }.
output magazine, o&A.'tapto/,ipnri;· {EKKOµtcrt~i; oeA.mpirov }.
Magendie (Fran~ois -), (<l>pay1dcr1Coi;) Ma~avd ( = y6.A.A.oi; <pucrtof...6yoi; · 1783 - J 855).
Bell-Magendie law, v6µoi; Miten-Ma~avti.
magic cube, µayucoi; JC0~oi;.
magic square, ~mytJCov 'tc'tpuycovov.
magnetic axis, µayvrinJCoi; Ci~cov.
magnetic circuit, µayvrinKov 1CU-JCl.coµa.
magnetic core, AOrII:M., µayvq't07tupiJv1 µayvq'ttJCo<; rmpiJv}.
magnetic core storage, AOrII:M .• µayVTJ't07tUpTJVllCTJ U1t00TJ1CeUcrtC• [a7to0iJJCeumi; µayv11nKoi:i 1t~pflvoi;j.
magnetic curves, µayv11nJCai JCa~1-7tUAat.
magnetic declination, ~LCLYVTJ'tllCTJ a-7t01CAtcrt<;.
magnetic deviation, µayv11nKT] EJC'tpo7tiJ · [ µayv11nKij 1tapcK'tpo-7t iJ].
magnetic dip, ~lU"fVTt'ttlCij E"fJCAtcrti;.
magnetic disk, µayv11tucoi; oicrKoi;· [ µayVTJ't61>tcrJCo<;].
612
magnetic inertia
magnetic disk storage, AOI'II:M., ~1arv11 mo tcrJCt KTJ &.7to0iJ Keumi;· [ U7to0iJJCeucr1i; ~lCL'YVTJ'tllCOU oiO'lCOU j.
magnetic domain, ~tUYVTJ'rllCT) 7teptoziJ.
magnetic drum, ~1ayv1rrmu~11tavov[ µayVTJ'ttlCOV 'rU~L7tUVOV}.
magnetic drum storage, AOrII:M •• µayv1"]>rni}>µna Vt JCT] imo0iJ 1Ceucr1i;· { Cl7to0iJJCCUO'li; µayV11'ttlCOU 'rUµ7t6.vou}.
magnetic eleroent, ~tayvT]nJCov crrn1-xi::Iov.
magnetic fatigue, µayvqnJCT] JC67trocr1i;.
magnetic field, ~tayvT]nKov 7tcOtov.
magnetic flux, µuyv11nKT] pucr1i;. line of magnetic flux, ypaµµfj
µayvrittK1'i; pucreroi;.
tube of magnetic flux, crroA.T}v µa•tvritnc1'i; pucrero;· [ µayvT]ttKl'l pU. mi;}. .
unit magnetk flux, µovaotaia µaYYTJttKl'l PUcrt<;.
magnetic force, µayVTJ'rllCTJ Mvaµ1i;.
field of m,agnetic force, m;oiov µa"fYTJttK1'<; ouvaµeroi;· {µayYTJTlKOY lt&· oiovj.
magnetic heading, NA YT., µayv11-'tt1CTJ 7tops(a.
magnetic hysteresis, ~1ayv11rncr) 6-0''tEpTJcrti;.
magnetic inclination, µayv11nKTj EY· 1\Cl.tcrti;. (I:YN.: magnetic dip).
magnetic induction, ~tayvrirnci] E1taycoyiJ.
magnetic inertia, µayvT]nlCij aop6.Vcta.
magnetic intensity
magnetic intensity, µayv11rnci] l:v'tacrti;.
magnetic lag, µayVTJ'ttlCOV JCa.0ucr'tE· pTJµU.
magnetic meridian, µayVTJ'tllCO<; µscrriµ~pt v6i;.
magnetic micropulsations, µayv11nKai µtKpo7tal..~1rocri::1i;.
magnetic moment, µayvqnKi] po-7tTJ.
magnetic potential, µayv11nKov 1>uvq'ttJC6v.
magnetic pressure, µayvl]rnci] 7tte· crti;.
magnetic quantum number, µa.yv11-nKo<; 6.1Cpt~ocrt6i;.
magnetic recorder, µayv11nKoi; JCa.wypa<pi::ui;· [ µayVT]'rO<pCOVOV 1.
magnetic retardation, µayVT]tuCT] e1t1~p6.1>uvmi;.
magnetic shift register, AOrII:M., µayv11toµsmtaJCnKov µTJ'tproov.
magnetic storage, AOrII:M., µa.YVTJ'ttlCTJ a7to0ii.Keucrti;.
magnetic susceptibility, µayvl]nKij l>i::KnKo'tTJ<;.
magnetic tape, µayvT]nJCij rntvia · [ µayVT]tO'tat v(a}.
magnetic tape reader, AOrII:M., µayVT]'tOtat VtCLlCO<; avayVWO''tTJ<;.
magnetic tape storage, AOrII:M., µa.yVT]'tOtat VlO.KTJ U7t00ii.1CcUO'ti;.
magnetic tape unit, AOrII:M., µaYVTJ '!Ota. t VtalCTj O'UO'ICCUTJ.
magnetic unit, <I>YI:., µayv11nKi] µov6.i;.
magnetostatics
magnetic variation, <I>Yr., µa.rV11-n KTJ µ&'ta.A.I.a. yiJ.
magnetic wire, µa.yVTJ'tocrupµa· [µaYVTJ'ttlCOV crupµa.j.
magnetism, <I>YI:., µayv11ncrµ6i;. induced magnetism, eitaKtoi; [tita
yroytKoi;j µarvrittcrµ6i;. terrestrial magnetism, yfilvoi; µa-
yvrincrµ6i;.
magnetization, µa.yviJnmi;.
magnetize, µa.yVTJ'ri~co.
magnetohydrodynamics, µayVTJ'tOl>-l>pol>uva.µtKiJ · [µa.yv~'t07tAacrµoouvaµtKiJ}.
magnetoionic, <I>YI:., µa.yv11toi'.ovnK6i;,i],6v.
magnetoionic theory, <I>YI:., µaYVTJrntovnKl) 0scopia..
magnetomechanical ratio, µayv~1:0-µ11xa.vtK'.oi; [ yupoµayv11nKo~] Myoi;.
magnetometer, µayVTJ't6µe'tpov.
magnetometry, µayVT]toµetpia..
magnetomotive force, µayVTJ'teyep-nKi] Mvaµti;.
magneton, <I>YI:., µa.yVTJ'tOVtov ( = µovai; a1Cpt~ocr'teuµtv11i; µayvriwcf]i; po7tf]<;).
(electronic) Bohr magneton, (iJA.eKtpovtKOY) f3oxptav6v µayYT)TOYlOV" I µayvTJt'6vtov w{) Mrt6p].
nuclear magneton, itupT)YtlCOV µayVTJt'OYtov.
magneto phone, µayVTJ't6<pcovov.
magnetoresistance, µa.yVTJtO.V'ttcr'tacrti;.
magnetostatics, <I>Yr., µayv11tocr'ta'rt1CTJ.
potential in magnetostatics, ouvrinlCOY f,y 'tU µayYT)TOcrtanKij.
613
magnetostriction
magnetostriction, µayvrrc6crq>i~ii;· [ µayvrrrncrum:oA. ij].
magnetostrictive delay line, µayvri'tocrucrtaA.nJCTj ypaµµTj JCa0ucrtEpi[ cr&roi;.
magnetron, <l>Y:E., µayvritp6vri.
magnification, 1, MHXT., µi>y&0uvcric;· 2, HAEK., U1tEp~acr{a· [urtEp~acrtc;].
angular magnification, yrovu:tKi] µEye0uvcru;.
geometric magnification, yi;roµEtplKi] µEye0uvcrtc;.
harmonic magnification, apµOVlKi] µi;ye0uvcru;.
ratio of magnification, A.6yoc; µEyi;0uvcri;roc;.
static magnification, crta:ttKi] µi;ye-0uvcrtr:,.
magnification curve, MHX., JCaµ-1tuA. ri · µf:y&06vcr&roc;.
theoretical magnification curve, 01:-0lpTJUKi] Ka:µnuA.11 µ1:y1:euvcr1:roc;.
magnification factor, 1, MHX., 1tUpciyrov µ&y&06vcr&roc;. 2, HAEK., rtapciyrov Om;pj3acriac;· { O"UV'tEAEO"tll<; u1t&pj36.cri>roc;].
magnification of initial deflection, MHXT., µi>y£0uvcric; 'tfjc; &.pxtKfjc; U1t01CUµ\jJE(J)c;.
magnification ratio, MHX., A.Oyoc; µ&yi>06vcri>roc;.
magnifying power, <l>YE., µi>yc0uv'tt1CTJ o6va.cric;· { µEy&0UV'tt1CTJ {JCUVO'tll<;}.
magnitude, MA0., µ&yi>0oc;. absolute magnitude, un6A.utov µe
yi;0or:,. algebraic magnitude, aA.yi;ppucov
µey1:0oc;. apparent magnitude, cpmv6µi;vov
µey1:0oc;.
614
Magnus
commensurable magnitudes, cruµµEtpa: µEye0T}.
directed magnitude, l>tEu0uv6µi;vov µey1:0oc;.
fundamental magnitude, 0i;µeA.tool>Ec; µtyi;0oc;.
geometric magnitude, yi;roµEtptK6v µtyi;0oc;.
measurable magnitude, µEtpi)mµov µey1:0oc;.
order of magnitude, t<i~tc; (tou) µi;yt0ouc;.
photographic magnitude, cprotoypa:cptKov µeyi;0oc;.
photovisual magnitude, cprot07tHKOV µeyi;0oc;.
radiometric magnitude, pa:l>toµEtptKov µeyi;0oc;.
real numerical magnitude, 7tpa:yµa:ttK6v apt0µtKOV µtyi;0oc;.
relative magnitude, crxEnK:ov µeyi;0oc;.
spatial magnitude, xropai:ov ~u;yi;. 0oc;· [ tptl>t6.crta:tov µeyi;0or:,].
stellar magnitude, A:ETP., acrtptKOV µeyE0or:,· { µEyE0oc; Ucrtepor:,j.
visual magnitude, A:ETP., 6pa:ttK6V [ yuµ v6cp0a:A.µov] µeyE0or:, ( = flEyE0oc; tKnµi]crtµov l>tO. yuµvou .6cp0a:A.µou).
magnitude of a pulse, <l>YL, µ&yi>0oc; rcaA.µou.
magnitude of a quantity, MA0 .• µ&yi>0oc; (µtile;) 1t0cr6'tTJ'tO<;.
magnitude of a star, AETP., µ&y&-0oc; ucrtspoc;.
magnitude of a vector, MA0. , µ&yE0oc; &.vucr~tawc;· [ civucrµan-JCov µsyi>0oc;]. ·
magnitude of the load, MHX., µ£yi>0oc; wu q>optiou.
magnitude of the lumped masses~ MHX., µsyE0oc; 'tIDV crmpt'KWV µa(,&v.
Magnus (Heinrich Gustav-), ('Ep-piKoc; roucrtauoc;) MuyKvouc;
Magnus effects
( = y&pµavoc; cpucriKoµa0riµanK6c;· 1802 - 1870).
Magnus effects, BART., <paiv6µ&va {ev'turtroµa-ra] wu MciyJCvouc;· [ µayvoumava evturtroµa'ta 1.
Magnous thrust, µayvoucriavf] ©me;· [©me; wu MuyKvouc;].
main diagonal, lCUp{a Otayffivt0i;.
main diagonal (of a matrix), Kupia [ rtpffitTJ] otayrovioc; (wu µri'tpciou).
main frame, AOrIEM., KUptOV nA.aicriov· [ Kupia crKEUTJ (A.oytcrµrinJCou crucr'tfjµawc;)].
main storage, icupta &.rto0i[Kcucrtc;.
main theorem of (von) Neumann, ic6piov vcuµavviavov 0i>ropriµa· {K6piov 0i>ropriµa 'tol> (~ov) N6uµav].
maintainability, MHXT., cruV'tTJPll-. cria ( = OtU'tTJf)TJ'tO'tTJ<; uA.tlCOU).
maintainability engineer, MHXT., CTUV'tTJPllO"W:KO<; ~trix;avot&,x:vri~· [ µTJxavo-rsx;v11c; cruV'tTJPricriac; uA.tJCou ].
maintainability engineering, MHXT., cruv-r11p11criaKi} µm-;avot&x,via· [ µi')XUVO'tEXVia O"UV'l"TJP11-ofoc; uA.tKOU}.
maintainable, cruv-r11pf]criµoc;,oc;,ov.
~aintenance, TEXN., cruv-riJp11mc;. file maintenance, AOrU:M., tip
XEu:tKi] cruvti] PTJ me;. preventive maintenance, npoA.rinn
Ki] cruvtiJpTJcrtc;. remedial maintenance, £na:vop0ron
Ki] cruvti]pricrtc;.
major arc (of a circle), µ£,ya f µ&i. (,ov] 'to~ov (1C6KA.ou).
malfunction routine
major axis of an ellipse, µsyai; a~rov (tfjc;) sA.A.&t\jf&roc;.
semimajor axis of an ellipse, µeyac; i]µt<i~rov tf\c; £1..A.Eilj!Eroc;.
major axis of an ellipsoid, µsync; {i~(l)V ( tOU) SAoAoEt\jfOEtOOU<;.
major cycle, µEisov K6JCA.rwa· [ µ&i(,rov cpumc;].
major premise, AOr., µ&i(,rov rtp6-'tacrtc;.
inajor segment of a circle, µi>isov -rµfjµa KUKA.ou.
major term, µEi(,rov opoc;.
make, JCa-racrKcuu(,ro· [ cpnuvm ].
make up, Katapti(,ro· [ Katacrtpro-vro· cruvflstm].
Makeham (William M. -), (rouA.tsA.~1oc; M.) Mai11qaµ ( = Ppcrnvoc; µa011µanK6c;· 6.7t. 1892).
Makeham's law, µaKcx;aµtavoc; v6-µoc;· [v6µoc; tou Mai11Kx;aµ] ( = v6µoc; 'tfjc; icr:x;6oc; 'tfjc; 0v11-crtµ6't11rnc;).
maker (of a promissory note), OIK., (6) sK06-r11c; (tou ypaµµa'tiou).
makeup, Katupnmc; "{Katapncrµ6c;· Ka-rucr'tpmmc;· cr6v0&mc;].
malfunction, 1, KUKOAoEtt0upyia ( = KUKTJ 11 7tAT]µµcA.i}c; A.Ett0upyia). 2, AOrIEM., ~A.UJ311 (tfjc; CTKAoflpoO"KEUfjc;).
program sensitive malfunction, AO· rn:M., PA.UPri A.6yq> npoypaµµucf\c; i;\Jmcr0T]cria:r:,.
malfunction routine, AOrn:M., crupµTj KUKOAEt'tOUpyiac;· {otayvrocrnKTj crupµTj} ( = crupµTj otayvrocr&roc; ~A.a~ric; tfjc; crKA. T]pomccufj c;).
615
malleability
malleability, MHXT., e.Aat6tric;· [e.Aacnµ6tTJc;]' (mt' avnotacrto.A i)v 7tpoc; to ductility, 6.A.Ktµ6-tric;).
malleable, MHXT., s.Aat6c;,iJ,6v· [e.Aamµoc;,oc;,ov ]' (Kat' &.vnowcrto.Ai)v 7tpoc; to ductile, o.A.Ktµoc;,oc;,ov).
Malthus (Thomas Robert -), (0roµilc; Poptpwc;) M<iMouc; {Ma/....-0oc;] ( = iiyy/....oc; oiKovoµo.A6yoc;· 1766 - 1834).
Malthus's law, µa/....0oucrtavoc; v6-µoc;· [v6µoc; tou M<i.A0ouc;j.
Malthusian, µa.A0oucrtav6c;,iJ,ov ( = tou M<i/....0ouc;).
Malthusian parameters, µa/....0oucrtavai 7tap<iµstpot.
man-hour, = manhour.
man-land ratio, LTA T., Myoc; ro.Ari-0ucrµou 7tpoc; 7t6pouc;· [Myoc; avayK&V-7t6prov].
man-machine integration, MHXT., MA0., Eµ\jlUXOU\jlUXO<; OAOKATJprocrtc;• { o"AoK/.... ii procrtc; ( trov ouvatotiJtrov) eµ\jluxou Kai U'ljlUxou UAlKOU].
man-machine system, eµ\jlUXOll'ljlUXOV crucrtriµa.
man-made, I, av0pro1t61t"Aacrtoc;,oc;, av· { av0pro7tOOT)µtoupntoc;,oc;, OV j. 2, Xetp07t0lT)tO<;,O<;,OV'{Xelp07t0~1']t6c;,iJ,6v j.
manage, I, ornxstpit:oµm. 2, Katop0ffivro· [ Katar.ptpvro].
management, I, OIK., &mxsiptcnc; ( = to tlKrs"AscrttKov .Aettoupnµa 7tpocrxsotacrµou, opyavfficrscoc;, cruvtovicrµou, ornu0uvcrscoc;,
616
management
EAEYXOU, Kai e1t01tteiac; µtuc; Ptoµl]XaVtKfj<; i) eµ7toptaKfjc; opacrtTJpt6'tl]t0c;). 2, OIK., otaXetptcrttKiJ. 3, OteU0uvcrtc; (KatacrtiJµawc;, K),<ioou, Kt.A.). 4, &tax;stptcrµoc; (µtile; u7to0fosroc;, KtA.). 5, Xetptcrµ6c;.
business management and organization, tpyacru:r:Kit lhaxeip1cnc; Kai 6pyavoocnc;.
environmental management, 1, itep1j3al..A.ovnKT'} OtaXeiplcrtc;. 2, itep1j3aA,A.ovnKiJ 01axe1p1crnKiJ.
financial management, 1, XPT)µawvoµ1Kit otaxeiptcnc;. 2, XPT)µawvoµ1-1C1'J omxe1p1crnKiJ.
industrial management, 1, j31oµT)xav1KT'} OtaXeiptcrtc;. 2, j31oµT)XaV1Kft 01axe1p1crnKi).
inventory management, MHXT., MAE>., 1, 01a9eµanKi) 01axeip101c;. 2, Ota9eµanKiJ OllXXetplO''tlKi).
mathematics of management, 01a~ xe1p1m:1Ka µa9T)µanK<i' [ µa91iµawcci Tfjc; 01axe1p1crnKf\c;].
money management, 1, XPTlµanKTi ota:x,eiptcnc;· [oiaxeip1cnc; xpftµawc;J. 2, :x.pT)µanKi) 01a:x,e1p1cr}'1Ki).
office management, 1, ypacpetaJCTi omxeiptmc;. 2, ypacpetaJCft ota:x,e1p1-cr't1Ki).
personnel emanagement, 1, oiaxeip1cr1c; itpocroomKoo. 2, 01a:x,e1p1crnJC1' itpocrOOltllCOO.
production management, l, ota:x,eip1cr1c; Tf\c; itapayooyfjc;. 2, 01a:x.e1p1crn1ei) Tfjc; itapayooyfjc;.
sales management, 1, oiaxeip1a1c; Trov itroA.i)creoov. 2, mDAT)crtaKT'} 01axe1p1crnJCi)· [01axe1p1crnJCit Trov itcoA.i)creoov ].
scientific management, 1, &mcrTT1-µov1Ki) 01axeip1cr1c;. 2, tmcrT1iµov1Kt'\ oiaxe1p1crwci)· [ 6p9o)..oytcr'tl1CTJ 6pyavrocnc; Tfjc; tpyacriar;].
soil management, 1, eoacptKi) Ota:X,eiptcrtc;. 2, 01axe1p1crw<ft wo toacpoix;· { eoacptKTJ OlU:X,etplO'TlKTJ}.
solid waste management, 1, 01axeip1cr1c; (Tci'.>V) O'Teperov UltOpptµµ<i-
management consultant
'tOOV. 2, crtepeoaitopp1µµaT11CTJ Ota:X,e1-p1crnJCiJ' [01axe1ptcrnJCit Tci'.>v crTeperov (mopp1µµUT(J)V] .
waste management, l, aitopp1µµaT1Ki) 01a:x,eip1mc;· / 01axeip1mc; T&v O.itopp1µµaTrov]. 2, ciitopp1µµanKi] 01axe1ptcrnKii.
management consultant, omx;stptcrttKoc; cruµpou/....oc;· { cruµpouA.oc; &tax;sipi.crsroc;].
management engineer, Otax;stptcrnKoc; µT]x;avon~xvric;. (LYN.: industrial engineer).
management engineering, omxsiptcrnKT] µrixavon;x;via. (LYN.: industrial engineering).
management gap, &iaxsiptcrttKov x;<icrµa.
management information system, AOrILM., crucrtriµa 1tAl]por.pop1icrsroc; tfjc; Otax;stpicrsroc; (µtile; em xstpiJcrsroc;).
management science, OtaXetptcrttKTJ smcrtiJµri· {8tax;stptcrnKiJj.
manager, 1, OIK., 8tax;stptcrtiJc;. 2, Oteu0uvtl']c; [ 7tpo'lcrt<iµsvoc;] (Katacrtiiµatoc;, K"A<i8ou, ypar.psiou, lCtA.). 3, 7tpUKtrop ( = OLKOVOµtKoc; EKnp6crro7toc; Ka"AA.ntxvou, cruyypar.ptroc;, 6.0A.T]toU, KtA.).
managerial, OIK., Otax;siptcrttK6c;, iJ,ov ( = tfjc; 8tax;etpicrsroc;).
managerial problems, 8taxstptcrnKtt 7tpop/..iJµarn· {7tpopA.iJµata Otax;stpfcrsroc;].
managing, 1, OIK., 8tax;siptcrtc;. 2, omxstptcrµ6c;.
maneuver, nint6c;· { µavouppa]. topological maneuver, TOitoA.oytKor;
tA.1yµ6c;.
maneuverability, f:A.tK'tOtl]c;.
manifold
manhour, &pspyov ( = µovuc; cbptafac; epyacriac; evoc; avop6c;).
manifold, MA0., 7tOAU7ttUKtoc;,oc;, ov.
manifold, MA0., 7tOAU7ttuyµa. algebraic manifold, cif.. yej3p11C6V ito
/,uitwyµa. characteristic manifold, xapaKTTl
p1crnKov ltOt.UitTUyµa· [!OtoitOMitTUyµa].
cobordant manifolds, TOIIOA., cruv6µopa itOAUitt6yµaTa.
complex manifold, µ1yao1Kov itoMittuyµa.
determination of invariant manifolds of matrices by means of iterations, ltpOO'Otoptcrµoc; aµet!lj31..i)TOOV it0Auitwn1arrov µiitpeirov 01&. (Ti'\c; µe0600U Tci'.>V) civcmpocreyytcrµffiv.
differentiable manifold, omcpopicr1-~LOV ltOAUm:uyµa.
differential manifold, otacpoptKOV itoMm:uyµa.
embedded manifold, EvaKTOV [f.vTetayµi;vov] itof..uitTuyµa .
infinite manifold, liite1pov ito/,(mwyµa.
intrinsic manifold, itpocrcpui;c; itoMm:uyµa.
Kahler manifold, KmxA.eptavov itoMitwyµa.
linear manifold, ypaµµ1JC6v itoMitwyµa.
n-manifold, vu-itoMit-ruyµa· [vu-01acrrnwv itoA.6itTun1a].
nonorientable manifold, µi] itpocravawA.imµov [ µiJ eo0eTijmµov] itoMitruyµa.
numerable manifold, ciitap19µT}TOV itoA.um:uyµa.
ordered manifold, otaTemyµtvov itoMitwyµa .
orientable manifold, itpocravawA.imµov [ e09eTijcnµov] itoMitwyµa .
progressive manifold, itpoooeunKov itoMitTuyµa.
Riemannian manifold, piµavvtavov itoMm:uyµa· [ itoMitwyµa roo Piµav].
617
manifoldly multiplied
self-constituted manifold, a.i:rrocrucrtatov no/...lintuyµa.
surgery of manifolds, XEtpoupytKit {xEtpo(Jpyricrv:;] 'tOOV 1tOA\J1ttuyµ<i'tCOV.
symplectic manifold, cruµnl.EKnKov noMnwyµa.
three-dimensional manifold, tp101<icrtatov nof...liittuyµa.
topological manifold, wnof...oy1Kov noMnwyµa.
two-dimensional manifold, 0101<1-crtatov nof...liittU(µa.
uniform manifold, 6µot6µopq>ov [tviaiov] nof...\mtuyµa.
manifoldly multiplied, no/,,,untUKtffii; no/,,,A.a.nA.a.cna.crf>eii;,eicra.,tv.
manifoldness, MA0., noA.u7ttlJKt6-tT)i;.
manipulate, xs1pisoµa.t.
manipulated variable, MA0., x:siptcrnKi] µi>ta.PA.TJtiJ.
manipulation, X:Etptcrµ6i:;. mat,hematical manipulation, µaOri
µunKo<; XELptc;rµ6i;.
manned, l:na.vSpoi;,oi;,ov· [f.navOpffit6i;, 11,ov· tm1 vSpffiµtvoi;, TJ, ov}.
~n1?anned, O.vsmivopcoi:oi;,oi;,ov· [µri Em1vopooµevoi;,ri,ov].
manned spacecraft, f.na.vSpffitOV [ E7tT]VSpcoµtvov] ai;pocrKa<poi;.
manner, tp6noi;· [ <ptpcnµo· cruµnspt<popa j.
conventional manner, cruvfJOrii;; [KUOtspcoµevoi;;] tp6itoi;.
manometric equivalent, µa.voµi>tptKOV {0A,ipoµstpLKOV J icroSuva.µov.
manpower, av0pomoSuvaµtK6v·
618
{&µ'lfllXoi; Suva.cr1i;· eµ'l'uxov uA.tK6v j.
manyness
mantissa, MA0., oupu [Si>Ka.StKov µtpoi;] /,,,oya.pi0µou.
rule for finding mantissa, Kavoiv EUpfoEcoi;; ti\<; OOpfii;; toii f...oyapiOµou.
manual, tyxsipioiov.
manual, I, x:s1ponotT)t6i;,i],6v. 2, X:EtpOKlVTJ.tOi;,oi;,ov.
manual control, x;sipoKiVT)toi; 6-A.1:yx:oi;· {xstpOKlVT)toi; x:uPtpVT)crti;}.
manual keyboard, x:sipox:[vT)toi; x:A.siSovoµi].
manually, x;1:tponotT)t&i;· {Sta ti)i; x:1:1p6i;· 01u t&v x1:tp&v· µe to xtpiJ.
manufacture, Pt0µTJxa.vw ( = x:ata.<JKWUsffi, 01acrx:euasffi, i1 µstanoiw ).
manufacture, 1, PwµT)XUVTJ<ni; ( = PtoµT)XO.VLKi] KU'tUO'KWlJ, Ota.<YKWlJ, i1 µi>ta.noiT)cni;). 2, Pwµrix:avriµa· {Pt0µT)XUVLKOV 7tp0-i:6v J.
faulty design or poor manufacture, it/.. TjµµEA iti;; crxEoLOf...6yTjcrti;; il KUKi] f3wµrixavricr1i;.
manufacturer, Pt0µT)XO.VT)ti]i:;.
manufacturing, Pt0µT)XUVT)crti:; ( = Kata.crKwi], Sta.crKwi], i1 µi;rn-noiTJ.cni; Stu Pt0µTJxa.v1K&v µtcrffiv).
many-dimensional geometry, 7tOA'l}Stacna.toi; yi>ffiµetpia..
many-valued function, nA.siov6nµoi; cruvaptTJ.cni:;.
many-valued logic, AOr., nA.stov6-nµoi; A.oytKi].
manyness, n\1:16tTJ.i:;· [ noA.A.anA.6-'tTJ.S]·
map
map, MA0., 1, dKovil;co, 2, urtoturt&.
map, 1, XAPT., xaptT)i;· [ysffixaptT)i:;· y1:ffiypa.<pix:oi:; xaptTJ.i;J. 2, MA0., 1:lKov1crµai;.
area-preserving map, MA0., tµf3aootT]pTJnK6i;; EiKov1crµ6i;;.
atlas map, XAPT., yscoypaq>tKoi;; xaptTji;;· [ YEOOXUP'tTJ<;}.
azimuthal map, MA0., O.~tµouOiaKO<; EiKov1crµ6i;;.
cadastral map, XAPT., K'tTJµuwf...oYlKO<; xap•rii;;· r K•TJµawx<iP•rii;J.
canonical types of conformal maps, MA0., OscrµtKoi t\mot cruµµ6pcpoov EiKov1crµrov.
canonical types of multiply connected maps, MA0., OscrµtKoi 't'tmot no).f...aitM'>i;; cruvait'tUJV EtKOVtcrµrov.
central map, MA0., KEVtptKoi;; [{miKEV'tpoi;} E!KOVtcrµ6i;;.
computations of conformal maps, MA0., imo/...oymµoi trov cruµµ6pcpcov EiKOVtcrµrov.
conformal map, MA0., cruµµop<poi;; EtKOVtcrµ6i;;.
conformal map of unit circle on itself, MA0., m.Jµ~LOpcpoi;; ElKov1-crµ6i;; µov6.1ioi;; KUKA.Ou tcp' tauti}v· { cruµµopq>o<; EiKOVtcrµo<; µOVUOLULO\J KUKAO\J tcp' Ea\J'tOV ].
conformal maps of Euclidean volumes on each other, MA0,.ol.µµopq>ot EiKOVtcrµoi EOKAElOeLOOV oyKCOV tit' 0.f.../...i]f...oui;;· { cruµµopq>Ot t'lf...f...T]AOELKOVlcrµoi (trov) EOKA&LOELCOV oyKOOV ].
conformal maps of multiply connected domains, MA0., cruµµopq>ot EiKoVtcrµoi no/...f...aitf...Uii;; cruvantrov nspwxrov.
conical map, MA0., KOOVtK6i;; EiKov1crµ6i;;.
connected map, MA0., cruvant6i;; EiKOVtcrµ6i;;.
construction (and application) of maps, XAPT., xapal;ti;; (Kai xpi\crti;;) •iilv xaptrov.
contour map (of a surface), 1, MA0. icroypaµµ1K6<; EiKovtcrµoi;; (tmcpavEi-
map
ai;;). 2, XAPT., rEn~ .. UljfOµE'tPlKO<; xaptT]i;; (tmcpaveiai;; yi\i;;).
convex map, MA0., K\JptOi;; Elicov1crµ6i;;.
cylindrical map, MA0., icu/...1vop1-ic6i;; E(KOVtcrµ6i;;.
cylindrical spherical map, MA0 •• K\JAt voptKO<; crq>atptKO<; ElKOVtcrµ6i;;.
directly conformal map, MA0., EOOtooi;; cruµµopq>oi;; e!KOVtcrµ6i;;.
directly conformal plane map. MA0., EiJOecoi;; cru~tµopcpoi;; E1tL1tE8oi;; ELKOvtcrµ6i;;.
equal area [equiareal] map, MA0 .• icrsµf3aotK6i;; EiKov1crµ6i;;.
equivalent map, MA0., icroouvaµoi;; EtKOVtcrµ6i;;.
even-spaced map, 6µoou1crtatoi;; Ei· KOVtcrµ6<;.
gnomic map, yvcoµtKoi;; {yvcoµtK6<;) EiKOVtcrµ6i;;.
gnomonic map, 1, MA0., yvcoµoviKO<; EiKovtcrµ6i;;. 2, XAPT., yvcoµoviKoi;; xap•rii;;.
grid map, XAPT., NAYT., 1, tcrx.a· ptKO<; {tcrxapootoi;;j xaptT]<;. 2, Ecr'.)Ccl• poo~ta.
homotopic maps, 6µotomKoi Elicovtcrµoi.
indifference map, ElKOVtcrµoi;; t'llitaq>Opiui;;.
inversely conformal map, MA0 .• avncrtp6q>CO<; cruµ~LOpq>O<; f:iKOVtcrµ6i;;.
isogonic map, HAEK., icroycov1icoi;; xap•rii;.
isometric map, MA0., lcroµE'tPlKO<; siKovtcrµ6i;;.
isothermic map, MA0., icro0EpµiK6i;; [icr60Epµoi;;} ElKOVtcrµ6i;;.
length and area in conformal maps. ~ti]Kll Kai tµf3a8U 'tOOV cruµµ6pq>COV EiKOVtcrµiiJv· [ µf\KO<; KUi tµf3u06v Kata 'tOV cruµµopq>OV EtKOVtcrµ6v}.
Mercator's map, l, XAPT., µepicatoptKO<; x,aptT]i;;. 2, MA0., µEpK<X'tOptKO<; EiKOVtcrµ6~.
multiply connected map, MAE> •• nof...A.anf..iili;; CJ\JVUlt'tO<; ElKOVtcrµ6i;;.
nonconformal map, µiJ cruµµopq><>i;; { t'lcr(Jµµop<pO<;} EiKOVtcrµ6i;;.
619
map a half plane
numerical determination of plane conformal maps, apt0µuc6i;; 7tpocr8toptcrµ6i;; i-rov emn&8rov cruµµ6pcprov dKOVtcrµrov.
orthogonal map, MA0., 6p0oyroVtK6i;; dKOVtcrµ6i;;.
orthographic map, MA0., 6p0oypacpuc6i;; dKovtcrµ6i;;.
Osgood-Caratheodory theorem for conformal maps, 0erop11µa "OcryKouvi-Ka:pa0eo8ropf\ 7t£pi crw1µ6pcprov EiKovicrµrov.
particular topological map, MA0., l8toµepf]i;; t"07toA.oytK6i;; dKOVtcrµ6i;;.
plane conformal map, MA0., btine8oi;; cruµµopcpoi;; £iKOVtcrµ6i;;.
plane map of the earth, 1, MA0., btine8oi;; dK6vtcrti;; [enine8oi;; r.lKov1-crµ6i;;] i-i\i;; yf\i;;. 2, XAPT., enine8oi;; 1eroypacp1K6i;; xupi-11~.
plane topological map, 1, MA0., enine8oi;; wnoA.oytKO<; £iKOVtcrµ6i;;. 2, XAPT., enine8oi;; w1toA.oytK6i;; xupt"TJ<;.
polyconic map, MA0., noA.uKrovtKoi;; d;cov1crµ6i;;.
polygonal map, MA0., noA.uyrovtKoi;; dKOVtcrµ6i;;.
profile map, MA0., Kata:wµucoi;; eiKOVtcrµ6i;;.
relief map, XAPT., uvayA.ucptK6i;; { µopcpoA.oytKO<;} XUP'tT]<;" { µopcpoxupt"TJ<;}.
schlicht map, 6µaA.6i;; eiKovtcrµ6i;;. seismic map, XAPT., cretcrµtK6<;
xupi-TJi;;. spherical map, crcpatptKoi;; e!Kov1-
crµ6i;; . star-shaped map, acrtep6µopcpoi;;
EiKOVtcrµ6i;;. stereographic map, 1, MA0., crte
peoypacptK6i;; EiKov1crµ6i;; . 2, XAPTOrP., cri-epeoypa:cpucoi;; xupi-11i;;.
topographic map, XAPT., wnoypa<ptK6i;; xuptTJi;;.
topological map, 1, MA0., tonoA.oYtK6i;; dKov1crµ6i;;. 2, XAPT., wnoA.oYtK6i;; xupi-TJi;;.
map a half plane conformally onto a polygonal domain, MA0., el.-
620
map theorem
'KOVtsffi l)µumim:oov 'Ka'ta cruµµopcpov 'tp6nov sni noA.uyrovt'KTJV 1tePtOXTJV.
map circles and straight lines onto circles and straight lines, MAE>., el.Kovi.sro 'KU'KA.ouc; 'Kai eu0eim; tni 'KUKA.ouc; xai eU0ei.ac;.
map conformally, MAE>., dxovisro cruµµ6pcproc;· [ dxovisro 1ca'ta cruµµop<pOV 'tp01t0V j.
map-matching, MHXT., MAE>., etxovapµoyir [ ei.xovtcrµtKTJ npocrapµoyiJ].
stellar map-matching, 1, acri-ptKi} £iKOVapµO')'TJ. 2, acr-rptKfj &!KOVapµoO"'tlKTt 6811yecria.
map-matching guidance, LiIA:ET., <lcr'tptxiJ el.xovapµomtKTJ 6oTJyecri.a.
map of the set A in the set B, MAE>., el.xovtcrµ6c; 'tou A cruv6-A.ou tni 'tou B· { ei.x6vtcrtc; wu cruv6A.ou A tni 'tOU cruv6A.ou B ].
map out, I, 1rn'tacr'tprovro (crx£otov, np6ypa~tµa £vepyeiac;, K'tA.). 2, npo8iaypacpffi.
map projection, MAE>., eixovtcrµtKTJ [dxovtcrnxiJ] npopoA.iJ.
conformal map projection, cruµµopcpoi;; eiKovtcrµtKl) nroPoA.i].
map theorem, MAE>. , eixovtcrµtx6v 0emp11µa· [0eropriµa nepi etKovfcreroc;].
four-color map theorem, 0erop1wa i-i\i;; EiKov1crµ11Cf\i;; wi-paxproµiai;;· [01:rop11µa t"f\<; XO:p'tOypacptKi\ <;; t"Et"paXPOOµiai;;j.
seven-color map theorem, 0eropT]µa t"f\<; £iKOVtcrµtKf\<; S7tta:XpOOµia:i;;. {0EcO· p11µa i-i\i;; tni-axproµia:i;;].
six-color map theorem, 0eropT]µa i-i\i;; dKovtcrµtKi\i;; t~axproµiai;;· [0eropT]µa i-i\i;; t~a:xpro~tia:i;;].
map topologically
two-color map theorem, 0&ropT]µa ti\i;; eiKov1crµ1Ki\i;; 8ixproµia:i;;· [0ero-Pllµa: i-i\i;; 81xproµiai;;]. ·
map topologically, MA0., dxovisro w1rnA.oytKG>c;.
map which is (not) schlicht, MAE>., ellCOVtcrµoc; ocrnc; (8f:v) etVat 6µaA.6c;.
mapping, MA0., ellCOVtcrtc;• [ el'KOVtcrµ6c;}. (lYN.: map).
closed mapping, i<A.&tcrtl) dK6vtmi;;· [ KA£t(J't0<; &tKOVtcrµ6i;;].
conformal mapping, cruµµopcpoi;; di<6v1mi;;· { cruµµopcpO<; £iKOVtcrµ6i;;j.
contour mapping, icroypaµµ1Ki] dK6vtcrii;;· [!croypaµµtKO <; dKOVtcrµ6i;;].
directly conformal mapping, di0i':roi;; cruµµopcpoi;; dKOVtCH<;.
essential mapping, o\Jcrtro8T]i;; dK6-v1cni;;· [ o\Jcnro811i;; EiKov1crµ6i;;}.
identity mapping, ta:u'tO'tlKTt dK6-vtcni;;· [ t"aUW'tlKO<; dKOVtcrµ6i;;].
induced one-to-one and continuous mapping, enaKti] [en11n1&vTJ] µovoµov6nµoi;; Kai cruvexl)i;; dK6v1cm;· [enaKtoi;; µovoµov6nµo i;; Kai cruvi:xf]i;; ELKOVtcrµ6i;;j.
inessential mapping, enoucr1ro811i;; r.iK6vimi;;· [enoucr16J8TJi;; e!Kovicrµ6i;;].
interior mapping, ecrroi-EptKl) ElKOVtcrti;;• [forotf.plKO<; dKOVtcrµ6i;;}.
nonconformal mapping, µf] cruµµopcpoi;; [acruµµopcpoi;;] &lK6v1cr1i;;.
numerical methods in conformal mapping, ap18µ1Kai µ£00801 cruµµ6pcpou t.!KOVLCJ&W<;" { Upt0µtKUl µ{;00801 81a cruµµ6pcpoui;; dKovicrµoui;;].
one-to-one (and directly conformal) mapping, µovoµov6nµo i;; (Kai t.\J0£roi;; cr\Jµµopcpoi;;) eiK6v1cr1i;;.
open mapping, uvotKi-1) t.!K6v1cr1i;;· [uvotK'tO<; dKOVlO"~t6i;;].
polyconic mapping, noA.uKrov1Ki] dK6v1cr1i;;· [ 7tOAUKOOVtK6t; f.tKOVtcrµ6i;;].
simplicial mapping, µovonA.t.yµai-~Kl) dKOVlCJti;;• [ µovonA.t.yµat"lKO<; f. lKOVtcrµ6i;;}.
mapping result
topological mapping, wnoA.oytKl) dK6vtmi;;· [ wnoA.oytK6t; dKovtcrµ6i;;].
mapping a half plane conformally onto a polygonal domain, cruµµopcpoc; elKOVtcrtc; T]µte1tt1tEDOU E1tt 1tOtvUyroVtK1lV 1tePtOXTJV).
Schwarz-Christoffel formula (for mapping a half plane conformally onto a polygonal domain), 8tatunroµa [i-unoi;;] rpapi-i;;-Kpicrwcpcpt.A. (8ta i-l)v cruµµopcpov ElKOVlCJlV Ti~ncrf.iou Emn&8ou i:ni noA.uyrovtKl)v nt.pwxi]v.
mapping confo;:mally, cruµµopcpoc; etJC6vtmc;· { etKOVtcrtc; Kata cru~tµopcpov tp6nov ].
mapping function, MA0., etKOVtcrµtKlJ O"UVUp't1lO"tc;.
conformal mapping function, cruµµopcpoi;; dKov1crµ1Kl) cruvupi-11cr1i;;.
polynomial mapping function, noA.urovuµ1Kf] dKov1crµ1Ki] cruvap'tT]crti;;.
rational mapping function, PTJ'tTt dKov1crµ1Ki] cruvap'tT]cr1<;.
mapping method, MA0., dJCovtcrµtKlJ µWo8oc;· hu~0o8oc; etKOVtcr~LOu].
conformal mapping methods, cruµµopcpot dKOVtcrµLKO:i µ£00801· [µ&-00801 cruµµ6pcpou dKovicrt.roi;;].
mapping numbers as points on a graph, MA0., etK6Vtcrtc; [ eiKovtcrµ6c;} apt0µG>v chc; <JT)µeirov ypacpiJµawc;.
mapping of x into y, MA0. , dJC6-vtcrtc; wu x 8tu 'tou 'I'" [µetacrx;r1µancrµ6c; wu X etc; 'I'].
mapping of x onto y, MAE>., eiK6-vtcrtc; toU x tni toU 'I'" [ eiKOVtcrµ6c; toil x, roe; 8tu tou 'I'" µetacrxr1µancrµ6c; 'tOU X sni t6 'I'}.
mapping result, anot£A.ecrµa. S~ay6µeVOV.
I, etKovtcrµtK6v 2, et'KOVtcrµtKOV
621
mapping theorem
mapping theorem, MA0., EiKov1-crµ11cov 9srop11µa.
inverse .mapping theorem, ii.vticrtpocpov &11Covtcrµucov 0erop11µa.
Riemann mapping theorem, p1µavv1avov et1Cow.rµ11Cov 0erop11µa· [0erop11µa rte pi el1Cov1crµou tou Piµav j.
uniqueness conditions in Riemann's mapping theorem, cruv0fjJCm µov6t11-toi; tou p1µavv1avou el1Cov1crµ11Cou 0eropfjµat0i;.
margin, MA0., nspt0cbptov.
mar.gi~al, 1, MA0., nspi9roptaK6i;, TJ,ov. 2, OIK., 6pimc6i;,i),6v.
marginal check, 6ptmcil [ nspt9roptaKll} ESEJ1.sy/;ti;.
marginal disutility, OIK., 6ptmcil CtXPTJ<rtfrtTJi;· { OptaKll UVOl<pS/..tµ6tTJi;}.
marginal increment, MA0., OIK., 6pta1COV aul;riµa.
marginal test, Oj)W-Kll { 7tSpt0o:>ptaKll] P&.cravoi;.
marginal utility, OIK., 6ptaKil xp11-cr1µ6trii;· { OptaKll W<j)SAtµOtT)i;}.
marine, 1, 9aA.&.crcrtoi;,a,ov· [9aA.aa<Jtv6i;,i),ov] ( = nou &.cpopii tl)v 90.A.acrcrav il o,n &xsi crxtcriv µ£; tilv 90.A.acrcrav). 2, vaunK6i;,i),ov ( = ti'ji; vaunAiai; fi ti'ji; vaucrtn~oiai;). 3, nsA.aytK6i;,i),6v· [nsA.aywi;,a,ov] ( = no6 l;si fi Spii sli; tilv &.votKtilv 90.A.acrcrav). 4, vautsµnoptK6i;, i),6v.
marine architect, VUU7tT)y6i;. (:~.:YN . : naval architect).
marine architecture, vaU1tTJYLKTJ. (LYN.: naval architecture).
marine engineer, 1, vaunJCoi; µrixavo-rtxvrii;. (LYN.: naval engi-
622
mark sensing
neer). 2, Eµ7topoµTJ,XUVLKOi; ( = µllXUVLKOi; nA.ofou ).
marine engineering, vauttKTJ µTJxavotsxvta. (LYN.: naval engineering).
marine sciences, 9aA.acrcroyvrocrttKai entcrti'jµai.
marine surveying, vauttKTJ xropo~ ypa<pTJ<Jti;. (LYN.: nautical surveying).
mariner, vaunA.A.6µsvoi;.
mariner's compass, vaumcl) nul;ti;.
Mariotte (Edme -), ('ESµaioi; Ma-ptott ( = yaA.A.oi; cpucr11C6i;· 1620 -1684).
Mariotte's law, v6µoi; tou Mapt6tt(ou). (LYN.: Boyle's law).
maritime, 1, na.pa9aA.acrcrwi;,a,ov· [ napaA.toi;,oi;,ov }. 2, vauttK6i;, 11,6v· [vauts~tnoptK6i; ,i),6v· i:µnopovaunK6i;,11,6v} ( =7tOU a<popii to vaunKov e~tn6ptov). 3, vaunA.taK6c;,i),6v.
mark, 1, cri'jµa· [µapKa]. 2, m;µa· [ crriµsiov]. 3, OLUKpltlKOV.
bench mark {benchmark}, e~icracrµa· {e~1cracrµUtllCOV cr11µc"Lov· ep&l· crµU'tllCOV cr11µ&LoV J.
class mark, MA0., lCA.acriKov crf\µa.
division mark, cr11µeiov tfji; l>impfoi;roi;.
fiducial mark, AOrIEM., mcrm.inK6v· [ crtaupoc;, rtapa~oA.fjc;,}.
storage mark, AOrI~M., ii.rto0ri-1C&UnJC6v· [ cr11µe"Lov ii.rto011Keucreroi;].
mark sensing, AOfTEM. , crriµstmcr911cria· [ crriµsLOAT)\jlta J ( = ft tSXVLKll ti'ji; 'tUUtOXPOVOU UVU· yvrocrsroi; crriµdou µoA.uPSiSo~ Kai oiatpi}crsroi;).
market
market, OIK., eµnops6ro ( = µstacpep(J) npoi; eµn6psucn v· nA.acrap(J) crtllV ayopa).
market, OIK., ayopa (= t6noi;, nspwxiJ, fJ cruvo/.ov nroA.iJcrsroi; uya9&v).
capital market, 1C&cpaA.uiayop6.. money market, xpnµatayop6. .
market price, OIK., tptxoucra nµir [nµil &.yopiii;].
market research, OIK., &.yopacrttKll &psuva· {'Epsuva &.yopacrnK6-t11toi;· &pwva npon~ti)crsrov U.yopiii;}.
market value, OIK., uyopo.la al;ia ( = al;ia pacrst 'tl~ti'ji; &.yopfii;).
marketability, OIK., tµnopwcrtµ6-t11i;.
marketable, OIK., eµnops6crt~toi;, oi;,ov.
marketing, OIK., 1, eµn6pwcrti; ( = tono9ttricrti; Eli; tilv uyopav· nA.Maptcrµa crtilv ayopa). 2, i;µnopsucrtµoA.oyia ( = crucrt11µr1 K:ai µt9ooot Ktvi)crsroi; t&v &.ya-0&v ano tov napayroyov µt xpi 'tOU KUtavaA.(J)toU).
marketing research, OIK., eµnopw<JtµoA.oytKit epsuva· {epSUVU (ti'ji;) i:µnopsucr1µ6tT)toi;].
marketing specialist, tµnopwcrt~l0-A.6yoi;.
Markoff [Markov J (Andrei Andreevich -), ('A vo pfoi; 'A vo ptytsPt ti;) MapK(J)<j) [Ma.pKwcp J ( = p&crcroi; µa9riµattK6i;· 1852 -1922).
Markoff chains, MA0., µapKoPiavai <iA.6crsii;· [<iA.6crsti; tou MapKffi<p j.
masonry
Markoff processes, MA0., µapKopiavai µstayroyai: [ µswyroyai tou MapKffi<p].
Markoff' s (differentiation) formula, µapKopiavov oia-cunroµa (Stacpop(crsroi;)· [ tunoi; oiacpop{crsro<; tou MapKro<p].
Markov, = Markoff.
Markovian, µapKo~tav6i;,iJ.,ov ( = to ti MapKro<p ).
martingale, n&.tcrt xai n6crta· [oA.a yia oA.a 1 ( = OtaOOXtKoi; StnA.a<JtUcrµoi; ti'ji; µisai; tUXllPOU 1tatyvtotou).
Mascheroni (Lorenzo -), (Aoptvtcroi;) MacrKsp6vt ( = haMi; µae11µattK6i;· 1750 - 1800).
Mascheroni constant, µacr1Cspov11:1-vil crta9spa: [ crta9spu -rou MacrJCsp6vt J.
Mascheroni constructions, rEilM., xatacrJCsuai tou MacrKsp6vt · [ µacrxspoviavai (ysroµstptKai) lCU'tUO"KSUU{}.
maser, (axprovuµwv -rou: µ1xp01cuµanK1) i:nsvicrx;ucrti; oiu npocroµotrottKi'j<; eKnoµnf\i; aKnvo~oA.iai;)· µtKp(J)crtfti;.
optical maser, ortnJCoi; µ1Kprocrti)i; . (~YN.: laser).
mask, cruyJCaA.unm· [ µacrK<ipro].
masking, Aorn.:M., cruyJCal.u\jlti;· { µacrKaptcrµa j ( = a, a<paipscrt<; xapaKtitp(J)V f:K Atssroi; fJ crstpii<; Atssrov· p, npoA.11nnKi} &vtal;t<; i;cr(J)tcptKOU npoyp&.µµatoi;).
masonry, TEXN., A.t9oooµft. ashlar masonry, ~ecrtoA.10o8oµfj. dry masonry, ~npoA.10o8oµiJ . rubble masonry, ii.pyoA.10o8oµfj.
623
mass
mass, µiit:;a. absolute displacement of the mass,
an61..utoi; µ&mKivT]crti; 'tfi<; µaCT]i;. acceleration of the mass, tm'taxuv-
crti; 'tfii; µaCT]i;. air mass, a&poµaCa [µiiCa af.poi;J. apparent mass, q>awoµEvT] µiiCa. center of gravity of a mass, KEV'tpov
13Ctpoui; 'tfi<; µaCT]i;. centroid of mass (of an area),
K&V'tpOEtoti; [KEVtpov µ<lCTl<;] tmq>a.veiai;.
concentrated mass, auyKEV'tproµf.vT] [ cruyKEV'tpID'tTJ] µCi.Ca.
conservation of mass, otatfJprimi; 'tfii; µaCT]i;.
continuous distribution of mass, cruv&xi]i; Ka'tavoµi] ('tfi<;) µ<lCTli;· [ cruv&XTJ<; µaCtKi] K<X'tavoµi]j.
critical mass, Kpicr1µoi; µCi.Ca. differential mass, oiaq>optKi] µCi.Ca. differential of mass, 01aq>op1K6v
[ O"tOlX&loV I µciC11i;. displacement of the mass, µemKi
vricr1i; 'tfji; µaCrii;. distribution of mass, Ka'tuvoµi] µci
slli;· [µ<1C1Ki] Katuvoµi]j. element of attraction of mass on
a unit particle, crt01xerov €1..~&roi; µasll<; Ka'ta µovuotaiov llAlKOV O"T]µEiov· [ crt"o1xeiov €1..~i::roi; µovao1uiou ill..1-Kou crT]µEiou µ6.Clli;].
element of mass, crt01xeiov µciCrii;. equivalent rotating mass, icroouva-
µo i; neptcrtp&q>oµtvri µil~a.
finite mass, nenepacrµf.vT] µCi.Ca. gravitational mass, j3apunKi] µCl~a. inertial mass, aopaVElaKi] µ0.~a .
initial mass, TIYPAYA., apx11<i] µCi~a: [ µii~a frt0~eucr&roi;· µO.~a £KKtvi]cr&roi;].
local mass, 'tOmKi] µii~a .
lumped mass, crrop1Ki] µa~a. lumped masses at the story levels,
crrop1Kai µii~m Kata 'ta<; crt"U0µai; 'tii'lv 6p6qirov.
magnitudes of lumped masses, µeyf.0ri t"rov crroptKrov µa~rov.
maximum strain energy per unit
624
mass
mass, µeyicr'tfl £vf.pye1a tmt"acreroc; ava µovaoa µa~11i;.
moment of mass, poni] ('tfi<;) µasll<;.
multi-mass problems, 1tol..uµa~1Ka npoj31..f]µa'ta· [ npoj31..f]µaxa nol..1..anl..fii; µaCrii;J.
multi-mass structure, nol..uµaC1K6v o6µT]µa; { itol..uµa~tKo<; q>opeui;· 06-µT]µa 1tOAAaitl..fji; µci~rii;· q>opeui; ltOA-1..aitl..fjc; µa~T]i;].
negligible mass, aµEAT]'tEa {ave-1taia0T]'tO<;] µO.~a.
one-mass undamped system, µovoµa~1K6v avait6crj3&crtoV { µovoµa~lKOV µi] aitocrj3&vvuµevov] crucrtriµa.
point-mass, crT]µe1aKi] µO.~a· [ crriµ&iov µ<iCTli;· ul..1Kov crriµ&iov ].
points of attachment of the concentrated mass, crriµ&ia npocrap'tllcr&roi; [ crT]µ&ia itpocrapµoy1ic;} 'tfj c; O"\JYK&V'tpIDttKfjc; µU~T]<;.
problems of a single concentrated mass, npoj3/,fiµam µoviaiac; cruyi<&v'tpronKfjc; µ6.CT]i;.
relative velocity between the mass and the ground, crx&nKi] taxuvmc; µ&m~u µa~Tl<; Kai toaqioui;.
relativistic mass, crxenKtcrnKi] µii~a.
rest mass, LTEX., 0EQP., f)p&µtKft µO.~a· [ µii~a. ( anoMtou) ii p&µiai;].
rotating mass, crtpeq>oµevri [ n&p1-cr'tp&qioµtvri] µii~a.
seismic mass, cr&1crµ1Ki] µCl~a.
single mass, µov1a.ia µu~a· [anl..f'l µfJ.~aj.
spring-mass characteristics, tl..at"T]pwµa~1Ka xa.pa.KtflptcrttKci· [xapaK'l"flptcrnKa tl..a'tflptaKfii; µa~Tlc;].
standard unit of mass, O.it6tunoc; [0eµ&l..taKi]] µovai; µa~T]c;.
structure which moves as with a single mass, 06µriµa Ktvouµ&vov [ qiop&ui; K1vouµevoi;] cl:Ji; µet"a µoviaiac; µa~T]i;.
symmetrical distribution of mass, cruµµe'tplKTJ Kamvoµ1] 'tfj<; µa~T]i;· [ cruµµe'tplKTJ µa~1Ki] K<X'tavoµi]).
tensor of virtual mass, "t6.vucrµa (tfji;) OUVfl'tfic; µ6.Crii; .
mass attraction
theory of lumped masses, 0&ropia til>v crroptKii'lv µa~ii>v.
unbalanced distribution of mass, acr'tci0µ1crtoi; Kamvoµi] µasT]<;" [a<>tcl0µtcrtoc; ~La~tKTJ KCJ.tavoµf)}.
unit mass, µovaotaia µO.~a· [ ~wvac; µ6.~11i;J.
velocity of the moving mass, 'tcixuvcrti; tfii; Kl vouµ&vrii; µci~T]i;· [ 'tcixuvcrtc; 'tfii; cr&wµtvrii; µa~Tli;}.
vibrating mass, Kpaomvoµtvri µii~o..
virtual mass, ouVfl'tTJ µO.~a.
mass attraction, µal:;tlCTJ sA.~tc; .
mass center, Ktv'rpov (tile;) µ6.t:;11c;. vertical translation of the mass
center, K<J.tUK6puq>oi; µ&taKiVT]O"l<; tOU KEvtpou 'tfj<; µci~T]<;.
mass-charge ratio, HAEK., A.6yoc; µ6.t:;11c;-<popticri:roc;.
mass density, 1tUKV6tT}c; µ6.t:;11c;· [ µu~tlCTJ 1tU1CVOtT}c;j.
mass distribution, µal:;tKTJ Katavoµir [ KatavoµTj µ6.t:;11c;] .
continuous mass distribution, cruv&xi]c; K<J.'tUVOµfr µ6.~T]<;.
unbalanced mass distribution, acrt6.0µtcrtoi; KataVO~LTJ µ6.~T]c;.
mass-energy equivalence, icroouvuµia µ6.t:;11c;-svi:pyduc;. (1YN.: mass-energy equation).
mass-energy relation, O")(l~ttcrtc; [ crxfoic;] µ6.t:;11c;-svi:pyduc;.
mass flow rate per unit area, otattµTj poilc; µ6.t:;11c; Kata µov6.oa eµpaoou.
mass media, (µal:;tK<l) µtcra bttKOLvrovficri:roc;· [ E1ttKot vrovT}ttKU µtcra} ( = tt'moc;, paot6<provov, Ktv11µatoyp6.<poc;, Kai tT}A.t:o\j/ta).
mass moment of inertia, µal:;tKTJ p07tTJ uopavdac;· [ po7tlj aopavdac; tile; µ6.t:;11c;J.
mass system
mass of a structure, µiit:;u toii ooµiJµurnc;· [ µiit:;a tou <poptroc;}.
product of the local mass of a structure, yLv6µ&vov 'tfjc; t0mKi'jc; µa~T]<; tou ooµf]µatoi;.
spatial acceleration of the local mass of a structure, xropaia tnmixuvcrti; ti'j<; tOmKfjc; µ6.~T]<; tOU ooµftµato<;.
mass point, µat:;ucov cr11µdov· [ crrtµi:iov µ6.t:;11c;J. (1YN.: pointmass).
mass potential, µal:;tKov ouvrtnx:6v· {OUVT}tllCOV µ6./:;T}c;).
mass ratio, Myoc; µ6.t:;11c; . vehicle mass ratio, .MALT., l..6yoc;
<'>xllµani<i'jc; µa~rii;.
mass-spring system, MHX., crucrt11-µu eA.atT}ptaJCilc; µ6.t:;11c;.
mass structure, µut:;ix:oc; <popm'.)(;· [µal:;tKOV 06µ11µa}.
multi-mass structure, nol..uµ<XCtKov ooµT]µa· [ooµT]µa noUanl..i'jc; µ~1ic;qiop&uc; nol..l..a.nl..fii; µ6.~T]i;· nol..uµa~tKo<; qiop&ui;J.
single-mass structure, µovoµastKov 06µ11µa.· [06µ11µa µov1aiac; µ6.~11c;· qiop&ui; µov1aiai; µ6.~11i;· µovoµa~tKOc; q>Op&u<;j.
mass system, µa/:;tKOV crucrtr1µa· [crucrt11µa µ6.t:;rtc;}.
distributed mass system, crucr't11µa Kataveµ11µ&vric; µa~11i;.
idealized oscillating mass system, io&atoV 'taAaVtOUµ&VOV µa~tKOV crUU'tT]µa· [ioaVtK&UµEVOV O"UO"'tllµa 't(lt..avt0uµ&vrii; µa~11c;}.
problems of distributed. mass systems npoj31..i]µata crucr't11µa:crov KU'tav&µ11µ&v11i; µ6.~11i;.
simple spring-mass mechanical system, µ11xavtKOV O"UO"'tllµa attA.i'jc; £1..a'tllPtaKi'j<; µ6.~11<;.
two-mass system, otµa~tKOV O"UO"TTI• µa· f crucr't11µa 01nA.fii; µas11c;J.
625
mass volocity ratio
mass-velocity ratio, MHX., .A6yoi; µu~11i;-mxuvcn:coi;.
massless, liµasoi;,oi;,ov· [uµastK6i;, fi,6v · livw µcis11i;J.
massless and linearly elastic spring, liµa~ov Kai ypaµµtK&i; eA.ao"nKOV eA.aTfiptov.
massless load, liµasov [ µ1) µastKov] cpopTfov· [iivw µcis11i; cpopTiov ].
master, Kuptffio11i;, 11i;,i:i;· [ rcpcornpXtK6i;, fi,6v ).
master card, AOrI:EM., KUpt&oi:i; { rcpcompXtKOV j O!:A TUptoV.
master control, AOrI:EM., KUptffi-011i; [ npcompxiKor:,] EA.i:yxoi;.
master data, AOrI:EM., Kuptm811 [pacriKa] cnoixi:ta.
master file, AOrI:EM., KUptffio11i; f PacrtKoi;;] <pM!:KA.oi;.
master instruction, AOrI:EM., KUptffiorii; {yi:VtKTJ} EVTOAij.
master instruction tape, AOrI:EM., Tat via Kllptffiooui; EVTOA l''ji;° { yi:VtKij BVTaA. nKi] Tat via].
match, = match off.
match, MHXT., MA0., rcpocrcipµocrii;· [miptaaµaj .
match off, MHXT., MA0., rcpocrapµ6sco· [ Tatptcisco 1.
matched, MA0., rcpocrapµocrT6i;,11, 6v· [ rcpomlPµocrµtvoi;,11,ov· Tatptacrµtvoi;, ri,o ] .
matched groups, rcpocrapµocrTai [ rcpocrripµocrµtvm] 6µaoi:i;.
matched pairs, rcpocrapµocrTa [TatptacrTa j S!:DY11 ·
626
material
matching, rcpocrcipµomi;· [ Taiptacrµa j.
matching pennies, MA0., (To) naiyvwv Tfjr:, rcpocrapµ6cri:coi; -r&v Kcpµci-rcov· [ miptaaµa -rfji; rci:vTcipai;· swycipcoµa Tfji; 1tcVTUpai;j.
mate, MHXT., MA0., cruswyfsco· [Swyapwvco].
material, I, uA.tK6i;,i],6v. 2, oucrtaK6i;,fi,6v. 3, AOr., oucriconK6i;, 11,6v.
material, uA.tK6v· [uA.tKci ). ablating material, <l>Y.E., O:rtoBpro
nK6v \JA.tK6v. building materials, 3oµtKU \JA.tKci·
[uA.tKu oiKolioµfls]. capabilities of building materials,
iKav6'tT]'t&s [3uva't6'tT]ti:s] 'trov iioµt-Krov \JA.t Krov. ·
ductility of materials, MHXT., 61..Kt).lOtT]s trov uA.tKrov.
elastoplastic behavior of structural materials, MHXT., tA.acnortA.acntKi} 3im 'ta [ tA.acrwrtA.tlcr't1 Ki] cruµrti:pupopu] 'trov 6oµrinKrov uA.tKrov.
elastoplastic material, tA.acrwrtA.acrnK6v \JA.tK6v.
fire-resistant materials, rtupiµaxa [ uA.r,~irtupa] \JA.tKci· [uA.tKu rtpocr'ta'ti:u6µi:va art6 wu rtup6s].
firmoviscosity of materials, cr'tu0i:poyA.016tT]s 'trov uA.tKrov.
fissile material, <l>Y.E., 6tacrmimµov [6tacrrtClcr't6v] \JA.tK6v.
fissionable material, <l>YL., 6tacrrtucrnK6v uA.tK6v.
foundation material, 0i:µi:A.1ronK6v u/.1K6v· [uA.tK6v 0i:µi:A.tomi:ros] .
handling and movement of materials, X!:tptcrµ6s KCli 6tc:tKLVT]crts 'tWV UAtKWV.
incombustible materials, aqiA.i:Kw. \JA.tKci.
inhomogeneity of materials, avoµowyl:vi:tu 'trov \JA.tKrov.
material composition
internal friction and viscosity of building materials, foro'ti:ptKi] 'tp1Bft KCli ')'AOtO'tT]s 'tWV 6oµtKWV \J/,tKil>V.
Kelvin materials, 1rnA.Btvtavu \JA.tKci· [ uA.tKu Ku0ucr'ti:priµE:vris tA.ucrnK6tT]'tOs].
malleability of materials, tA.at6'tlls [f.A.umµo'trisl 't&v uA.tK&v.
Maxwell materials, µu~o\li:A.A.tavu UAtKU' [ul.tKU U1t!:lKOV'tU i:ls 'tijV crxt-OW 'tUcrts-trthc:tcrts-XPOVOs].
mechanics of materials, µrixuv1Ki] 'tWV UA\KWV.
molecular structure of the material, µoptctKij 6oµi] 'tOU \J/,tKOU.
nature of firmoviscosity of materials, q>ucrts 'tfls cr'taGi:poyA.016'tTJ'tOs [ mu0i:poyA.otonKij qiums] 't&v \JA.1-K&v.
plasticity of materials, nA.a:crnK6'tTJs 'til>V \J/,tKWV.
Poisson's ratio of the foundation material, 1t0Uc:tcrcrovta:V6s AO'{Os [ uva:A.oyia: 'tou Ilouacrcrov] 6tu 'to uA.tK6v 'tt]s 0i:µi:A.trocri:c))(;.
refractory material, rtllpiµa:xov \JA.tK6v.
.shearing modulus of material, µ6-3tov 3tat).Li]cri:ros [ cruvt&A.i:crtfts cm;p
, p6'tl1't0s] 'tOU uA.tKOU. strength of materials, MHXT., av
wxft 'tWV (J/. tKWV. · stress-free material , MHXT , iim
wv uA.tK6v· [ µi] UTCOK!:iµi:vov !:ts 'tUcrtv uA.tK6v].
structural materials, iioµT)nKu \JA.tK<i.
testing of materials, MHXT., 3oKtµi] [3oKtµucriu] 't&v \JA.tKil>v.
viscoelastic materials, yA.otoi:A.a:crnKu \JA.tKU.
material composition (of a column), ' MHXT., UAtKi] O"UV8!><rti; (f:voi; O'TUAOU ).
material coordinates, MA0., uA.tKai [ oucrtconKa.i] cruvTi:rnyµtva,t. (:EYN.: Lagrangian coordinates).
mathematical analysis
material fallacy, ouatconKov [KaT• oucriav 1 cr6cptcrµa.
material line, MA0., uA.tKi] ypaµµi].
material logic, AOr., oumconK1) A.oytKi] .
material point, MA0., u.AtKOV crriµi:'iov.
material surface, MA0., u.AtKi] emcpcivi:ta.
materialistic theory of probability, UAtcrrncl) m8avonK1) 8ccopfa"[uAtO"TtKij 8i:copia Trov m0avoTi]Tcov j.
materials obeying the Maxwell stress-strain-time relation, uA.tKa UTCi:iKOVTa di; TijV µa~OU!:AA.taVijV <rXfot V TUO"tC,-ErtiTUcrtC,-XPOVOl'.;" hta~oui:Uiava u'AtKci].
materials with delayed elasticity, UAlKU KU8UO"T!:pflµEVTJi; £A.acrnKOT1']WC,' [Ki:A.Piviava uA.tKcij.
materiel, li'lfux;ov uA.tK6v· (KaT' uvnStucrwA.i]v rcpoi; TO manpower, f::µ\j/UXOV Ut.tKOV).
math, = mathematics. new math, vi:oµu01wanK<i.
mathematical, µa811µanK6i;,11,6v.
mathematical abstraction, µa8riµanK1) ucpatpi:crfa.
mathematical analogy, µa811µanK1) uvaA.6ywti;.
mathematical analysis, µa811µanK1) uvciA.ucrti;.
mathematical analysis of componentwise relaxation, µa8riµanK1) UVUAUcrtC, Tfji; O"UVtO"TCO'tt1Cfji; xaJ..apfficri;coi;.
627
mathematical analysis of logic
mathematical analysis of logic, µa-011 µattKi) ava) .. ucrt<; tfj<; AOyt-1Cfj<;.
mathematical angle, µa0T] µarnci) [&.A.yeppuci)j yrovia.
mathematical basis of election forecasts, µa0T]µarnci) Puen<; t&v E1CA.oyt1C&v npoyvrocrtt1C&V.
mathematical basis of polls, µa0riµan1Ci) pa.en<; tfj<; yvroµoµetpi]crero<;· [ µa01wattKi) paen<; -r&v crcpuyµoµetpi)crerov tfj<; Kot vfj<; yvroµT]<;}.
mathematical check, µa0T]µan1Ci) [apt0µT]n1Ci)} 8stA.eyst<;.
mathematical concepts, µa0T]µan-1Cai (svvowA.oytKai) avnA.i]i.vet<;.
mathematical deduction, µa0riµanKi) 7tUpayroyiJ. { µa0T]~lU'ttKi) UVUAUO"t<;}.
mathematical demonstration, µa0T]µanKi) KataOetSt<;· [ µa0T]µanx:i) an68etSt<;}.
mathematical discipline, µa01wanKi) na ioeucrt<;.
mathematical economics, µa0T]µanKi) OlKOVOµtKTJ.
mathematical entities, µa0T]µawcai OV'tO'tT]'tf.<; .
mathematical evidence, µa01iµan-1CTJ svoetKttK6tT]<;" [ µa01iµanKi) µap-rupia}.
mathematical expectation, µa0T]µa'tl1CTJ tA.ni<;.
mathematical fallacies, µa0T]µa.nKU crocpicrµa-ra· µa0T]µan1Cai nMvm · [ µa011µan"KU 'ljlf.UOUpta}.
mathematical form, µa0T]µan1Ci) µopcpiJ.
628
mathematical methods
mathematical formulas, µa0T]µan1Ca Ota-runroµa-ra· [ µa0T]µawcoi t~ 1t0t}.
mathematical formulation, µa0T]µa'tLKTJ OtU'tU1t(J)CTL<;.
mathematical game, µa0T]µan1Cov nafyvwv.
mathematical geodesy, µa0T]µan1Cl) yeroomcr[a.
mathematical geography, ~ta0T]µatLK1l yeroypacpia.
mathematical idealization of reality, µa0T]µan1Ci) ioaviJCeucn<; -rfji; npayµanK6tT]to<;.
mathematical induction, µa0T]µanKi) [wA.da} 8nayroyi]. (~YN.: complete induction).
mathematical intuitionism, µa0T]µatt1Co<; i:vopancrµ6<;.
mathematical law of disorder, µa-011µanKo<; nepi &.-ras(a<; v6µo<;.
mathematical laws, µ~0T]µanKoi v6-µot.
exactness of mathematical laws, aKp1j36i:TJc; i:&v µa0riµanK&v v6µcov.
mathematical level, µa0T]µanKT) crta0µrr [ µa0T]µanKi) Pa0µi<;].
mathematical logic, µa0T]µan1CTJ A.oYLKTJ.
mathematical machine, µa0T]µawci) µm:avfl.
mathematical manipulation, µa011-µan1Co<; Xetptcrµo<; (svo<; 0tµa-ro<;).
mathematical mentality, µa0T]µanKi) vootponia.
mathematical methods, µa0T)µanKai µt0oooi.
mathematical model
mathematical model, µa0T)µa.n1COV 7tpO'tU1tOV.
mathematical modeling, µa.0T)µanKi) npotunroen<;.
mathematical notation, µa0riµan1Ci) miµet0ypaq>fl.
mathematical operations, ~m0riµarnmi npaset<;· [ npaset<; -r&v µa-0T]µan1C&v}.
mathematical philosophy, µa0T]µan KTJ q>tA.ocrocpia..
mathematical physics, µa01iµanKi) q>UenKfl.
classical equations in mathematical physics, KA-mHnKai £~1crrocre1c; i:fic; µa:-0qµa:i:tKi'\c; cpUcrtKf\c;.
principle of the virial (in mathematical physics), apxiJ i:oii j31a:cri:oii (i:i'jc; µa0T]µanKi'\c; cpucr1Ki')c;).
mathematical postulates, µa01iµan1Ca ahflµata.
mathematical principle, µa0T]µan1Ci) apx;iJ.
mathematical probability, µa0T]µawci) m0av6tT)<;.
mathematical reality, µa0T]µa.tt1CTJ npayµan'K6tTJ<;.
mathematical recreation, 1, µa0T]µattKTJ 'l'ux;ayroyTJen<;. 2, µa0T]µatt1Cov 'l'ux;ayronµa.
mathematical resonance, ~ta0T]µatt'KO<; <rUVT]X,tcrµ6<;.
mathematical rigor, µa01wan1Ci) aA.uytcria· [ µa0T)µatt1CTJ aucrtT]p6tT]<;].
mathematical science, µu01-iµatt1CTJ i:ntcrtl'J.µTJ.
mathematical signs, µa0riµan1Ca <rTJµeia · { µa0T]µan KU cruµpoA.a }.
mathematical theory
mathematical space, µa0T)µan1Coi; x;&po<;.
mathematical statistics, µa0T)µatt1Cl) O"'tU'tlO"ttlCfl.
mathematical study of behavior, µa0riµanKi) cr7touoi) tfj<; owitl']<;" { µa0T)µatt1CTJ µeAEtll tfji; cruµtteptq>opii<;].
mathematical symbols, µa0riµan1Ca cruµpoA.a.
mathematical technique, µa0riµanKi) 'tf.X:VlKll' { 'tf.X:VtlCTJ t&V µa0'11· ~l<l'tt1CCOV }.
mathematical terms, µa0riµatt1Coi opot.
mathematical theorems, µu01iµan-1CU 0eropflµata.
mathematical theory, µa0'11µa.n1C1) 0eropia..
mathematical theory of communication, µa.0riµa.n1Ci) 0eropia tfj<; E1tlKOL vrovflcrero<;.
mathematical theory of optimization, µu011µatt1CTJ 0scopia. tfji; PsA. ttcrte6crsco<;.
mathematical theory of probability, µa01iµatt1CTJ rct0avott1CTJ 0ecopia· [ µa0'11µattKTJ 0ecopia. t&v m0avo-rfl-rcov }.
mathematical theory of relativity, µa0T] µan Ki) 0erop(a tfj<; crx;enKOtT]to<;.
special [restricted] mathematical theory of relativity, elli1Ki] [ nep1cop1-crµtvTJ] µa:0T]µO:nKi] 0eropia: i:i'jc; crxenKOTT]i:oc;.
mathematical theory of time-lag, µa0riµattKTJ 0eropia -rou x;povt'ICOU 1Ca0ucrtspfJ.µato<;' [ µa0riµa· ttlCTJ 0ecopia tfj<; x;povotptPfl<;].
629
mathematical thinking
mathematical thinking, µa0T)µatucoc; crwxacrµ6c;.
way or mat~ematical thinking, µa-91iµaTlKO~ Tpoito~ TOU <nCE1tTEcr9m· [i:p6itot KO:i µfoa i:oii µa91iµa:nKoii cnceiti:i:cr9at].
mathematical tools, µa0T)µanica cruvc:pya· [ µa0riµarnca µf-cra }.
mathematical training, 1, µa9T)µattK~ 1t0Vl]crtc;. 2, µa0T)µUnKij Katapncrtc;.
mathematical treatment of nonli?ear problems, µa0T)µUnKij e~C:tUcrtc; { µa0T)µUnKoc; XC:tptcrµoc;j t&v µij ypaµµtK&v npoPA.TJ µ<hrov.
mathematical truth, µa0T)µanKij aJ.ij0c:ta.
mathematically, µa0riµanK&c;.
mathematically organized beeps, PA!i., µa0T)µanK&c; otan:myµf,vot [ µa0riµarnc&c; cbpyavc:oµf,vot} Pinoi.
mathematician, µa0T]µanK6c;.
mathematicodeductive, AOI'., µa0T)µanKonapayc:oytK6c;, ij,6v· [µa-9T)µanKoava A.unK6c;, ij,6v].
mathematics, µa0T]µarnc<i.
630
abstract. mathematics, U(jJTJpT]µeva µa9riµattKa .
applied mathematics, E(jJT]pµocrµeva µa9riµanKa .
biomathematics, Pioµa9riµaw ca.
. conserva tive theories in mathematics, cruvTTJPTJt tKa:i 9eoipiat trov µa911-µanKrov.
elementary mathematics, cno1xi:100-ari µa9T]µatLKCt .
engineering mathematics, µrixavoi:exv1Ka µa011µattK a .
foundations of mathematics, 9i:µi:A.lrocri~ [9Eµ EAlOlttKi]j TCOV µa91iµanKCOV.
mathematics
freethinking in mathematics, sA.i:u-9i:pocri:oxa:crµ6~ [£A.i:u9i:pt6tTJ~ crKe\j/Ero~] Ei~ Ti]V µa9riµa:i:tKi]V £mcrtfiµ1w.
functional thinking in mathematics cruvapi:ricr~aKo~ crwxacrµo~ [ cruvapi:TJ: crt~KT] <iKEljll~] Tfj~ µ0:811µa:TtKfj~ £m<iTTJµ11~.
higher. mathematics, &vooi:i:pa: µa:-91iµatt1Ca.
intui_tionistic mathematics, tvopa:ncrnKa µa9riµanKa .
. mini~um vocabulary for mathematics, l:A.axicri:ov aitapah11rnv A.i:~tA.6-ywv i:rov µa9riµa:i:tKiOv.
modern . mathematics, cruyxpovci µa9riµai:tKa· [vi:oµa911µai:1Kaj.
new. math(ematics), vi:Oii:i:pa µa9riµanKu· [vi:oµa9riµattKaj.
nonlogistic form of mathematics µi] A.oytcrTtKi] µop(jlij i:rov µa:9riµan : KWV.
operational mathematics (in engin~rmg), itpa~wA.oytKa µa9riµanKU.. (tTJt; µrixavoi:i:xvia~) .
ordinary (but nonlogistic) form of mathe.matics, cruv~19TJ~ (&A.A.a µi] 6.itA.ro~ U1tOAOYl<iTLKTJ) µop(jli] TCOV µa9riµa:TtKCOV.
pl~ilosophy of mathematics, (jJtA.ocro(jJta TWV µa91iµattKWV.
P.ure mathemat~cs, Ka:9apa {9i:ropriTtKa] µa:9riµattKa .
qualitati~e mathematics, itotonK<l. µa9T]~LattKa.
r~creational mathematics, ljluxayroYtKa µa~riµa:t1Ka· [ µa9riµai:tK a itpoc; uvaljlux11v Kai 51acrKe8acri v].
reform of teaching mathematics ~tEi:appU9~ncrtt; tfjt; 5ta5acrKa A.iat; i:w; µa6T]~LUTLKWV.
~igor of mathematics, a/.uytcrict [ aucrtT]pOTTJ~] 'tWV µafJriµatt KWV.
. tex~s on mathematics, ~mfJ11µatt-· Ka KEtµi:va· hiafJriµai:tKa cruyypciµµai:a].
mathematics as a calculatory science, (ta) µa0T)µanKa me; unoA.oytcrnKij Entcrti]µT).
j
mathematics of change
mathematics of change, µa0T)µawcu 't'fjc; aA.A.ayijc;.
mathematics of finance, XPTJµawvoµucu µa0T)µanK<i.
mathematics of interpolation, µa-0T)µanKu t&v napsµpoA.&v· [ napi:µ~oA.tK<l µaeri µan Ka}.
mathematics of investment, ensvounKa µa0T]µUtt1CU' { µa0T]µUn-1Ccl t&v ensvSOcrsrov}.
mathematics of management, ota-xstptcrnKU µa0T)µanK<i' { µa0T)µanKU tfjc; owxstptcrnKfjc;}.
mathematics of money, µa0riµanKa toil XPiJµawc;· {xpT]µanKa µa0riµanK<i}.
mathematics of movement and change, µa9T]~LanKu 1ctvi]cri:c:oc; Kai aUayfjc;.
mathematics of possibility, µa0riµanKu t&v ouvawti]tc:ov.
mathematics of relativity, µa0T)~tanKa tfjc; (0sc:opiac; tfjc;) crxsnK6triwc;.
mathematics of resource use, nopoxpricrnKu µa0riµanK<i· [µaeriµarnca tfjc; XPTJO"l~L01t0l1lO"SC:Oc; t&v nA.outonapayc:oytKffiv no-
. prov].
mathematics of warfare, noA.sµoA.oytKa µa0riµcmKa: [ µa9riµa.nK<l 't'fjc; noA.sµtKfjc; 't'EXVTJc;}.
n-square law (in mathematics of warfare), v6µo~ i:oii vuocrwii i:ei:payc.Ovou (tcov µa9riµanKrov i:fj~ 1toA.Eµ1Kfj~ TEXVTJt;).
mathematics of wealth, nA.ouwA.o· yiKa µa.emianK<i· [ µa0riµa.nKa tfjc; 1tAOU't'07tapa.yroyfjc;}.
mathematization, ~ta0T)µatiKwcrtc;.
matrix
mathematize, 1, µa0riµanKsuc:o ( = avayro de; µa.0T)µUttKi}V i:psuVUV' ESEt<isro Ka.ta µa.0T)µUn1COV tp67tov). 2, µa.0riµanKoA.oy& ( = <rKE7ttoµa.t µa0riµan K&c;).
Mathieu (Emile-Leonard-), (AiµiA.toc; Asov<ipooc;) ManE ( = y<iA.A.oc; µa.0riµa.nK6c;· 1783 - 1875).
Mathieu function, µa0stavi} cruv<ip-rrimc;· [ cruv<iptT)crtc; wu Mant].
modified Mathieu function, t'poito-1tOtT]µEVTJ µafJi:tavi] cruvciptTJcrts .
radial Mathieu function, aKttVtKij µafJi:tavi} cruvapi:ricri~· [ UKTt v1Ki] cruv-6.pTTJcrt~ wii Mane I.
Mathieu group, µa0smvi} 6µ<ic;· [6-µac; 't'OU Ma.nE].
Mathieu's differencial equation, µa-0sta.vi} otmpoptKT} Esicrcocrtc;· [&tacpoptKT} el;icrc:ocrtc; tou Manf, }.
Mathieu's equation, ~ta0sta.vi} esicrc:omc;· [esicrc:omc; tou Ma,n8 }.
mating, crussuytcric;· [ crussuytcrµ6c;· ssuy<ipc:oµa].
matrix, MAE>., µT]tpsfov. addition of matrices, itp6crfJEcrt~
(i:U'lv) µi1i:pEirov. adjacent matrices (of a chain of
matrices), itapaKEiµi:va µi1i:pi:Ia (uA.ucri:ros µrii:pi:irov) .
adjoint matrix, l:mcruvaiti:ov µT]TpEiov.
adjoint of a matrix, l:mcruva:µµa; µT]i:pEiou· [tmcruvaittov µT]TpEiov].
admittance matrix, HAEK., µ11-TpEiov aito5EKttK6TTJt'O~ .
algebra of matrices, µrii:p i:: taKi] a./.,yi;ppa· [ aA. yi;ppa TCOV ~lT]'tpEirov I .
antimetric matrix, uvnµetptKov µT]tpi:Iov.
associated matrix, cruva(jJE~ µT]tpEiov.
631
matrix
632
augmented matrix (of a set of simultaneous linear equations), 11u-1;11µevov µll'tP&iov ( crnv6A.ou tautotiµrov rpaµµucoov el;icroocrnrov).
auxiliary matrix, emKoupucov f Po-11011nKov] µlltpeiov.
canonical form of a matrix, 0ecrµiKi) µopcpi) µlltp&iou .
canonical matrix, 0ecrµLKOV µll'tP&iov.
Cayley-Hamilton theorem of the theory of matrices, 0eoop11µa KaiuA.11-X<iµiA. wv 81<i •iJv 0eropiav trov µ11-tpeirov.
chain of matrices, aA.ucric;; µlltp&irov. characteristic equation of a matrix,
XUPUlC'tllPLCJnK1'] el;icrrocrtc;; µll'tp&iou. characteristic function of a matrix,
:x;apaK'tllPLcrnKit cruv<ipt11cric;; µlltpeiou.
characteristic matrix, xapa:K't11PLcrnK6v µll'tP&iov.
characteristic number of a matrix, xapaKt11PtcrnK6c;; api0µ6c;; µlltp&iou· [i8tonµi) µll•P&iou] .
characteristic root of a matrix, xa:puK't11PtcrnKit {A.uv0<ivoucra] piCa µlltp&iou· [i81onµi) µlltpeiou].
characteristic vector of a matrix, XUPUK'tll PLCJUKOV Civucrµa: µll'tP&iou· [l81<ivucrµa: µll•P&iou].
circulant matrix, KUKA.ocpopoiiv [KUKA.ocpop11t1Kov] µll•P&iov.
classical canonical form of a matrix, Kl.acrcriKit 0ecrµLKTt µopcpi) µll•P&iou.
classical matrix, KA.acrcriKov µT]tpeiov.
coefficient matrix, cruvteA.ecrnKOV µ11tpEiov· [ µ11tpeiov CJUV't&A&CJ'tWV J.
cofactor (of an element of a matrix), cruµitap<irrov ( crrn1xeiou rnii µll'tP&iou ).
collineatory transformation of a matrix, crurrpaµµ11C6c;; µemcrx11µancrµ6c;; wii µlltp&iou.
column matrix, crtT]A.LKOV [ µov6-crt11A.ov] µll'tp&iov.
column (of a matrix), cni)A.11 (wii µlltp&iou).
commutable matrix, avnµeta0et6v µll•P&iov.
matrix ·
commute with (a square) matrix, avnµ&'tU'ti0&µa:L 7tpoc;; ('t&'tpa:"{COVllCOV) µll'tP&iov.
compact matrix, cruµitarec;; [ cruvoitnKov] µlltpe(ov.
companion matrix (of an algebraic equation), cruvooov µT]tpeiov (aA.raPPtKijc;; el;tcroocreroc;;).
complex conjugate of a matrix, µL"{U8L1COV cruCurec;; µll'tP&iou· [ µ1ra-8t1COV cruCurec;; µll•P&iov ].
component impedance matrix, HAEK., µll'tP&iov ita:paKroA.unK6'tT]toc; ('tCOV) cruvtcr'tOOV'tCOV (peuµ<i'tCOV Kai 8uva:µLKWV). .
concise form of a matrix, cruvoitnKit µopcpl) µlltpelou.
conductance matrix, HAEK., µ11-tpeiov arroytK6'tT]'tOt;.
conformable matrix, cruµµopq>rorov [ cruµµopcprocrtµov] µ11tpeiov.
congruent matrices, icr6µ01a: µ11-rpeia:.
congruent transformation of a matrix, tcr6~t0toc;; [ cruvapµocrtoc;] µe'ta:crx11µancrµ6c; µlltp&iou.
conjugate of a matrix, cruCuy&c; µ11-'tpeiou· [ cruCurec; µll'tpetov].
conjunctive transformation of a matrix, cruv8ecrµtK6c; µera:crx'T]µa:'tlcrµoc;; µll'tp&iou.
constituents of a matrix, crucrtunKa [ crwixeta:] (toO) µlltpeiou.
continued products of matrices, cruvex6µeva: [ cruvexiil ytv6µeva 'toO µ11rpeiou.
cut set matrix, µT\'tp&iOV UVU!CpOU cruv6A.ou.
definite matrix, ooptcrµEvov µ11-'tp&iov.
definition of (a) matrix, 6ptcrµ6c; (wii) µll'tP&iou.
degree of representation of a matrix, Pa0µ6c;; [8i<icrtacr1c;] avuitapa.crt<icreroc;; rot) µll'tp&iou.
delta matrix, 8tA. 'tO:tlCOV µll'tP&iov· [µTJ•p&iov wo 8eA.'ta:].
derivative of a matrix, ita:payroyoc; µ11tp&iou.
determinant of a matrix, 6piCoucra µn'tp&iou.
snatrix
determination of invariant manifolds of matrices by means of iterations, 7tpocr8topicrµoc; [ &u~&crtc;;] ('t~v) (Iµ&'ta:p/dJ'tCOV 1tOAU1t'tUyµa'tCOV (trov) µll'tp&irov µecr<(l avaitpocr&yyicrµoov.
diagonal form of a matrix, 810.yoovtoc;; µopcpit µll'tp&iou.
diagonal matrix, 8ia:rrovtov µ11-'tp&iov.
diagonal of a matrix, 81aroovtoc;; (wii) µ11tp&iou.
diagonalization of a matrix, 81a"fOJVtcric;; (wu) µ11•peiou.
diagonalize a matrix, 8ia:yroviCro µn'tpeiov.
differential calculus of matrices, 8mcpopiK6c;; A.oricrµoc;; ;rov µll"P~irov· [8mcpop1K6c;; µ11'tp&1aKoc;; A.or1crµoc;;].
differentiation of matrices, 81a<p6picric;; 'tWV µlltp&irov.
dimension of matrix representation, 8t<icrta:crLc;; f Pa0µ6c;;j avaita:pa:crt<icr&roc;; µll'tP&iou.
direct product of matrices, ui;ecrov { lCA.tµUKCO'tOV j "{LVOµ&VOV µll'tPELCOV ·
dynamical matrix, 8uva:µtKOV µ11-'tp&iOV.
eigenvalue of a matrix, ~8ton~l) µ11-'tp&iou· [xapa:K•11Ptcr't~K11 nµry µ11-'tp&iou· XllPUK'tT]ptcrnKOt; Upt0µoc;; µ11-'tp&[ou j.
eigenvector of a matrix, ,i.Oi~vucrµa: µll'tp&iou· [xapuK'tllPtcrnKov avucrµa: (wu) µll•P&iou].
element of a matrix, crtoixEiov [opoc;;] (wu) µll'tp&iou.
elementary divisor of a matrix, crwixi;1ro811c;; 8tmpe•TJc;; (wu) µT]tp&iou.
elementary operations on ma!rices, crw1xe1ro8&1c;; itpcl.l;&tc;; ('tijc; aA. "f&Ppac;) trov µll'tp&irov· [ CJ'tOLXEtro8Etc; µ11-'tp&taKa:i itp<il;Et<;}.
elements of a matrix, crwix&ia [opot] 'tOU µT]'tpEiOU.
equal matrices, icra µll'tp&ia. equality of two matrices, icr6't11c;
(µ&ta:!;u) 8\Jo µlltp&irov. equivalent matrices, tcro8uvaµa µ11-
tp&ia:.
matrix
equivalent transformation of , a matrix, icroouva:µoc; µ&mcrx11µa't1crµoc;; µll'tp&iou.
flexibility matrix, MHXT., µll'tP&iov EUKUµljliO:c;.
force matrix method, µe0o8oc;; wii µllfp&iou tile; 8uvcl.µ&roc;;.
function of a matrix, cruv<ipt11cric;; µ11tp&iou .
fundamental Jaws of (the) combination of matrices, 0tµEA.tro8Etc;; v6µ01 wii cruv8uacrµou 'trov µll'tp&irov.
group of matrices, 6µuc; µll'tp&irov· { µll'tPELO.lClJ 6µ<ic;;} ·
Hermitian conjugate of a matrix, t pµmavov cru~urec;; µll_'tp&iou· [tp~ttmvov cruCuri:c; µ11•p&wv· cruva.ittov µ11tp&iov].
Hermitian matrix, tpµttiavov µ11-tpEiov.
Hermitian symmetric matrix, tpµ1-t1av6v cruµµi;tptKOV µ11tp&iov.
Hotelling's method for computing the inverse of a matrix, µe0o8~c;; X6ti:A.A.i vyK &upfoi;roc; wu ii.vncrtpocpou wu µ11'tpEiou · [ µe0o8oc; (wii) X6teA.A.i vyK 8tu 'tTtV Kat<icr'tprocri V WU avncr'tp6cpou ~lll'tp&iou J.
identity matrix, 'tO.U'tO'tLKOV µ11-'tpEiov· [ µova81a:iov µn'tp&iov].
impedance matrix, HAEK., µn'tp&iov itapaKroA.unK6t11wc;.
index of a matrix, 8&iK'tTJt; 'tOU µTJ'tp&iou.
inertia matrix, ii.8pav&tuKov µll•P&iov· [ µlltp&iov ii.Opav&ia:c;;j.
integral calculus of matrices, ~"'°: i<A.11pronK6c; A.or1crµ6c;; 'tWV ~n'tp&LCOV [ 6A.oKA.TJpCOnK6c; µn'tp&LUKOt; A.oyLcrµ6 c; j.
integral of a matrix, 6A.oKA.fiproµa: µritp&iou.
integration of matrices, 6A.o!CA.fiprocric; µritpdrov.
invariant factor of a matrix, uva:A.A.oirotoc;; [ ii.µ&t<iPA.11wc;;] ita:p<iyrov 'tOU µll'tp&iou.
inverse matrix, avticrtpocpov µn'tp&iov.
inversion of large matrices (by the use of submatrices), uvncr'tpoq>i) BK·
633
matrix
634
't'EVWV µ11TpEirov (Iha xp11cnµoitotfi<rEOJ<; i:ntoµ11TpEirov).
Jordan matrix, iopoav1av6v µ11-TpEtov· [ µ11TpEtoV TOO rt6pv'tC'LV J.
lambda matrix, µ11TpEtov J..6.µ13oa· {µll'tPElOV 'J.j.
large matrix, EKTEvt:; µ11TpEtov. latent root of a matrix, 'J.110aia
{"A.av06.voucra/ pi~a TOO µ11TpEiou· [xapaKTllptcrnKi] pi~a TOO µ11TpEiou· iownµl'J TOO µ11TpEiou/.
laws of combination of matrices, v6µ01 cruvouacrµoO Toov µ11TpEirov.
line of a matrix, EU0Eta [ axTic;] (wO) µ11TpEiou ( = crtiJA.11 t\ crTixo:; TOO µ11TpEiou).
lower triangular (square) matrix, K6.tro Tptyrovtaiov (TEtpayrov1Kov) µ11-TpEiov.
main diagonal (of a matrix), KUpia [ itproT11/ 01ayrovtoi;; wu µ11TpEiou.
minimum equation of a matrix, t'J.axicrT11 t~icrrocr1i;; µ11TpEiou.
minor matrices (of elements of a matrix), £1.6.crcrova µ11TpEia (toov crwtXEirov too µ11tpdou).
multiple-column matrix, 7tAEtov6-cri:11A.ov µ111pEiov.
multiplication of matrices, ito'J.A.ait/.acrmcrµ6:; µ11i:pEirov.
nonsingular matrix, µi) iOui~ov [ av1016.~ov] µ111pEtov.
norm of a matrix, yvroµrov wu µ11-TpEiou.
normal form of a matrix, op060Ewi;; ['ta Kn Ki)} µop<pi] µ111pEiou.
normal matrix, 6p060Ewv [wxnKOV J µ111pEiOV.
null matrix, µ110EVlKOV µ11TpEiOV. one-column matrix, µov6crT11A.ov
µ111pEiov. one-row matrix, µov6crnxov µ11-
TpEiov. order of matrix, TU~tc; (wu) µ11-
TpEiou. orthogonal matrix, 6p0oyrovtK6v
µ11TpEiov.
orthogonal transformation of a matrix, 6p0oyrovtK6i;; µEtacrx11µaT1-crµ6i;; (wu) µ11TpEiou.
matrix
partition a matrix, µ&pi~ro µ11tpEtov. partition of a matrix, µEptcrµoi;; [ µt
picrµa] µ11TpEiou. partitioned matrix, µEptcrµf,vov µ11-
TpEtov. partitioning of matrices into sub
matrices, µtp1cr1i;; [ µep1crµ6i;;] µ11-Tp&irov Et<; ll7tOµll'tPEia.
pay-off matrix, µ11TpEtov aitoitA.11-proµrov (Tux11pou itmyv1oiou).
permutable matrix, µ&TaT6.~tµov [ µETU'taKTOV J µ11TpEiov.
permutation matrix, µEi:ataKnKov µ111pEiov· [ µ11TpEloV µci:a'tU~Ero<;;].
polynomial of a matrix, itoA.urovuµov µ11TpEiou.
positive definite matrix, 0ETtK6v wptcrµtvov µ111pEiov.
postmultiplication by a matrix, µETaito'J.A.ait'J.acr1acrµ6i;; titi µ11TpEiov.
postmultiply by a matrix, µEtaitoA.'J.aitA.acrt6.~ro titi µ11tpEiov.
premultiplication by a matrix, itpoitoAA.aitA.acrtacrµoi;; titi µ11TpEtov.
premultiply by a matrix, itpoitok'J.aitl.acr16.~ro titi ~Lll'tPEiov.
power of a matrix, ouvaµti;; wii µ11 tpEiou.
principal diagonal of a matrix, Kupia oiayrovtoi;; µ11TpEiou .
product matrix, ytvoµEVtKOV µ11-TPEiov· [µ111pEiov y1voµtvou].
product of a chain of matrices, y1-v6µEvov 6.McrEcoi;; µ11TpEirov.
product of a scalar and a matrix, ytv6µEvov KA.tµaiciou Kai µ11tpdou.
product of matrices, y1v6µcvov ~111-TpEirov.
properties of matrices, i0t6tl]TE:; TOOV µ11TpEirov .
rank of a matrix, l36.0µ11µa [ 16.~ti;;] µ11-rpEiou.
reactance matrix, HAEK., µ11TpEtov avaopacrTtK6'tl]tO<;;.
real matrix, itpayµa-rtKOV µ11tpEiov. reciprocal matrix, 0.vTicrTpocpov µ11-
TpEiov. reduced characteristic equation of
a matrix, av11yµEVll xapaKTTJplcrttKfi t~icrrocrt:; µ11TpEiou.
matrix
reduced characteristic function of a matrix, O.v11yµtv11 xapaKTllptcrTtKi] cruv6.pT11cr1:; µ11TpEiou.
reduced matrix, ti:v11yµevov µ11tpEt· ov.
reducible set of matrices, avayroytµov r:JUVOAOV µ11-rpEiOJV.
reduction of a matrix to a diagonal form, uvayroyi] µ11TpEiou Eii;; Ti]V Otayrovtov µop<pi1v.
relation of eigenvalue to function of a matrix, crxtncrti;; [ crxtmc;J iotoTtµiii;; Kai cruvapTi)crEcoi;; µ11-rpEiou.
resistance matrix, HAEK., µ11tp Etov aV'tlr:J'tU<JEOJt; .
resolvent of a matrix, tmA.uoucra (wu) µ111pEiou.
row matrix, crnx11p6v µ111pEtov· hwv6crnxov µ111pEiov ].
row of a matrix, crtixoi;; (wu) µ11-TpEiou.
S-matrix, k-µ111pEiov· [ crJCEOacrnlCOV µ11TpEiOV j.
saddle point of a matrix, crayµanKOV cr11µEiov (wu) µ111pEiou.
scalar matrix, JCA.tµCl.KOJTOV µ11-rpEtov.
scalar multiplication of a matrix, KA.tµaKroToi;; itoA.A.ait'J.acriacrµoi;; µ11-tpEiou.
scattering matrix, cricEoacrnKov µ11-TpEiov.
secondary diagonal of a matrix, oEu-rtpa [oEUTEpE6oucra] 01ay6.Jvt0i;; wu µ11-rpEiou.
Segre characteristic of a matrix, r:JEYPElUVOV xapaK'tll ptcr'tLKOV [ xapalC't'llPlr:J'tLKOV kEYKPE] WU µ11TpEiou .
semantic matrix, cr11µacrt0'J.oytic6v µ11tpEiOV.
signature of a matrix, 6itA.tcrµ6i;; wu µ11-rpEiou.
similar matrices, oµOta µ11-rpEia. similarity transformation of a ma
trix, 6µot0ttK6i;; [ cruyypaµµ1Ko<;;/ µ&-racrx11µancrµ6i;; wu µ11-rpEiou.
simple classical matrix, ait'J.ouv lCA.acrcrtKOV µ11TpEiOV.
single-column matrix, µov6crTTJAOV µ11-rpEiOV.
matrix
single-row matrix, µov6r:JT1xov µ11-Tp&iov.
singular matrix, t0t6.~ov µ11TpEiov. skew-Hermitian matrix, crTpEl3'J.o
&pµmav6v [ crTpEl3'J.6v tpµmav6v] µT]'tpEloV.
skew-symmetric matrix, crTpEl3'J.ocruµµEtptic6v µ11tpEiOV.
skew-symmetric square matrix, crT&· 13A.ocruµµETplKOV 't'ETpayOJVIKOV µ11-TpEiov.
solution of algebraic equations by the use of matrices, eiti'J.ucrti;; a'ivyel3p11Coov e~1crrocrcrov 01a Trov µ11Tp&irov.
spectrum of a matrix, cpacrµa TOU µ111pEiou.
spur of a matrix, ixvo:; (wu) µ11-TpEiou.
square matrix, TEtpaycovtKOV µ11-i:pEiov.
stiffness matrix, MHXT., µ11TpEtov OU<JKO:µ\jliat;.
stochastic matrix, crwxacrnKOV µ11-i:pEiov.
stress matrix, MHXT., TanKov µ11-TpEiov· [ µ11TpEiOV ( i:rov) 't'Ur:JECOV J.
subtraction of matrices, a<paipEO'l<;; (t<'ilv) µf1TpEirov.
sum of matrices, ii0potcrµa µf1TpEirov.
superposition matrix, µrii:pEiov i:>-7tEp0foEcoi;;· [ µ11TPEiOV tita'J.'J.riA.iat;/.
susceptance matrix, HAEK., µ11-TpEiov aEpytKO't'll'tO<:;.
symmetric matrix, cruµµEtptK6V µ11-TpEiov.
symmetric square matrix, cruµµETptKoV 't'&TpO:yOJVlKOV µ11TpEiov.
symmetrical component impendance matrix, HAEK., cruµµETptKOV µ11--rpi:iov itapaicro'J.uttKOTT]toi;; cruvtcrTrov--rcov (peuµaTCOV lCO:t OUVO:µtKWV).
theory of matrices, 0Eropia -roov µ11-TpEicov· [µ11-rpi:1aicl'J 0i:ropia/.
theory of pay-off matrix, '0Eropia toO µ11Tp&iou 0.itoitAllPOJµrov (TUXllPOU itmyviou).
trace of a matrix, ixvo:; wu µ11-Tpeiou.
635
matrix addition
traces of powers of a matrix, l'.xvrt ('roiv) ouvaµ&ov (toii) µrttpeiou.
transfer matrix, µemf31f3acrn1C6V µT]tpeiov· [ µrttpeiov µetaf31f3acreroi;].
transform of a matrix, µemcrxriµattcrµa µT]tpeiou.
transformation matrix, µT]tpeiov µetacrxriµancrµoii.
transfor~ation of a matrix, µemcrxriµancrµoi; µrttpeiou.
transmission matrix (of a network), HAEK., µT]tpeiov µeta06creroi; (wii) otJCturoµawi;.
t~anspose of a matrix, xiacrµa µT]tpe1ou.
transposed matrix, x1acr0i:v [ xiaO"'t"OV I µritpeiov.
tran.sposition of matrices, xiucrµoi; µ~tpe1rov ( = otucrtaupronJCi] avnµeta0ecrti; -rrov crtrtA.rov Kai mixrov trov µrttpeirov).
t~iangular (square) matrix, tp1yrov1mov (ti:tpayrovtJCov) µritpetov.
unimodular matrix, µovoµootuKOV µT]tpetov.
unit matrix, µovacltuiov µrttpeiov. unitary matrix, evtatov µT]tpeiov.
w upper trian_gular (square) matrix, avCt_? tptyrovtmov (tetpayrovtJCov) µritpetov.
vertex matrix, JCopucpaiov µri-rpeiov· [ µritpetov Kopucpfji;j.
weighting matrix, crta0µtK6v [f3apuvoµoiiv] µT]tpeiov.
zero matrix, µrioeviuiov µT]tpeiov.
matrix addition, µ1rrpetmo'J 7tp6cr-0ecrti;.
matrix algebra, µrj"cpetaKTJ a/.yeppa. theory of matrix algebra, 0eropiu
tfji; µT]tpEtuJCfji; UA,y£f3pai;.
matrix analysis, µrrrpetaKTJ avciA.ucrti;.
matrix calculation, µ11rpetaKoi; unoA.oytcrµ6i;.
matrix calculus, µ11rpetaKoi; /.oytcrµ6i;.
636
matrix iteration
matrix division, µ11rpeta'KTJ omipecrii;.
matrix element, µ11rpetaKov crrotxetov· { µ11't'pEtaKOi; opoi;j.
matrix equality, µ11tpetaKTJ icr6t11i;.
matrix equation, µ11't'petUKTJ ESlO"COcrti;.
associated matrix equation cruva-<pi]i; µTJtpEtUKTJ E~icrrocrti;. ' . basic ]fundamental] matrix equa
~10.n, f3acrtJCi] [0i:µi:A.troorii;l_µritpi:tuJCi} e~1crrocr1i;.
matrix expression, µ11't'petmo'J 1tctpcicr't'acrti;.
matrix form, µ11't'peta'KTJ µopcp11. concise [compact] matrix form
cruvo7:nKi] [ cruµrmyi]i;] µri-rpemK~ µopcpTJ.
matrix formulation, µl']tpetaKTJ ow't'U1tcocrti;.
lumped systems using a matrix formulation, crroptJCa crucrti]µata XPTJ· criµoTtotoiivta µritpetuJCTjv otut\mrocrt v.
matrix function, µ11tpetaKTJ cruv-cipt11 crti;. .
matrix game, MA0., µ11't'pEtaKOV 1taiyvwv.
ma~rix in Jordan form, µ11tpeiov iopoavtavfji; µopcpfji;· [ µtFpeiov 't'fji; µopcpfji; 't'OU I't6pvwv ].
matrix inversion (by partitioning), (µeptcrttKTJ) µ11't'petaKTJ UVttO"t'pO<pl]" { µ11tpEtaKTJ UVttO"t'pO<pTJ (cha 't'fji; µe06oou wu µeptcrµou)].
matrix iteration, µ11't'petaKoi; ava-1tpocreyyt0"µ6i;· { µ11't'petaKTJ ava-7tpocreyyicr't'EUcrt\;}.
Stodola-Vianello method for matrix iteration, µ£0oooi; µTJtpEtuKOU ava-7tpocreyytcrµoii Ltovt6A.a-BtuvtA.A.o.
matrix mechanics
matrix mechanics, µ11rpetaKTJ µ11-xavtxi].
matrix methods (for the solution of systems of linear differential equations), µTJ't'petaKai µ£0oSot (sm/.6crecoi; crucrttiµatcov ypuµµtx&v Ota<pOptK&V sstcrci>crecov).
matrix methods in physics and engineering, µritpetaKai µ£0o-8ot 't'fji; cpucrtKfji; Kai 't'fji; µ11xavori:xviai;.
matrix multiplication, µ11tpi>taKoi; 1tol.l.anl.acriacrµoi; ( = a, nol.-1.anl.acriacrµoi; bti µT]tpi>iov· p, Jtot.l.an/.acrw.crµoi; µTJ't'peimv).
matrix multiplication by means of punched cards, µTJ't'petaKoi; no/.-1.anl.acrtacrµoi; Sta Stu't'pij't'mv 81>/.'t'apimv.
matrix notation, µl']'t'pEtctKTJ crriµetoypacpi].
matrix of a linear transformation, µriweiov ypuµµtKou µe't'acrxriµancrµou.
matrix of the coefficients (of a set of simultaneous linear equations), µTJ't'peiov 't'ffiV cruvti>l.em&v ({;voi; cruv6/.ou 't'UU't'O't'tµmv ypaµµtKffiV ESlO"WO'EffiV).
matrix of the nth order, µritpeiov vuocr't'fji; 't'cisemi;.
matrix operations, µ11't'petaKai npaseti;.
fundamental matrix operations, 8E· µeA.1rooi:ti; µri-rpetaKai Ttpa~e1i;· [81:µeA.1rooeti; 7tpa~e1i; tfji; µri-rpewKfji; UA.y£f3pai;].
matrix printer, AOrn:M., µTJ't'peto't'U7tT]i;· { µTJ't'pEtU'Koi; 't'U1tCO't'iji;· crupµatotunT]i;].
matrix theory
matrix products, µi1't'petaKa ytv6-µevu.
matrix problems (in elasticity or electricity), µiFpi>taKa npop!.i]µuta ('t'fji; Oempiai; 't'fji; s/.ucrnKO't'TJ't'Oi; Kai n1i; 1')1.eK't'po/.oyiui;).
matrix problems of elastic structures, µT]'t'petaKa 1tpopt.i]µmu 't'<i>V Et.ucrttK&v cpoptmv.
matrix representation of a group, µTJ't'p&tUKTJ avanapacrtami; 6µci-8oi;.
degree [dimension] of matrix representation of a group, f3a8µ6i; [otucr-mcrii;] ~LT]tpewKfj<; uva7tapacrtucri:roi; oµuooi;.
irreducible matrix representation of a group, avuyroyoi; [ µi] avayroy1µoi;] µTJtpEtaKTJ UVU7tUpUcrtacrti; 6µuooi;.
reducible matrix representation of a group, UVUyffiytµoi; µT]tpEtaKTJ UVU• Ttapucrmcrii; 6µaooi;.
matrix representation of transistor circuits, HAEK., µTJ't'petuKTJ avunapacrtami; µe't'acrtattKffiv KUKl.mµfrrmv.
matrix solution of an algebraic equation, µTJ't'pEtaKTJ sni/.ucrti; at. yi;ppiKfli; sstO"rocri;coi;.
matrix solution ot polynomial equations, µT]tpi>taKTJ l:nil.ucrti; 1tO/.umvuµtK&v EStcrfficreffiV.
matrix subtraction, µT]tpEtaKTJ a<pa(pecrti;.
matrix that has repeated eigenvalues, µT]'t'pelOV 1tEplEXOV E1tClva/.aµpavoµ£vai; iownµai;.
matrix theory, µtFPEtaKTJ 0i>copi.a.
matrix theory of four-terminal networks, HAEK., µ11't'petaKTJ 0&-
637
matrix theory
ropia -r&v otK-ruroµa:rrov -cecrcraprov aKpooe-r&v.
matrix theory of oscillating networks, µl']-rpetctKTJ 0eropfo -c&v -caA.avwuµtvrov otK-ruro~ta-rrov.
matrix theory of quadripoles, µ11--rpetctKTJ 0eropia -c&v -re-rpa7t6-A.rov· [ µll't'PEtaK~ 0eropfo -c&v otKwroµa-rrov -recmaprov aKpooe-c&v ].
matrix-tree theorem, 0ec.Op11µa -c&v µl'j't'pEtaKffiV OEVOprov.
matrixing, MAE>., µ11-rpeirocrv;.
matrizant, µ11-rpefroµa.
matrizant, µi1-rpeironK6c; ,i),6v.
matrizant method for integrating differential systems, µ11-rpetronKi) µt0oooc; 6/...oKA l'J pci>creroc; o ta<popt Kffiv crucr-r11µa-rrov.
matrizant method for linear equations with constant coefficients, µ11-rpeironKi) µt0oooc; oui ypu~LµtKuc; t~icrci>creic; cr-ra0ep&v cruv-reA.ecr-r&v.
matrizant method for linear equations with variable coefficients, µT)-rpeironKl'J. µt0oooc; oia ypaµµiKuc; t~tcrci>creic; µeraPA.11-r&v O'UV't'EAEO"tffiV.
matrizant solution, µ11-rpetronKT] i:-7tiA.ucrtc; .
matroid, µ11-rpeweioi)c;, fic;,tc;.
matter' uA. TJ.
638
antimatter, ii.v't'lul..rr [ ii.v't'lcrcoµan1oi ut..11J.
conservation of matter, otati]pT]crLc; -rflc; ut..11c;.
isotropic matter, lcro-rpoitoc; uA.11 . kinetic theory of matter, Ktv11'ttJCi]
9ecopia -rfjc; ut..11c;.
maximizing ·player
motion of matter, Kiv11cric; -rfjc; ul..nc;· precarious matter, emcrcpal..ftc; [eitt
JC( v(JUvoc;] ut..n. primary matter, itpro-raia {itpom1J
ut..11. quantity of matter, itocro'tTjc; ill..11<,;. states of matter, Ka-racr-racre1c; -ri'jc;
ut..11c;. theory of matter, 9eropia: -ri'jc; ul..11c;.
Maupertuis (Pierre Louis Moreau de-), (Ilt-rpoc; AouPoPiiwc; Mopro v-ri:) Mro7tep-roui ( = ya/...A.oc; µa011µunK6c; · 1698 - 1759).
Maupertuis's principle of least action, &.pxiJ -rfjc; t]crcrovoc; opacrewc; tou Mro7tep-rout· [ µro7t&pwucriuvi) &.pxiJ -ri'jc; t]crcrovoc; tvepyfjcrewc;].
Maupertuis's problem, µro7tep-roucrw.vov 0ec.Op11µa· [0erop11µa wu Mro7tepwui].
maxima, 7tA. -rou: maximum.
maximal, µeytcrwnK6c;, fi,6v· [ µtytcrt0c; , ri,ov · -ri'j c; µeyicrtl']c; nµi'jc;}.
maximal member of a set, µeyicr-ronKov µtA.oc; cruv6A.ou.
maximally, µeytcrwnKffic;· {€7ti -co µtytcr"COV}.
maximate, = maximize.
maxi min, µeytcrweA.axtcrtov· [ µeytcrtoeA.uxicrn1 nµiJ· ~Ltyicrtov -c&v EA.uxicrnuv· µeyicr't'TJ -c&v eA.axicrtrov ]. O:YN.: max-min).
maximization, µeyicrteucric;.
maximization principle, apxiJ -ri'jc; µeyicrteucreroc;.
maximize, µeytcrteuro.
maximizing player, MHXT. MAE>., µeyicrteurov 7tctiKtl']c;.
maximum
.maximum, (to) µtyicrtov . absolute maximum, ii.itol..uwv µe
y1cr-rov. column maxima, crt11!..11C6. [ JCCl'tU
cm'lt..11v} µeytcrm. local maximum, wmKov µeytcrwv. nonnegative maximum, µft ii.pvri
nKov µeytcr'tOV. nonpositive maximum, µft 01mKov
µE"{tcrtov. principle of the maximum, (fi) ii.pxiJ
toil µeyicrwu . relative maxima and minima prob
lems, npof31..i]µata crxe't'IKOOV µeyicrtcov Kai £/.axicrtOlV.
relative maximum, crxenJCov µeytcrtov.
theory of maxima and minima, 0&ropia µey(O"'tOlV !Ccti £1..axicrtCOV.
maximum acceleration, µeyicrt11 i:m tax,uvcric;.
doubling of the maximum acceleration, omA,acrw.crµoc; tfjc; µeyicrtric; em-raxuvcreroc;.
maximum density, ~Leyicrt11 7tUKV6--rric;.
point of maximum density, cr11µetov µeyicrtnc; ltUlCVO'tTJtOc;.
maximum evaporation rate, µeyicrtl'] otanµi) t~utµicreroc;· {otunµi) µeyicrt11c; i:~utµicreroc;].
maximum horizontal deflection of the building at the time of the resonance, MHXT., µeyicrtl'] 6-pt~ovtia &.n6Kaµ\j/tc; -rou Knpiou KCltU tOV XPOVOV "COU O'UVT)xtcrµou .
maximum likelihood criterion, :ETAT., Kpttfjpiov ti'jc; µeyicrtl']c; 7tt0avocpaveiuc;.
maximum likelihood method, :ETAT., µt0oooc; -ri'jc; µeyicrtric; m0avo<paveiac;.
maximum limit, µ&ytO''t'OV opwv.
maximum relative velocity
maximum limit of a sequence, µtytcrt0v opwv UKoA.ou0iuc;.
maximum minimorum, = maximin; [maxi-min].
maximum net shearing stress, MHXT. , µeyicrtT] KU0upu otatµT]ttKi) tame;· { µeyicrtTJ Ka0apu ta.crtc; otutµfjcreroc;].
maximum of a function, µ&yicr-rov (ti'\<;) cruvapti1crewc;.
absolute maximum of a function, UltOl..UWV µE"{LCY'tOV (ti'!<;) cruvaptficreroc;.
relative maximum of a function, crximicov µeytcrwv (ti'lc;) cruvaptficreroc;.
maximum oi a function of any number of variables, µtytcrtov cruvaptftcreroc; oiouofjnoi:e &.pi-0µou µw1.pl ... T]t&v.
maximum of the row minima, µsytcrwv [ µeyicrtT]] t&v Kata crt~xov tA.uxicrtrov. (:EYN.: max1-min).
maximum ordinate, µeyicrtTJ wi:ayµtv11 { µtytcrtOV ~t&A.oc;J (tOU tpox,iacrµu-roc;) .
maximum permissible stress, MHXT., µeyicrtTj E1tttp&1t't'i\ -racric;.
maximum point, µtytcrtov crqµetov.
maximum principle, upx,l'J 't'OU ~LEyicrtOD' { apxiJ ti'jc; µeytcrtl'lc;J.
maximum property, i0t6tric; -rou µsyicrwu.
maximum relative velocity response spectrum (of a system), uvn-ruicttKOV <pacrµu -ri'jc; µeyicrtl'lc; crxenKi'\c; taxuvcreroc; (&voe; crucrtfjµa.toc;).
639
maximum -sound pressure
maximum sound pressure, µeyfo'tll fixuciJ nfacn<;· [ µsyfo'tll nfacn<; fixoo ].
maximum strain energy per unit mass, MHXT., µsyim11 tm 'tU· 'ttKTJ EVEpy&tU { µeylcr'tll EVEp· ysta ent'tacrsro<;] &.va µova.8u µas11<;.
maximum structural deflection in a transient state, µsyfo'tll 00µ11-'ttKTJ &.n6Kaµ\jft<; KU'tCt 'tTJV napoOtKTJV lCU'tUcr'tucrw.
maximum usable frequency, µeyicr'tll XP11crtµonotijcrtµo<; croxv6-'t11<;·
maximum value, MA0., µsyicr'tll nµTj.
max-min, MA0., µsytcr'to&li.axtcrtov. (LYN.: maximin).
the max-min = min-max relation, ,, crxtcrti;; µsytcr'toEAUXl<i'tOV icrov EA!l· X tcrwµ&ytcrtov.
maxwell, µusootnwv· [ µasyoosli.] ( = µova<; µuyv11nKfj<; pucrsro<;).
Maxwell (James Clerk-), ('Ia.Kro~o<; KMpK) Masyooe/. ( = (jJCW'tO<; <pocrtK6<;· 1831 - 1897).
Maxwell- Boltzmann law, v6µo<; Masyooeli.-Mn6/. 'tcrµuv.
Maxwell-Boltzmann statistics, crrnncrnKa Masyoosli.-Mn6/.wµuv.
Maxwell-Cremona force diagram, otaypuµµu oovaµsro<; Masyoosli.Kpsµ6vu.
Maxwell law, µusoosli.li.tavo<; v6µo<;· [v6µo<; 'tou Masyoost.].
generalized Maxwell law, ')'EVtKEU· µf:voi;; µal;oui:AA.w.voi;; v6µoi;;· [v6µoi;; toil Mrcf:ttt].
Maxwell materials, µusooeli.li.tuva UAtlCa· [uli.t1CCt U7tellCOV'tU et<; 'tTJV
640
Mazur-Banach game
crxfotv ( 't<icrt<;-tni'tucrt<;-X. p6vo<;) 'tou Masyooet.J.
Maxwell relations, µusoosli.li.tavui crxe'ticrst<;· [ crx.fost<; 'tou Masyoosli.].
Maxwell stress-strain-time relation, µusooeAl.tuviJ crxfot<; 'tUcr&ro<;t7macrero<;·XP6Voo· { crxfot<; 't<icrt<;·Eni'tacn<;-XPOVo<; 'tOU M<lsyooeli.].
material obeying the Maxwell stressstrain-time relation, uA.tKO. orcEiKov't'a tii;; ti]v crxecrtv tacrti;;-Brcitacrti;;-xp6voi;; i:ou Mal;roui:A.· [µal;m.>i:A.A.tavO. oA.tKa].
Maxwell's reciprocal theorem, µusoosli.li.tavov nspi &.µ01Pmo't11· 'tO(, 0&<i>p11 µa: {0effip11 µa aµotPat6't11't0<; 'tou Masyoost.· crovat.t.11/.ov 0effip11µu ].
Maxwell's vector potential, µusooeli.li.tuvov avocrµanKOV OOVll'tl· K6v· [ &.vocrµunJCov oov11nKov 'tou Masyooet.].
Maxwellian, µusoosli.li.tav6<;, Tj,ov (= mu Masyoost.].
Maxwellian distribution, µusoos/.-1.tavi] lCU'tUVoµTj. [ lCU'tUVOµi) 'tOU Masyooet.].
Mayan numerals, µuuuva apt0µ11-nK<i· [ apt0µ11n1CCt 'tWV Mayta ].
maze, ouiou/.o<;· [ KOKeffiv· t.up0ptv-0or,].
garden maze, O!llliaAOKJ11tO(;.
maze of details, KOKerov [t.ap0ptv-0o<;] li.e7t'toµepet&v.
Mazur (Jacob -), ('I<iKroPo<;) Musoup ( = aµeptlC(lVO<; (j>OCTllCO<;'. y. 1921).
Mazur-Banach game, naiyvtov Masoup-Mnavax,.
, mean
mean, MA0., ~Lecro<;,11,ov.
mean, 1, MA0., µecro<;. 2, MA0. , µforr [ µto·11 nµ~]. 3, µscr6't1')<;.
arithmetic mean, apt0µ11ttK6 <;; µf:croi;;.
arithmeticogeometric mean, apt9~111-ttKO')'EOlµEtptK6<;; µfoo i;;.
average mean, METEQP., ota~ti:croi;; [ µecrow;:oi;;] µf:croi;;.
converge in the mean, cruyK:l.ivOl Eli; tov µf:crov.
convergence in the mean, cruyKA.tcni;; eii;; tov µfoov.
double law of the mean, otrcA.oui;; v6µoi;; tf]i;; µecr11i;; (nµf]i;;). (EYN.: second mean value theorem).
error of the mean, cr<paA.µa: tf\i;; µtcri1i;; (nµf]i;;).
Gauss's law of the arithmetic mean, yrocrcrtavo<;; v6µoi;; { v6µo<;; toll rKa· ou<;;} (rcEpi) toll apt9µ11'ttKOU µf;crou.
general mean, yi:vtKo<;; µf:crrn;. geometric mean, ')'EOlµEtptKo<;; µl
croi;;. geometric mean of n positive
numbers, yEOlµEtptKo<;; µf:croi;; v 9Ett· lCIDV apt9µ6iv.
harmonic mean between two num· bers, apµoVtKO(; ~tfoo<;; ouo apt9µ6iv .
law of the mean, v6µoi;; tfji;; µf:cr11i;;· [v6µoi;; ti\<;; ~tf:cr11i;; nµf]i;;]. (EYN.: mean value theorem).
limit in mean, optov <hi; rcpoi;; tov µf;crov.
quadratic mean, tEtpayOlvtKo<;; µtcroi;; ( = tE'tP!l')'OlVLKi] pi~a tOOV apt· 9µ11ttKOOV µf:crOlV 'tIDV 'tE'tpayrovOlv).
second law of the mean, oi:uti:poi;; v6µoi;; tf]i;; µf:a11i;; (nµf]i;;).
standard error of the mean, urc6-wrcov [9i:µi:A.taKov] crcpaA.µa ti\<;; µtcr11i;; (nµfji;;) .
weighted mean, crta0µ11toi;; [~cxpuKEV'tptKo<;;] µf;croi;;.
mean aerodynamic chord, AEPOLi., µtcr11 aepooovuµtlCTJ xopo~.
mean air temperature, µscrri a'tµo-
mean for integrals
cr<pmptKTt 0spµoKpacriu· [ µscr11 0epµoKpacriu 'tou &.spo<;].
mean anomaly, A'LTP., µfo11 uvroµu/.iu .
mean axis (of an ellipsoid), µfoo<; asrov (Sl.li.etlj!OetOou<;).
mean coefficient, µscro<; crov'tel.:ecr'tij<;.
method of mean coefficients, µt-9oooi;; 'tIDV µecrOlV crUV'tEAEcr'tOOV.
mean-conjugate curve on a surface, µscrocrosoyi]<; Kaµnuli.11 (eni) emcpuveiur,.
mean-conjugate directions on a surface at a point, µscrosoys'l<; oteo00vcret<; (&ni) ent<paveia<; ei<; ' n crl') µei'.ov.
mean curvature of a surface, µeO"T) · Kaµno/.6't1')<; &mcpuvdu<;.
mean density, µfori 7tOKVO'tll<;·
mean depth, µfoov pa0o<;. hydraulic mean depth, oopauA.tKOV
µecrov ~aeoi;; .
mean deviation, µscrri EK'tponij. absolute mean deviation, arc6A.uw;
µfo11 tKtpom'J.
mean distance, µscr11 un6cr'tacrtc;. center of mean distance, KEV'tpov
( tfj<;;) µfoll(; U1tO<i'tU<iEOl\;.
mean ergodic theorem, µfoov spyoOtKOV 0sffip11µu.
mean error, µscrov crcpa/.µu.
mean evolute of a surface, µsO"T) tssili.t yµsv11 e7tt<paveiu<;.
mean for integrals, µfo11 (nµT]) 61.oKli. 1wffiµaw<;.
first law of the mean for integrals, 1tp6itoi;; v6µoi;; tf]i;; µecr11i;; (ttµf]i;;) t&v 6A.OKA11POlµU'tOlV.
second law of the mean for inte-
641
mean free path
grals, lie\m:prn;; v6µoi;; tilt; µfoT]t;; (n• µflt;) t&v 6A.oKA.T]proµ6.trov.
mean free path, <l>YL., µecrri tA.w-0epa opoµir [ µfori tA.w0epa Mwcrt<;].
mean motion, µecrri Kivricrt<;.
mean normal curvature of a surface at a point, µfori op060eto<; Kaµm.lAO'tTJ<; i:mcpaveia<; Et<; n <YTJµEtoV.
mean of the Poisson distribution, LTAT., µfori (nµiJ) 'tfj<; rcouacrcrovmvfj<; Katavoµfj<;. (LYN.: variance of the Poisson distribution).
mean ordinate, µem1 'tE'tayµevri. (LYN.: average ordinate).
mean place, AOI'., µecrri 9fot<;.
mean point, MA0., µecrov crriµEiov .
mean proportional, MA0., 1, ~tecro<; ava/,oyo<;. 2, µfoTJ avaA.oyo<;.
mean proportional between two numbers, µfori [ µfoo<;] ava'Aoyo<; (µc:'tal;u) Mo upt9µ&v.
mean radiant temperature, µecrri dxnvo~6A.o<; 9EpµoKpacria.
mean ratio, µfoo<; A.6yo<;.
mean regression function, cruvap'tTJcrt<; µforJ<; uvaopoµi]cn:ro<;.
mean sea level, µecrri 9aA.acrcrocr'ta-9µri. [ µfori cr'ta9µri eaA.a.crcrri<;· µfori eat.acrcria cr'ta9~tir µfori smcpUVEta 0aA.6.crcr11<;).
mean skin temperature, µecr11 OEpµtKTJ [ µfori smrco/.aia] (kpµoicpacria.
mean spheroid, µfoov crcpmpoEtoe<;.
642
mean value of a function
mean square, µecrov 'tE'tpayrovov. error of the mean square, cnp6.A.µa
µfooo tetpaycl>voo. (EYN.: meansquare error).
root-mean square, pi~a µecroo tetpaycl>voo.
mean square contingency, LTAT., crUV'tUXtU µecrou 'tE'tpayrovou.
mean square deviation, µecrri 'tE'tpayrovtKTJ tK'tporci]· {tK'tpom'J ~tfoou 'tE'tpayrovou].
root-mean-square deviation, EKtpomi pi~TJt;; ~tfooo tetpaycl>voo· [0eµeA.taKii £Ktponi; µecroo tetpaycl>voo· 0eµeA.taKii £Ktponi;J.
mean-square error, LTAT., crcpaA.µa µecrou 'tE'tpayc.Ovou· [µecrov crcpaA.µa].
root-mean-square error, mp6.A.µa pi~TJt;; µfooo tEtpaycl>voo· [0eµeA.taK6v mp6.A.µa tetpayrovtKoli µfooo] .
mean square ordinate of a curve, 'tEmyµi::v11 µecrou 'te'tpayrovoo (µtt'i<;) rnµm'.JA.11<;· [ µfori 'te'tpayrov1iciJ 'tE'tayµi::v11 KaµrcuA.ri}.
mean terms of a proportion, = means of a proportion.
mean time, NA YT., µecrri &pa. Greenwich mean time, µ EcrTJ ropa
rKpiiVO\l"ltt;;• {µfoT] Wpaj.
mean trend, LTAT., µfori 'tUcrt<;• [ µi::crri Ka'teu9uvcrt<;}.
mean value, LTAT., µfori nµi]· [ µfori].
mean value formula, Ota'turtroµa { 'tUrto<;} µfoTJ<; nµfj<;.
Cauchy's mean value formula, KCOcri;tav6v litat\mroµa µfoT]t;; nµfji;; · [ t6-not;; µecrrii;; nµflt;; wu Krocru].
mean value of a function (of one variable), µfori nµ'i] cruvap'ti]crEro<; (µtt'i<; µc:1aB'A111fj<;) .
mean value of a function
mean value of a function over a given range, µtcrri 'ttµiJ cruvap1i]crc:ro<; erci oo9Ev l:K'taµa.
mean-value property of subharmonic function, io16111<; µfori<; nµfj<; [ µc:cronµtKTJ io16111<;] ('tfj<;) ucpapµovucfj<; cruvap1i]crero<;.
mean value theorem, ec:ropriµa µeCTTJ<; nµfj<;. (LYN.: law of the mean).
Bonnet's mean value theorem, Secl>PT\Jl.'.l µtcrT]t;; nµfjt;; tou Mitovve.
extended [generalized] mean value theorem, napeKta0i:v [yevtKeuµtvov J 0e<l>priµcc µfo11i;; nµfj i;;.
Gauss's mean value theorem, yrocrmccvov 0eoopriµa µforii;; ttµfji;;· [0eciJPTJJl.U µE<JT)t;; tLµfjt;; tOU rKU.oot;;].
second mean value theorem (of the differential calculus), lieutepov 0eoopriµa µforii;; ttµfji;; (tou litacpoptKou A.oytcrµou). (:EYN.: double Jaw of the mean).
mean value theorem for a function of two variables, 9c:rop11µa µfo11<; nµfj<; Stu cruvap111mv 't&v Mo µrn1BA. ll't&v.
mean velocity, µecrri 'taxuvcrt<;. constant mean velocity, crm0ep6.
µfo11 t6.xovmi;;. quadratic pulses of a constant
mean velocity, tetpo.yrovtKoi [liemepof36.0µt0t] naA.µoi cno.0epai;; µtcrTJt;; taxuvcreroi;;.
meaning, v611µa· [ cr11µacria· aKptBiJ<; svvo1aJ.
theoretical meaning (of exactness), MA0., 0eropT]ttK'li crriµucria (tf\t;; aKptf36tT)tot;;).
meaningful, AOI'., v01iµawc6<;,i],6v (= rcou Etvat cruµµopcpo<; npo<; 'tO v611µa, 11 Elvm µc:m:o<; voijµato<;).
meaningful concepts, vo11µanKai evvotat.
measure
means of a proportion, MA0., AOI'., µi::cr0t opot 'tfj<; avalvoyia<;.
measurability, MA0., ~LE'tj)TJ'tO'tll<;. { ~le'rj)llcrtµO'tTJ<;).
Caratheodory test for measurability, Kapa.0eoliropuci; Pacravoi;; µetpTJt6tritoi;;· f PO.cravoi;; µetpT)totT)tot;; too Kapa0eoliropfjj.
measurable, µc:'tpJ1crtµo<;,o<;,ov· [ µc:'tpTJ't6<;,i],6v ].
Lebesgue measurable, µetpftcrtµoi;;, oi;;,ov [ µetpT]t6t;;,i},6v] Kata Ai:µneyK.
measurable function, µ1>1pi]crt~to<; cruvapn1cr1<;.
Borel measurable function, f3ope/,mv11 µetp'licrt~tOt;; crov6.ptT)mt;;· [ cruvaptT]<JLt;; µetpTJtii Kata MitoptA.].
bounded measurable function, 1tE· po.tii [ nepo.troµevri] µetpftcrtµoi;; cruv-6.ptTJcrtt;;.
measurable magnitude, µe'tpi]crtµov ~u:yc:9o<;.
measurable partition, µE'tpi]crtµo<; µc:p1crµ6<;.
measurable properties, µc:1pi]cr1µot f.OtO'tTJ'tE(,.
measurable set, µ1>1pi]crtµov cruvo'Aov.
Borel measurable set, PopeA.mvov µetpiicrtµov cruvoA.ov· [ cruvoA.ov µetpftcrtµov KO.ta MnoptA.].
Lebesgue measurable set, cruvoA.ov µetpi}mµov Kata AeµntyK.
measurand, ( 6) µe'tpTJ'tfo<; ( = µE· 'tPTJ'tSa rcocr6'tTJ<;, Mvaµt<;, l.016-'tTJ<;, tl cruv9i]w11).
measure, µ1>1p&· [icarnµ1>1p&}.
measure, I, ~L~'tpov. 2, µE'tptKOV crUcr'tTJµa· { µf.'tpa,j. 3, µE'tplKTJ µova<;.
angular measure, yrovtaKOV µetpov.
643
measure
apothecaries' measure, q>apµmceu'tt1ca µt't pa.
board measure, crav101Ki] µovar:,· [ µt"Cpa cravrnrov J.
Borel measure, BoN:l .. 1av6v µetpov· {µEtpov (wii) Mrr.opt'J...].
Carathfodory (outer) measure, (El;onepov) Kapa0worop1K6v µf.tpov · [f.l;<'mepov µf.tpov wii Kapa0woropij].
circular measure, KUKAtK6v µetpov. common measure, MA0., K01v6v
µf.'tpOV' { KOi vor:, O!UlpEH]r:,j. convergence in measure, cruyK'J...1cr1r:,
EV ('ti\>) µf.tpcp.
cubic measure, KuB1Ki] µetptKi] µovur:,· { µovar:, XWPT]ttKOtl]tor:,· µf.tpov OYKOU}.
decimal measure, 0EKCL01K6v µe"CptKov crucrtl]µa.
dry measure, l;11p6µetpov· [l;11pa µetptKi] µovuc;· µeTpov xrop1]t1K6tTJtor:, l;11prov Kaprr.&v Kai crlt!]prov ].
exterior measure, MA0., el;rotep1-K6v µf.tpov.
greatest common measure, MA0., µf.ytcrtov Ko1v6v µetpov· [ µey1crtor:, JC01vor:, 01mpetTJc;J.
Haar measure, µf.tpov tou Xuap. interior measure, MA0., ecrrotep1-
K6v µEtpov.
land measure, µetpov l:mcpaveiar:, eoucpour:,· [µetpov yijr:,].
Lebesgue measure, 'J...e~ecrye1av6v µf.'tpov· [µE'tpov (tou) Aeµrr.eyK.
lineal measure, = linear measure. linear measure, µetpov µi]Kouc;·
[ypaµµtKOV µEtpov ].
liquid measure, µEtpov xrop!]ttK6-'t'T]tor:, uyprov· {uypa µ&tptKi) µovar:,j .
product measure, y1voµev11c6v µf.Tpov· [µf.tpov y1voµtvou].
quarter of a unit measure, t'E't'aptov µeTptKijr:, µovuoor:, .
Radon measure. paoovtavov µ€Tpov.
spectrum of a spectral measure, q>acrµa (tou) q>acrµanKou µf.tpou.
square measure, µ&tpov eµBaoou. (LYN.: surface measure)
644
measure of central tendency
surface measure, µ&tpov l:mq>aveiar:,.
surveyor's measure, Torr.oypacptKOV µ1hpov· [torr.oypacp11ci] µetp1Ki) µovar:,].
tape measure, µetpotmvia. unit (of) measure, µetp1Ki] µovur:,. weights and measures, µf.tpa Kai
crrneµa.
wood measure, µf.tpov ~UAEiar:,· [l;u'J...EtaKi) µEtp1Ki] µovar:,] .
measure algebra, µi:-rpuA.yi:ppa· [µe-rptKT) {iA,yi;ppaj.
measure for, = measure of.
measure line, IlPOOITT., aU0aia Karnµa-rpi]<rnroi;.
measure of a set, MA0., µ1hpov ( T.Oi3) cruv6A.ou.
exterior measure of a set, {;l;(J)'t'&p1-K6v µf.tpov cruv6'J...ou.
interior measure of a set, EO"CO't'&plKov µf.tpov cruv6'J...ou.
Lebesgue measure of a set, 'J...eBEcry&1av6v µf.tpov cruv6'J...ou· [ µf.tpov cruv6'J...ou tou Aeµrr.eyK].
cr-finite measure of a set, crtyµo-1tE1tEpacrµevov µE'tpov (tou) cruv6A.ou.
measure of a spherical triangle, µt-rpov m:pmptKoi3 -rpryrovou.
measure of an angle, µhpov yrovim;. centesimal measure of an angle,
EKatocrnaiov µetpov yroviar:,· [tKatocrnaiov crucrtl]µa µEtpi]crEror:, yrovt&v j.
circular measure of an angle, Kt>KAtK6v µ&tpov yroviar:,.
radian measure of an angle, aKnv1aK6v µetpov yroviar:,.
sexagesimal measure of an angle, t~11Kovtao1K6v µeTpov yrovim;· [tl;11-Kovtao1K6v crucrtl]µa µEtpf]crEror:, yrov1rov j.
measure of central tendency, LTAT., µt-rpov 'KeVtptKfj<; bttcpopuc;· [ µttpov KtvtptKfj<; tilcreroc;].
measure of curvature
measure of curvature, µttpov KaµnuA.OtT]tO<;. (LYN.: specific curvature; curvature invariant).
Gaussian measure of curvature, yrocrmavov µeTpov Kaµrr.u'J...6tT]tor:,· {µetpov Kaµrr.u'J...OtT]tor:, tou rKuour:,j.
Riemannian measure of curvature, p1µavv1av6v µf.tpov Kaµrr.uA.6tT]tor:,· [ µf.tpov Kaµrr.u'J...6TT]tor:, tou Piµav].
measure of dispersion, LTAT., µttpov otacritopac;.
measure of variability, µf.tpov µataPA.rtt6nrcoc;· [µf.Tpov Stacrnopfli;j.
measure of variance (due to each of the sources of the variation), µf.T.pov uA.A.ot6T.T]T.O<; ( 6<1>etA.o~ttv11c; et<; EKUcr't'T]V Tffiv nriy&v T.fj<; napaA.A.ayi'jc;).
measure-preserving transformation, µeT.potri pT]nKo<; µewcrxri µancrµ6c;.
measure ring, µeT.pooaKtuA.toi;· [ µeT.ptK6<; OUK'tUAto<;}.
measure-theoretic reasoning, MA0., µe-rpo8tropT]T.tK6<; otaA.oytcrµ6c;.
measure theory, MA0., µtT.po0tropia· [µeT.pTJ'ttKTJ Seropia].
measure zero, µf.tpov (to) µriotv .
measured, I, µeT.pouµevoi;,11,ov. 2, µeT. PTJ 0eii;,etcru,tv.
measured clockwise, µetpouµevoc;, 11,ov Se~tocrtp6cproi;.
measured counterclockwise, µ&rpouµevoc;, T],OV Uptcr't'epocrtp6cproq,.
measured in radians, µetpouµevoi;, 11,ov et<; aKrivta.
angle measured in radians, yrovia µEtpouµtvl] [yrovia µEtpT]0Eicra] &ir:, UKtivia.
mechanic
measured in the vertical direction, µerpouµevoi;,11,ov Kata -ri)v KaT.aK6pocpov cpopuv.
measurement, µf.tpT]crti;· [Kataµf;-rpT)crt<;}.
derived measurement, rr.apuyroyoi; µetp11cr1r:,.
fundamental measurement, 0Eµ&'J...1roo11r:, (Kata)µttp11cr1r:,.
median of a group of measurements, 01aµfol] 6µuoor:, (KaTa)µ&Tpi]cr&rov.
metric measurement, µEtptKi) [S&Kao1Ki)] Kawµf.tp11cr1r:,.
quartile measurement, 't'Etapt11µ0-p1aKi] µf.tpT]crtr:,.
rate-of-change measurement, µ€TpT]cr1r:, Tijr:, otatlµijr:, { µ€tpT]O"lr:, toU pu0µou] Tijr:, Ct.Uayijr:,.
theory of measurement, 0Eropia tf1i; µEtpfjcr&ror:,· [ µEtpT]nKi) 0eropia].
measurement of time, µt-rpT)<rt~ [ Kataµ&tpT]crt<;} wu XP6voo.
measurement procedure, µetpTJ'ttKtl otaw.KnKi]_· [ µe8ooeia (Kara)µe-rpi]creroc;].
measurement standard, µeT.pT]nKov anownov· [ &.nownov (Kara)µeT.pi]_crero<;].
measuring, µttpT]crti;· [Ka-raµttpT]crt<;].
measuring a circle, µ&tpT]crt<; KU· tlou.
measuring angles, µtT.pT]crt<; yrovt&v.
centresimal system of measuring angles, tKatocrnaiov crucrtT]µa µETpfjcreror:, (t&v) yrov1rov.
measuring positive (to the left), µetp&v,oi3cra,oi3v [ µeT.pouµevoc;, T],OV 1 Kata 0e'ttKTJV (7tp6<; -.a. uptcr-repu) cpopuv.
mechanic, I, = mechanical. 2, manual.
645
mechanic
mechanic, µT]xavorsxvhlK [ µT]xaVLK6c:,).
mechanic flight, µT]xavtKTj [ µT]xaVT] µarm']] mfj cric:,.
dynamics of mechanic flight, 3uvaµuo'l tfjc; µTJxavtKfjc; 1ttftcn:roc;.
mechanic's rule, µl']xavtKoc:, Kavcbv ( = Kavffiv e/;ayroyfjc:, TfjC:, TE'tpa'YffiVLKfjC:, pisTJC:,).
mechanical, µ1']xavtK6c:,, it,6v. quantum-mechanical, aKptflocr'tOµTJ
xav1K6c;, iJ,6v ( = tfjc; aKptflocrnKfji; µTJXUV!Kfjc;).
mechanical analogies, µT]XUVtKai avaA.oy(crstr,.
mechanical arithmetic, µl']XO.VLKll Ctpt0µT]nKit.
mechanical astronomy, µl']xavtici) acrrpovoµia.
mechanical concepts, svvoiat [evvowA.oyiKai avnA. ii'l'Etr,} rfjc:, µT]XaVLKfjC:,.
mechanical construction, µl']xavtKi) KaracrKwij ( = ysroµE'tptKTJ oiu µT]xavLKWV µforov Ka'tacrJCEUit).
mechanical differential analyzer, µT]xavtKOC:, Ota<poptKOC:, ava/...u'tl)C:,.
mechanical drawing, 1, µT]XUVLKOV crxsoiacrµa { ysroµE'tplKOV O"XE· ofacrµaj. 2, µl']XaVLKTJ O"XEOiacrtr,. (:EYN.: drafting).
mechanical efficiency, µT]xavtKTJ &moonK6'tT]C:,.
mechanical energy, µT]XaVtKTj SVepYEta.
mechanical energy equation, esiO"ffiO"lC:, µTJxavtKfjC:, evspysiac:,.
mechanical engineer, µT]xavoA.6yoc:, µl']xavo'tEXVlK[ µT]xavoMyoc:,j.
646
mechanical work
mechanical engineering, µl']xavoA.oyiKij µTjxavo'tEXVia· [ µl']xavoA.oyia ).
mechanical equivalent of heat, µT]xavtKov icroouvaµov 'tfjC:, 0spµ6-'t1'J'tOC:,.
mechanical equivalent of light, µT]xavtKov icroouvaµov 'tOU <pffi'tOC:,.
mechanical force, µl']xavtKij ouvaµ1c:,.
mechanical hysteresis, µ11xavtKTJ ucrrepl']crtr,.
mechanical inertia, µT]XaVLKTJ aopaVEta.
mechanical integration, µT]xavtKl} 6/...oicA. itprocric:,.
mechanical machine, µl']xavtKOV µT]xavl']µa.
mechanical model, µT]xavtKov np6-'tunov.
mechanical power, µT]xavtKi) Suvacric:,.
mechanical properties of gases,. µT]xavtKai iOLO'tl']'tEC:, 'tWV UEpi(J)V.
mechanical system, µT]XaVLKOV cruO"'tT]µa.
single spring-mass mechanical system, µTJxavtKov crucrt1iµa a1tA.1;c; £A.atTJPtaKfjc; µ6.~TJc;.
mechanical translation, µT]xavtKl) [ µT]xavl']µa'tlKTJ] µE'tU<ppacrtr,.
mechanical unit, ct>Y:E., µT]xavtKi}, µovcic:,.
mechanical vibration, µi1x;aviKoi;: Kpaoacrµ6c:,.
elementary mechanical vibrations~ O"'tOlXEtci>3i:tc; µTJXUVlKOi Kpa3acrµoi.
mechanical work, µl']xavtKov &pyov· [&pyov ).
mechanically
mechanically, µl']xavtK&c:,· [oia µTJxavtK&v µforov ).
mechanics, µTJxavtKfi. abstract mechanics, a<pTJpTJµEVTJ µTJ
xav1Kft. analytic(al) mechanics, uvaA.unKi]
/0EOlPTJ'tlKi]} µTJXCXVlKfj. axioms of mechanics, d~troµata tfic;
µTJXUVlKi'}c;. canonical variables (in mechanics),
0i:crµ1Kai µi:tuflA.TJtUi (tfjc; µTJXUVlKfjc;).
celestial mechanics, ol>pavia [ oupavwc;] µT]XUVlKi].
continuum mechanics, cruvcxol50-µ1Ki] { O"UVEXlKi)j µTJXCXVLKf].
engineering mechanics, µTJxavotExv1Ki) µT]XUVlKfj.
fluid mechanics, pi:ucrt0µTJxav1Kft· [µTJxav1Ki) t&v pwcrtrov].
Galilean mechanics, yaA.tA.ai:Ki) µTJxavtKit· { µT]XUVlKi) 'tOU raf..tf..a[OU }.
hereditary mechanics, KA.TJpovo~tlKi) µTJXUVlKi].
hydromechanics, 015poµTJxavtKf]. matrix mechanics, µTJrpEtaKi) µTJxa
vtKf]. Newtonian mechanics, vwtrovcwc;
[vi:utroviavi)j µT]xav1Kft. non-Euclidean mechanics, µft Eu
KA.Ei15i:toc; µTJXUVlKfj. ' nonrelativistic quantum mechanics,
µi) crxEnKicrnKi) aKp1flocrtOµTJxav1Kft. orbital mechanics, tpoxtaKi) µT]xa
vucft. practical mechanics, 1tpaKttKi] µTJ
xavtKit" {i';<pTJpµocrµEVT] µTJXCXVtKf]j. (l:YN.: applied mechanics).
pure mechanics, Ka0ap0. [0i:rop11t1-Ki]] µT]XUVlKi].
quantum mechanics, a1Cp1flocrt0-µTJxav1Ki]· [ aKpiflocrnKi) µTJxavtKft· Kf\avwµTJXUVtKit].
rational mechanics, op0of..oytKi] {0EOlPTJ'tlKi)j µT]XCXVlKiJ.
relativistic mechanics, O"XE'tlKtcrttKi] µ11xav1Ki).
relativistic quantum mechanics, crxettKtcrnKi) aKptf\Ocr'tOµTJXUVLKfj.
mechanism
soil mechanics, el5mpoµ11xav1Kft. space mechanics, 31acrtTJµ1Ki] [ xro
paia] µT]XUVlKi]. statistical mechanics, crtaticrttKT)
µT]XUVLKf]. structural mechanics, 15oµTJtlKTJ µT]
xav1Kf]. technical mechanics, tEXVtKi) [tE
xvoA.oy1Ki)] µT]XUVLKi]. theoretical mechanics, 0i;ropTJ'tlKTJ
µTJXUVtKft. wave mechanics, 1cuµatoµTJxav1Kft.
mechanics of engineering structures, µl']XaVLKTJ 'tWV µT]XaVO'tEXVLKWV 00µ11µci'troV· [ µT]xavLKi) 'tWV <poperov).
mechanics of fluids, µl']xavtKTJ 'tWV pEUcr't&v· [ pEUcr'tOµTJxavtKfi].
mechanics of gaseous bodies, µT]xavm'l -rwv &spirov· [ aspwµT]xavtKit}.
mechanics of liquid bodies, µT]xa.vtKij TWV uyp&v· {uopoµ11xav1Kit).
mechanics of materials, µT]xav1Kij TWV UAt!CWV.
mechanics of rigid and deformable bodies, µT]xavtKi) 'tWV O"'tEppwv Kai napaµopcprocriµrov crroµci'trov,
mechanic of solid bodies, µm;avtKij -rwv cr-rsps&v· [ crrEpEOµT]x;a.vtKit].
mechanism, 1, µ1']xavicrµ6c:,. 2, ct>IA., µTJxavT]µancrµ6c:,· [ µT]xavooo1;1-crµ6c:,j.
collapse mechanism, µTJxavicrµoi; KUtuppEUO"Eroc;.
control mechanism, µTJxavicrµoi; £1..trxou· [eA.i;yKttKoc; µTJxav1crµ6c;j.
deformation mechanism, µT]xavicrµoc; 1tapaµop<procri:roc;.
elementary collapse mechanism (of rigid frame), crt0tXEt<h3T]c; µTJxavtcrµoc; Katappi:ilcreroc; (crteppou 1tA.at-
647
mechanization
criou)· [ O'WlXELffil>T]c; licrt<i0ELa (toil crtEppoil n/...mcriou)].
guidance mechanism, µT]xavicrµoc; MT]yEcriac;· [ 61>T]YEtLKoc; µT]xav1crµ6c;] .
reduced mechanism, livT]yµEvoc; µT]xavLcrµ6c; .
simple mechanism, ait/...ouc; µT]xaVLcrµ6c;.
mechanization, 1, i:KµTJxCT.vtcni;. 2, µrixavopyuvfficrti;.
mechanize, i:KµrJxavro.
mechanized, 1, i:KµrJxavtcr0sii;,stcra, tv. 2, µrixavoiciVrJ'toi;,oi;,ov.
mechanized accounting, OIK., µrixavoypacpm) A.oytcrnicii· [ µrixavoA.oytcrnicii].
mechanized information retrieval system, MHXT., MAE>., µrixavoicivq't'Ov O'UO''tl']µa nA.ripocpoptaicfji; avat.aPf\i;;.
media, nA.ri0. 't'OU : medium. mass media, (ta) µa~1Ka emK01v0>
VT]'t'tKa µtcra· [(ta) µtcra (tile; µa~tKf\c;) emKmvrovi]qi;roc;] ( = t6itoc;, KtVT]µawypu<poc;, pal>L6<provov, tT]/...rnwia).
median, otaµscronic6i;, ii,6v· {'Ota. µscroi;,oi;,ov ].
median, 1:TAT., 1, 'Otaµfo'ri· {otuµscroi; ypaµµii] . 2, 8t6.µscrov O'TJµstov. 3, otuµscroi; (opoi;).
median deviation, 'Otuµscroi; i:ic'tpo-nii.
median of a group of measurements, otaµfo'ri [otuµrnoi; nµl)] 6µ6.ooi; (1Ca'ta)µe'tpTJ0'6ffiV. .
median of a trapezoid, otaµfo'ri {otuµecroi; ypaµµl)] ('t'Oti) 'tpanel,;iou.
median of a triangle, otaµtcrTJ [otuµscroi; ypaµµl)] ('t'Oti) 'tptyrovou.
median point, 016.µecrov crriµetov.
~48
meet of a lattice
median point of a triangle, 816.µ&crov crriµetov [icev'tpoe1of:i;] (evoi;) 'tptyrovou.
median point of population, otuµ&O'OV crriµetov ('t'Oti) nA.ri0ucrµou.
mediate, tvotuµecroi;,oi;,ov.
mediate inference, A.Or., 016.µ&croi; O'UVUYffiYll.
medicine,l!a'tp1icii . aerospace medicine, Cr.crtpo81acrtri
µLK1'J {OLClO'tT]µLKl'l} iatptKi].
medium, 1, µt'tptoi;,a,ov. 2, µtcroi;, rJ,OV.
medium, 1, µtcrov. 2, oA.tKOV µtcrov· [µtcrov].
anisotropic (elastic) medium, Cr.vtcr6tpoitov (e/...acrnKov) µtcrov.
continuous medium, cruvEK'tlKOV [ cruVEXOOOµlKOV J µfoov.
elastic medium, t/...acrttK<'>v µi:crov. stress in a continuous meaium,
t<icrtc; de; cruVEJC'tllCOV { t<icrtc; ⁣ cruvi;xol>oµLKOV] 6A.LK6v· [t<icrtc; de; u'J...tKOV cruvi;xouc; l>oµf\c;].
medium frequency, µtcrri [ µe'tpia J O'UXVO'tl']i;.
medium height, MHX., µtcrov{µ&'tptov] ihvoi;;.
buildings of medium height, Ktipta [ olKol>oµal] µEtpiou ilwouc;.
medium of exchange, OIK., µtcrov cruva/vA.ayfji;· [ µtcrov UV'talu/vayfji;j.
medium vacuum, µt'tptov [ µtcrov J icev6v.
medium wave, µecr6icuµa· [ µscraiov icuµa]. ·
meet, MAE>., cruvayµa.
meet of a lattice, MAE>., m'.wayµa ( 't~ti) n/vtyµ<i't'Oi;.
meet of a set
m~t of a set, MAE>., cruvayµa ('rou) cruv6A.ou.
meeting, 1, O'UVUV'tl']O'ti;. 2, O'UVf:-op{ao'ti;. .
megabit, AOrILM., µ&ycl\jfl']Cj>OV ( = 1.000.000 OUO\jfrJq>U).
megacycle, µeynicu1CA.tov.
megaton, µeyci't'Ovvoi;.
megohm, µeyroµwv· [ µeyicroµ].
mel, µtA.wv· [ µf:A.] ( = µovai; u-icoucrnicou u\jfoui; 't6vou ).
Mellin (R. -), (P.) MtA.A.tv ( = cruyxpovoi; µn0riµnnic6i;).
Mellin inversion formtllas, µeA.A.tv1ava · ota'tunroµa'ta avncr'tpocpfji;· [ 'tU1tOt avncr'tpocpfji; 't'OU MtA.A.tv }.
Mellin-Laplace integral transformation, 6A.oKArJpffinicoi; µ&rncrxriµancrµoi; MtAA.tv-AnnMi;.
Mellin transform, µeA.A.tvtavov µe'tacrxri µcincrµn · [ µe'tacrxriµuncrµn 't'OU MtA.l .. iv }.
melting, <l>YI., 'tfj~ti;· [A.urocrtµo· A.eui>crtµo }.
melting point, <l>YI., crrJµ&tov 'tli~effii;.
member, MHX., µtA.oi;· [cr't'OtXeiov].
compression member, 0/...tl36µEvov µ t /...oc;· [0/...tl36µ&VOV O'tOLXEtov J.
redundant member, itA.wvaotov [uit&pti;/...tc;J µi: A.oc;.
rigid member, crtEppov [ crxEMv liKaµitwv) µi:A.o c;· [ crxi;Mv iiKaµnwv O''tOtXElOV J.
structural member, l>oµT]nJCov µi:A.oc;.
subordinate member, Seut&pEilov µUoc;· [SEUtEp&Clov O''tOlXElOV J.
memory
tension member, f<pE'J...Ku6µEvov µi:J...oc;· {E<pEAKU6µEVOV O'tCJtXElOV ).
member of a set, MAE>., µt/voi; [ crrntx&tov] 'toti cruv6/vou.
maximal member of a set, µEytotonKov µi:J...oc; toCl cruv6/...ou.
member of an equation, µtA.oi; [ crictA.oi;;] ( 'tfji;) i:~tcrrocr&ffii;.
first [left] member of an equation, npootov µi:/...oc; {itpootov O'Kt'J...oc;] ti'\c; el;tcrfficr&roc;.
second [right] member of an equation, l>E6t&pov µi:J...oc; [8&6tEpov mct/...oc;j tfjc; El;tcrfficrEroc;.
membrane, µeµpp<ivl'].
membrane problem, MAE>., µeµppnviicov np6PA.riµa ( = np6-PA.TJµa µeµppavrii; 1,;euyvuoucrl']i; nA.aicrtov crxiJ µa't'Oi; r).
membrane structure, µeµppcivwov 06µl']µa· [ µeµppavoetol)i; q>o.peui;}.
memo, crriµeiffiµn.
memorandum, 1, On6µVl']µ<l. 2, O'TJµeiffiµU.
memorization, cmoµvl']µ6veucrti;. rote memorization, Cr.itocrti]0tcrtc;•
[ µT]XClVtKf] Cr.itoµvT]µ6veucr1c;].
memorize, cmoµvriµoveuffi.
memory, AOrn::M., µviiµri· [µvriµ1ic6v }.
computer memory, J...oy1crµT]t1Kii µvi]µT]' [A.oytO'µT]'tllCOV µvT]µtKOV ].
dynamical memory, l>uvaµ1Kii µvi]µT] · [SuvaµLKOV µvT]µtK6V ].
electronic memory, i]'J...EKtpovtKi) µvi]µT]' [ i]A.EJCtpOVtKOV µvT]µtK6V J.
electrostatic memory, i]A.EKtpocrtanicit µvi]µT]' [ i]'J...&Ktj)OO''tCltLKOV µVf\~ µtKOV) .
external memory, tl;rotEptKii µvi]µT]' [i:l;rotEptKOV µvT]µlKOV ].
649
memory capacity
internal memory, foro"C&pucit µviJµll' {CcrOYr&plKOV µVl']µlKOV }.
mercury memory, Uiipapyup1Kit µvi]µrr [uopapyuplKOV µVl']µlKOV ].
nonvolatile memory, µTi q>&uyaA.ea µvi]µrr [ µov1µov µvriµ1Kov ].
permanent memory, µoviµoc; µvi)µll· [ µoviµov µvriµ1Kov ].
random access memory, µviJµll [ µvriµ1K6v] mx;aia.;; 7tpocrf3acri:ro.;;· [ mxmof3anKTi µviJµri· 'tux;mof3anK6v µvriµ1Kov ].
memory capacity, AOrirM., µvT]~nKi] XffiPlJ'!LK6t11c; ( = XffiPl]tlKOtl]c; de; nA.11pocpoptUKOV uA.1-KOV f:Kcppa~oµevri eic; ou6'1'11cpa).
memory component., AOrirM., ~tv11µtJCOV crncrtattJCOV crtotXELov· { µvriµtJCOV 1>uicrJCwov· µvT]µ1JC6v· µvf]µ11].
memory device, AOrirM., µvri~nJCov 1>1acrJCwov.
memory dump, AOrI~M., µvT]µtKi] { Ct7t001l1CEUtl1Ci']} U7tOO"WpEUcrtc;· { µvriµm'J µi:tacrffipwO"Lc;j.
memory location (of a computer), AonrM., µv11µtKi] t07to0i:cria { µvtiµtJCov crriµi;fov] ('roil A.oy1crµ11tou). (rYN.: address).
memory of a computer, µvi]µ11 { µvriµiJCov] tou A.oy1crµ11tou.
preparation in machine language of the commands to be inserted into the memory of a computer t.wiµacria [ Ka"Cacr"Cpromc;] ≤ µllxdvriµanKitv yA.rocrcrav -rrov 7tpocr-rayrov a! o7totm 9a i:icrax;0ouv ⁣ -r6 µvriµ1K6v wu A.oyicrµriwu.
memory print out, AOrirM., ~LVT]µtJCi] U7tE1Ct'U1t(J)CTtc;.
m~mory register, AOrirM., µvT]µ1JCov [ aJto011KwttJCov J µritpci>ov.
650
Mercalli scale
memory tube, AOrirM., µv11µ0A.uxvia· { µv11µtKT) AUXVia },
Menaechmus, Msvaixµoi; ( 7 &A.A.11v yi:roµs•p11c; toil 4ou rr.X . aici>voc;).
Mendel (Gregor Johann-),' (rpriy6ptoc; 'Iroavvric;) Msvti:A. ( = aucrtptaKoc; KAT)ptJCoc; Kai q>Ucrtooicpric;· 1822 - 1884).
Mendel's law, µi:voi:A.tavoc; v6µoc;· [v6µoc; toil Mevti:A.].
Mendelian, µi:v1>EA.tav6c;, i],ov ( = toil Msv.i:A.)
Mendelian factor, µi:voi:A.ta.voc; rrapayrov· [ napayrov rnu Mev.i:A. j.
Menelaus, Mi:vsA.aoc; ( = !:A.A.riv µa-011µanJCoc; •oil lou µ.X. a!rovoc;).
Menelaus's theorem, 0i:mpriµa toi> Mi:vi:A.aou.
meniscus, MA0., µrivicrJCoc;. · converging meniscus, cruyKA.ivrov
µrivicrKoc;.
mensuration, MA0., yi:roµetpT]O"lc; ( = a, yi:roµi:tptKi] JCataµE-rpT)O"Lc;· p, µi:tpT)nKi] yi:ro~LEtpia).
mental, voi:p6c;,a,6v.
mental arithmetic, voi:pa [ aJt6 µvf)~tTJc;] Upt0µT)ttKTJ.
mental calculation, voi:poc; { ano µvi]µT)c;] u7toA.oy1crµ6c;.
mentality, vootpo7tia. mathematical mentality, µa01iµan
Kit VOO"Cp07t[a.
Mercalli (Giuseppe -), ('Irocn'Jcp) Mi:pJCaA.A.t ( = haA.oc; cpucrtK6c;· 1850 - 1919).
Mercalli scale, µi:pKaA.A.tavi] tltµa~· {KJ..iµa~ (cmcrµtKfjc; EVtU· cri:roc;) toil Mi:pKaA.A.t}.
mercantile rule
Modified Mercalli scale, -rpo7to7to1• riµtvri µ&pKaA.A.uxvTi KA.tµal;. (EYN. MM scale).
mercantile rule, OIK., MA0., f:µrroptKoc; Kavffiv.
Mercator (Gerard -), (ri:papooc;) Mi:pKatrop ( = cpA.aµavooc; µa-0riµanJC6c;· 1512- 1594).
Mercator chart, ~lEpKat0pt1Coc; xap•T)c;"[ xaptT)c; toi> Mi:pK<itopoc;}.
Mercator map, 1, µi:pKatoptKoc; xaptT)c;. 2, MA0., µi:pJCatopt
Koc; eiJCOVlCJ'~t6c;.
Mercator's projection, ~1EpKat0pt-1Cfi npopoA.ir { 7tpopoA.fi rnu Mi:pJC<irnpoc;].
Mercatorial, ~1i:pKatoptK6c;;1),ov ( = rnu MspKatopoc;).
merchandise, OIK., f:µrropoA.oy& ( = nporo0& rrpoc; JCatavaA.rocrtv).
merchandising, OIK., f:µnopoA.oyia ( = µ800001 Kai crucr'tiiµata f:JCnot i]cri:roc; trov ota0i:criµrov Elc; ~LtaV ayopav aya0@v).
merchant's rule, OIK., MA0., f:~tnoptKoc; lCUVWV.
mercurial pendulum, <l>Yr., uopapyupt lCOV E1C1Cpi:µec;.
mercury, Mpapyupoc;. micron of mercury, uopapyupucov
µtKpOV" {µtKpOVIOV uopapyupouj.
mercury memory, AOrirM., u-1>papyupt1CTJ µvf]µ11· {uopapyuptKov µvriµtJC6v ].
mercury storage, AOrirM., uopapyuptKTJ U7t00i)1CEUO"tc;.
merge, 1, AOrirM., cruvi:vro· [ cruyxrovi:uro ]. 2, OIK., cruyxrovi:uro· [ crurxrovi:6oµai].
meridional part
merge sort, AOrirM., tvovoµro ( = ta~tvoµro crurx.rovi:urov Mo i1 7tEptcrcrotspac; U1COAOU0iac;j.
merge-sorting, AonrM., 1, svov6µricr1c;. 2, tvovoµi).
meridian, µi:cr11µPpw6c;. arc of meridian, µ&crriµf3pw6v 'tO•
l;ov· [-r6~ov µi:crriµf3p1voil]. celestial meridian, oupavioc; µe
crriµf3p1 voe;. first meridian, 7tprowc; µecrriµf3pt·
voe;. magnetic meridian, µarvll'tlKoc; µe
crriµf3p1 voe;. prime meridian, 7tp©Wi; µ&crriµf3pt·
voe;. principal meridian, AMEP., 7tpro
-r&urov [ ooriroc;] µ&crriµf3p1v6c;. terrestrial meridian, yi]lvoc; µ&crT]µ
f3p1voc;. true meridian, aA.ri9'1c; µi;crriµf3p1-
voc;. zero meridian, ~lT]O&via:toc; µ&crllµ•
f3p1voc;. zone meridian, ~rov1K6c; [ 7tp&-roq.J
µi:crriµf3p1voc;.
meridian angle, µi:crriµPptvi) yrovfo.
meridian circle, µi:crriµPpwoc; KUicA.oc;.
meridian curve on a surface, µi:crriµppi vfi JCaµm'>A.T\ smcpavi:i
ac;. meridian line, µi:crriµPptvi) ypaµµi).
meridian plane, µi:crriµPptvov srrini:oov.
meridian section, µi:crriµPpwi) •oµi).
meridian transit, µi:crriµPpwiJ oiapacrtc;· {1>taPacrt~ rnu µi:mi.µPptvou ].
meridional part, MA0., NAYT., otaµi:crriµPpt vov µi:piowv· [ausoµi:p&c; rrA.uto~].
651
:!
~eridfonal projection
meridional projection, oiaµecrtiµppivl) [ au~oµepfic;J 7tpopoA.iJ.
merit, &.~t6t11c;· [&.~iaoa]. On merit, KU't' cl~iav• {Ka't' U~lO·
'tTJ'ta]. .
merit system, crucrtT)µa tile; Kat' a~totT)ta 1tpoayroyflc;.
meritoriously, S7ta~iroc;.
meritoriousness, S7ta~t6tT)c;.
meromorphic, µep6µopcpoc;,oc;,ov.
meromorphic function, µep6µop-cpoc; cruvaptT)crtc;.
Mersenne (Marin-), (Mapsv) Mepcrsv ( = y(J.').).,,oc; µa0T)µUttKoc;· 1588 - 1648).
Mersenne numbers, µepcrevvtavoi apt0µoi·[api0µoi Mepcrsv ].
Mersenne prime, µepcrevviavoc; 7tpcimcrtoc; &.pt0µ6c;.
mesh, HAEK., liµµa (otKtuffiµatoc;).
mesokurtic distribution, kTAT., µecroKuptl) Katavoµi].
meson, <l>Y:L, µecr6vwv· [ µecrotp6-vtov ].
message, AOrn:M., µi]vuµa ( = tetayµsvTJ emA.oyl) cruµp6A.rov).
intercepted message, 1, ou:µ7tootu0&v µi]vuµa. 2, 07tOKAa7t&V µi]vuµa. 3, ou;µ7tootu0eiua otaf3if3acrt~.
message routing, op6µ11mc; {opoµoMnmc;] µ11vuµawc;.
metacenter, Y .ilPOrP., µetaKevtpov.
metacentric height, Y ~POI'P., µetaKevtptKov ihvoc;.
metacentricity, Y .ilPOrP., µetaKevtptKOtT)c;.
652
meteorological optics
inetacyclic, µetaKUKA.taK6c;, i],6v.
metacyclic equation, µetUKUUtaK~ e~icrromc;.
metageometrical, µetayeroµetptK6c;, i],6v.
metageometry, µe-rayeroµetpia.
metal, µstaA.A.ov. anelasticity of metals, UVBAUO''tlKO·
'tTJ~ 'tii'.IV µt'taA.A.rov. fusible metal, eU'tTJ K'tOV [ 'tTJK'tOV]
µtmA.A.ov.
metal structure, µetaA.A.tvov ooµT)µa· [µetal.A.ivoc; cpopeuc;].
metallic, µetaA.A.tK6c;, i],6v.
metallic standard, OIK., µetaA.A.tKoc; Kavrov· [ µetaA.A.tKl) pamc;].
metallurgical engineer, µetaA.A.oupyoc; µT)XUVOtEXVT)c;.
metallurgical engineering, µetaA.-A.oupytKl) µT)xavotexvia.
metallurgy, µetaA.A.oupyia.
metal ogic, µetal.oyi Ki].
metamathematical, µetaµa01iµan-K6c;, iJ,6v.
metamathematical language, µetaµa0T) µanK1) yMmcra.
metamathematics, µetaµa0qµanKa • [ µa0qµanK1) µe-racpucrtKi]].
metastable, <l>Yk., µeteucrta0f]c;,i]c;, sc; ( = 7tpocrroptv&c; eucrta0f]c;, 11c;. sc;).
metatheory, MA0., µeta0eropia.
meteor wake, µeteroptKl) 6µ6ppota: [ µe-reroptKoc; 6µ6ppouc;j.
meteorological, µe-reropoA.oytK6c;, iJ, 6v.
meteorological optics, µeteropoA.o-
meteorological rocket
ytKft 07t'ttKi]· {&.tµocrcpatptKl) o-7t'ttKi]].
meteorological rocket, µeteropo/1.0-ytKoc; 7tupauA.oc;· [ 7tUpauA.oPoA.ic;].
meter, 1, µstpov ( = opyavov µetpi]creroc;). 2, (oEKUOlKOV) µstpov.
cubic meter, Kuf3ti<6v µt'tpov. dynamic meter, ouvaµtKOV { ytro
ouvaµtKOV} µE'tpov . geopotential meter, ytroouvrinKOV
µE'tpOV. square meter, 1t1payrovtK6v µ{;-
1pov. ·
meter-ampere, µetpaµ7tspwv· [ µe--rpaµ7tsp j.
meter-candle, µe-r pOKTJ piov.
meter-gram, µetpoypaµµaptov.
meter-kilogram, µet poxtA.i6y paµ-µov.
meter-kilogram-second system, = MKS system.
meter-millimeter, µetpoxiA.tocn6-µetpov.
method, µs0oooc;. acceleration method, µ&0oorn; 11i~
tm 'tUXUVUeOJ~. Aitken's iteration method, aitKt
vtaviJ ava7tpoutyytuµti<ti µ{;000o~· [µ£0000~ ava7tpoutyytuµoli wu Ai:TJ'tKeV }.
algebraic method, aA.ytf3ptKti µt-0000~.
alternating method, tvaA.A.ai<nKti µ&0oooc; (wli LJ3ap1c;).
analytic method, uvaA.unKti µ&9oooc;.
apagogic method, AOr., 0.1myroytKti µ&0oooc;. (LYN.: reductio ad absurd um).
approximate method, 1, = method
method
of approximation, 2, Kll'tU 7tpom:y')'tcrtv µ£0000~.
aseismic construction methods; µ{;-0ooot 0.vnuttcrµtKijc; Kamui<!mij~.
axiomatic method, AOr., a~troµani<ti µ&0oooc;.
Baconian method, E7tllY~YtKft µt-0000~ wli Bai<rovoi;.
Bairstow method, J3mpu1ovtaviJ µt0oooc;· [ µt0oooc; 'toil M7taiapu'tro I.
Bayesian method, f3ailEcrtllVft µt00-0oc;· [µt0oooc; wli M7tairi~J.
bolometric method, J3oA.oµt'tptKTJ µteoooc;.
centrobaric method, Ktv1pof3aptKTJ µ&0oooc;.
Cholesky method, xoA.tuKtaviJ µE-0oooc;: [ µt9oooc; wli TuoA.eui<t].
circle method, 0EnP. AP., µ{;0000~ wli KuKA.ou.
comparative method, uuyi<ptni<ti µtOoooc;.
computational method, u7toA.oymnKll µ&0oooi;.
computer method, A.oytuµT]'ttKTJ µE-0oooc;.
computing method, tmA.oytunKti µ&0oooc;.
concentration method, uuyi<tV'tpronK1) µ&9oooc;.
conformal mapping method, u\lµµopq>oc; eiKovtuµti<1) µ&9oooc;· [ µt-0oooc; wli uuµµ6pq>ou eii<ovtuµoli].
constant acceleration method, µ{;-0000~ 'ti'ic; crrn0tpac; tmrnxuvutroc;.
contingency method, LTAT., uuvtUXtllKTJ µt0oOo~.
critical path method, OIK., KptutµoopoµtKll µ&0oooc;· [ µ&0ol>oc; 'ti'jc; Kptcriµou otal>poµijc;}.
deductive method, AOr., 7tapayroy1 Kft µ&0ol>oc;.
deflection method, µt0oooc; 'ti'jc; a7tOKUµljl&OJi;.
delta method, MA0., oeA.'ta'ii<ti µ&-000o~· [ µ&000oc; -cii'.lv l>taq>oprov ].
dia]ytic method, OtaA.U'tlKTJ µi\0000~. direct computing method, liµeuo<;
tmA.oytunK11 µ£0000~.
653
method
direct Laplace integral transformation method, µS0oooi;; toii i:i>0&oi;; A.a.itA.a.cna.vou 6A.oicA.T)prowcoii µi:i:a.O"XTJµa.i:tcrµoii .
dummy load method, µe0oooi;; i:ou i:hci:A.ticou <popi:iou.
energy method, tvi:pyi:wiciJ µe0oooi;;· [µe0oooi;; (tiii;;) &vi:py&ia.i;;J.
equivalence of methods, icroouva.µia. [icroi:tµia] t&v µ&060rov.
Eulerian method, EuA.11pmviJ µe-0oooi;;.
explicit method, cra.qn'li;; ~1e600oi;;.
finite-difference method, µe0ooor; tiii;; itEit&pa.crµevqi;; ota<popui;;· [ µe0oooi;; t&v 1tE1tEpa.crµevrov Ota<pop&v].
finite-difference methods of solution of partial differential equations, µe000o1 itEit&pa.crµt';vrov 01a.<poprov 01' tmA.\Jcrw; µi:pucrov owcpoplKOOV E:!;tcrtllcr&rov.
force-matrix method, µe0oooi;; wu µT)tp&iou tfji;; ouvaµ&roi;;.
formal axiomatic method, &itii:unor; { µop<pllCTJ} a!;tro~La1:LKTJ µe000o<;.
formal postulational method, tnituitoi;; [ µop<p1Ki]j a.ii:q~ta'tlKTJ µt0oooi;; .
four canons of the inductive method, tecrcrapEi;; ica.vov&i;; i:ijc; ima:yroy1 Kii<; µi:060ou· [ i:ecrcra:p&c; tna:yroy1 Ka:i µt-00001].
four-step method, µe000oc; [Ka:vci>v] i:rov i:i:crcraprov Pa.0µiorov.
functional transformation methods, µe000o1 cruva.ptT)crtaKou µi:ta:crxT)µa.ncrµou.
genetic method, yi:v&ttKTJ µe0oorn; . geometrical method, y&ro~t&tptKi]
µe0oooc;. Graeffe's method, ypmcpcp1a:v1') µt-
0oooc;· [ µe0oooc; toi:i rKpa.Icpcp&]. graphic(al) method, ypa.cpuc1'1 µe-
0oorn;.
654
Hestenes-Stiefel method, µe000or; (i:&v cru~uyrov icA.1trov) (i:rov) Xtcrtqvi;;l:i:icpi:A..
Homer's method, xopvi:p1a:vi] ~LE · 0oooc;· [µe0oooi;; wu Xopvi:p}.
Hotelling's method, xoi:i:A.A.1 vyic1a:viJ µt0oooi;;· [ µt0oooi;; wu X6ti:A.A.1 vyic].
method
implicit method, acra.<piJi;; µS0oooi;;. indirect method of difference, AOr.,
eµµ&croi;; µf;0ooor; 01a:cpopiii;;. inductive method, E:ita.yroytKil- µt0o
ooc;. inverse Laplace integral transfor
mation method, µt0oooi;; wu avncnp6cpou A.a:nA.acriavoii 6A.o!CAT)pronicou µi:i:a.crxT1µa:ncrµou .
iterative computing method, uva.-7tpocr&yy1crµtKTJ tmA.oytcrttKTJ µt0ooor;.
iterative method, l, avanpocri:yy1-crµmi µt0oooi;;· [ µe0oooi;; toii a van pocri:yyicrµou] . 2. tna:vaA. Tl itn KTJ ~1t000oc;.
joint method of agreement and difference, AOr., Kotvi] µe0oooi;; cmµ<proviai;; Kai Otacpopiic;• {eµµECJO<; µe-0oooi;; oia<popui;;].
Lagrange's method of multipliers, µt0oooi;; i:rov A.a.ypa:v~1a:vrov noAA.a.n/.acriacrt&v· [ µt0oooc; tii'lv noA.A.anA.acnacrt&v toi:i Aa·ricp6.v~].
least-work method, µt0oooc; tou i\crcrovoi;; epyou.
least-square method, µe0oooi;; tii'>V tA.a.xicrtrov t&tpa:ytllvrov.
linear acceleration method, ypaµ~uKi] tmtaxuvnKi] µe0oooi;; · [µe0oooi;; i:fii;; ypaµµ1Kfji;; tmmxuvcri:ox;,].
Lyapunov's methods, MAE>., A.uanouvoP1ava.i µE00001· [µt000o1 tou i\ua.ito6vrocp] .
mapping method, &iKov1crµ1Ki] µS-0oooi;;· [µt000oc; Eiicovtcrµou].
mathematical method, µa.0T)µanKi} ~1E0oooi;;.
matrix method, µqtp&taKi] µt0oooi;;. matrix methods for the solution of
linear differential systems (of equations), µT)tpi:ta.Kai µt0ooot tmMcri:roi;; i:ii'lv ypa.µµticii'lv 01a.<pop11cii'lv crucrtT)µ6.i:ow (&!;tcrtllcr&rov).
matrizant method, µT)tpEtronKi] µt-0oorn;.
matrizant method for integrating differential systems, µiii:p&tOlttKi] µt';-0oooi;; 6A.o!CAT)ptllcr&roi;; ota.cpopuc&v crucrtqµ6.i:rov.
Milne's method, µ1A.v1a.vi) µ1;0oooi;;· [µt0ooor; tou MiA.v].
method
Mohr's method, µoxp1avi} µ1;0oooi;;· [µt0oooi;; wu M6p].
moment-area method, µt0oooi;; poitiii;;-tµPaoou.
moment distribution method, µt-0oooi;; ica.ta.voµi)i;; tfii;; poiti)c;.
Monte Carlo method, µovtEKapA.tici] µt0oorn;'{ µt0oooi;; M6vi:s K6.pA.o] .
Newton's method of approximation, µt0oooc; itpocri;yy1crµou wu NE6-i:rovoc;.
nonlinear method, µi} ypaµµtKTJ µt -0oooc;.
over-relaxation methods, uiti:pxaA.apron Ka.i µt00001.
partitioning methods (fo~ s.olving linear equations), µEptcrnKat ~tE0ooot [ µt00001 µsp1crµou] (01' t m/,(Jcrw; ypaµµ1K<'i'>V t!;tO'WO'EOlV).
PoincarC's perturbation method, µt0oooc; t&v naptA.!;scov toi:i Iloua.vKapt.
point-by-point method, crqµ&LOO'T)µEICLKTJ µt0oooc; .
polygonal method, 1tOAUYOJVtCLia. ~LE-0oooc;.
polynomial method, noA.urovuµ1Ki] µt0oooc; .
probabilistic method, m0avottKTJ µt0oooc;.
projective method, npopoA.tKTJ µt-0oooc;.
prospective method (for computing reserves), AEIJ>. MAE>., itpo~cr~onqtlKTJ µt0oooc; (unoA.oy1crµou i:ou a.cr<pa:A.1crt1Koii U1t00f:µat0c;) .
Rayleigh-Ritz method, µ1;0oooc; PaiuA.11-Pitc;.
Rayleigh's (potential) energy method, µt0oooc; (ouv11i:1Kfii;;) tvi:py&ia.; t0ii PaiUA. TJ .
Rayleigh-Timoshenko method, µt';-0oooi;; PaiUA.TJ-TtµocrtvKo.
relaxation methods, xa.A.a.prottKai µt00001· [µt000o1 xaf...aptllcri:roc;].
retrospective method (for ~omputing reserves), AE<l>.MAE>., ava.crKo: itTJtLKTJ µS0oooi;; (uitoA.oy1crµoii wu acr<paA.tcrttKOU aito0tµa.toi;;) .
Ritz method, pti:maviJ µ1;0oooi;;· [ µt-0oooi;; toii Pi ti; J.
method for solving
Runge-Kutta method, µt0ooor; (t&v) PoiivyK&-Ko6na.
scientific method, tmcrtT)µovtici) µS-0oooc;.
simplex method, µovoitA.&yµa.ttKft µt0oooc; (tmf...6crsroc; itpoPA.i1µator; ypaµµtKoii itpoypaµµ1crµoii).
slope-deflection method, µt';Gooor; VEUO"&OX,-UltOKUµljl&Ol\;.
statical method, crta.nKi] µt0oooc;. statistical method, cri:a.ttcrttKi) µS-
0oooc;. step-by-step method, P1wa.i:1cri:1ici)
~11;0oooc;.
Sturm's method, crtoupµtavi) µt -0oooi;;· [ µt0oooc; toii r.to6pµ).
Sylvester's (dialytic) method, cruA.pi;cri:pta.vi] (ota.A.unKi]) µt0oooc;· [(oia.A.ut1Ki]) µ1;0oooc; toii r.uA.Pt';cri:&p}.
synthetic method, cruv0&nKi) µ1;0oooc;.
tabular method (of calculation), m va.Ko0&tt KTJ [ m vaKro'ti]} µ1;0oooi;; ( uitoA.oytO"~lOOV ).
tedious method, KomrooT}c; {titiitovor,} µE0oooc;.
transform [transformation] met~od µ&i:a.crx11µa.ncri:1Ki] µt0oooc;· [ µs-0oBoc; to\) µ&i:a.crx11µa.i:1crµoii}.
trial-and-error method, µ1;0ooor; i:fic; ooKtµfjc; Kai nf...6.vqr, .
method for computing interest, µt· 0000<; u7toA.oyicrµou tou t6Kou.
method for solving differential equations, µt0ooo<; tmA.ucri::ro<; (t&V) ota<poptKffiV El;tcrci>crEWV.
Picard's method for solving dirferential equations, mKa.pota"._ti _µi:-0oooc; tmf...6crEOl<; t&V OlO.!pOpllCOOV t~lO"IDO'EOlV.
Runge-Kutta method for solving differential equations, µS0oooc; PoiivyKe-Ko6na 01' tmMcri:tc; 01a.cpoprK&v ti; tcrtllcr&rov.
method for solving linear equations, µt0ooo<; tmA.ucri::ro<; (t&v) ypaµµ uc&v ti; tcrci>cri::rov.
655
method for numerical determination
method for the numerical determination of conformal maps, µt-0oooc; apt9µncou npocrotoptcrµou 'to>V (enmt&ov) auµµ6p<prov etKpvtcrµrov.
method of agreement, µE0oooc; ('tfjc;) auµ<proviac;.
joint method for agreement and difference, KOl vii µ&9oooi;; croµq>roviai;; Kai omq>opai;;· [eµµecroi;; µ&900oi;; 01aq>0piii;;].
method of analysis, µt9oooc; ('tfjc;) avaA.lJcreroc;· { UVUAU'tlKfJ µs9oooc;j.
statical method of analysis, crtatuci'J µt0oooi;; civaA.ucr&roi;;.
method of application of areas, µs9oooc; 'tfjt; e<papµoyfjc; 'tWV eµpaorov.
method of approximation, µt9oooc; 'tfjc; npocreyytcrm'.Jcreroc;· [ µt9oooc; 'tcOV 1tpocreyytcrµrov· { 1tpocr&'Y"ftO"µtKfJ µt9oooc;].
Siacci method of approximation, crtUKKlUViJ 7tP0<1E"f'Y1<1µ1KiJ µt0oooi;;· [µt0oooi;; npocr&yyicrµo\l to\l r.1arn1].
method of attributes, µt0oooc; 'trov (x;apaK'tT)ptcrnK.rov) yvropicrµa'trov.
method of average errors, µt9oooc; 'tOU µecrou opou cr<paJ...µu't©V.
method of calculation, µE9oooc; u7toJ...oytcrµou· [unoJ...oyicrnKi) µt0oooc;].
semigraphic method of calculation ilµiypaq>tKiJ 07to1'oy1crt1Ki'J µ&9oooi;;. '
step-by-step method of calculation l311µancrnKiJ 1'.Jno/...oy1crnKiJ µt000oi;;.'
tabular m.ethod of calculation, mvaKoypaq>tKTJ [mvaKrotiJ] ono/...oy1-crnKi} µ&0oooi;;.
method of characteristics, µt9oooc;
656
method of elimination
'tWV XUPUK'tT)ptO"'ttKcOV (cr'tOtX&irov).
method of comparison, µt9oooc; 'tfjc; avnnapapoJ...fjc;.
method. of complementary syst~ms, µt9oooc; Trov cruµnJ...T)proµanK.rov OUO"'tT}µU't©V.
method of concoinitant variations, AOr., µt0oooc; 'trov cruµnapoµapwucrrov µe'ta}J .. ayrov· [ µt-0oooc; 'trov napoµapwucrrov µe'tapoJ...rov ].
method of conjugate gradients, µt-0oooc; 'tWV crusurrov KAt'tcOV.
method of constant stimuli, 'PYXO<l>., µt0oooc; -rrov cr-ra9eprov epe9tcrµrov.
method of continuity, µt9oooc; -rfjc; cruvexeiac;.
method of determinants, µt9oooc; -rrov opisoucrrov.
method of difference, AOr., µt-0oooc; -rfjc; ota<popiic;.
indirect method of difference, eµµ&croi; µ&0oorn; 01aq>opii<;.
method of differences, MAE>., µe-0oooc; 'tIDV ota<poprov.
method of differential corrections, µt0oooc; 'tIDV ota<poptKIDV otop-0rocrerov.
method of differentiation, µt9oooc; ota<popicreroc;.
method of divisors, µe9oooc; -rrov otatpe-rrov.
method of dynamic distributions µe9oooc; 'tIDV ouvaµtKcOV KU'ta~ voµrov.
method of elimination, µt9oooc; -rfjc; anaJ...ot<pfjc;.
method of elimination
method of elimination by substitution, µt9oooc; 'tilt; ot' unoK.amcr-rucreffic; anuA.ot<pilc;.
method of estimation, µt9oooc; i:Kn µii creroc;.
minimax method of estimation, t/...ax1moµeyicrtTJ µt0oooi; &Kt1µi]cri;ro i;;.
method of exclusion, AOI'., µt -0oooc; wu anoKA.etcrµou.
method of exhaustion, rEQM., µt-9oooc; -rile; anocr~foeroc;· [e~uv'tAT}nKi) µt0oooc;J.
method of extensive abstraction, µt9oooc; (-rile;) ElC'tU'ttKfjc; a<patpecriuc;.
Whitehead's method of extensive abstraction, µ€0000<; EK'tU'tlKfl<; aq>mpecria<; to\l Xouat'tXEV't.
method of false position, µt9oooc; -rfjc; crcpaJ...epac; 9foeroc;.
method of fluxions, µt9oooc; -rrov OtUq>Op&'ttlCO'tij'tffiV.
inverse method of fluxions, 0.vticrtpoq>oi;; oiaq>op&nKonKiJ ~1&0oooi; · [avtimpoq>oi; µ&0oorn; (to>V) omq>op&nKotfitrov].
method of geometric exhaustion, µt9oooc; -rfjc; yeroµe-rptKf\c; anocr~tcreroc;· [ µt0oooc; -rfjc; yeroµe-rptKfjc; l;~uv-rJ...i]creroc; · l;~uv-rJ...T}nKi) µt0oooc;J.
method of graphic statics, µt 9oooc; -rfjc; ypa<ptKfjc; crmnKfjc;· [ypa<pocr-ranKil µt0oooc;J .
method of increments, µt0oooc; -rrov au~T}µu-rrov.
method of indivisibles, µt9oooc; 'tIDV aotatpE'tffiV.
'. Cavalieri's method of indivisibles, µf;0oooi; 'tOJV uounp&trov to\l Kal3aA.1f;p1.
method <JI matrix iteration
method of infinite descent, µt0ooo<; -rfj<; aneipou KamPucreroc;.
method of infinitesimals, µt0ooo<; -rrov anetpocr-rrov.
method of integration, µt9ooo<; 6J...0KJ...11pfficrero<;.
Newark's method of integration, vwapK1avf} µt0oorn; 6A.oKf...TJprocr&ro<;.
method of interpolation, µt0ooo<; napeµpoJ... fj<; .
Aitken's method of interpolation, ultKEVlUViJ µt0oooi;; 7tClpeµl30Mic;· [µ&· 9000<; nap&µl3oA.f'\<; w\l A'iT]tKEV].
method of isoperimeters, µt0ooo<; -rrov icroneptµs-rpffiv.
method of iteration, µt0oooc; wu avmtpocreyytcrµou· [ avanpocrerytcrµtKil µt0oooc;J.
method of joints, MHXT., µt0oooc; -rrov Koµprov.
method of just noticeable differences, 'PYXO<l>., µt0oooc; -r&v µ6/..tc; aicr0T]-rffiv ota<pop&v. (lYN.: method of minimal dif. ferences).
method of least squares, µt0ooo~ -r&v {;J...uxicr-rrov n:-rpuyrovrov.
method of least work, µt0ooo<; wu f)crcrovoc; epyou.
method of limit design, MHXT., µs0oooi; (-rfj<;) optaKfj<; O"XBOtOJ..oyiJ creroc;.
method of limits, µt0ooo<; -rrov 6-pirov.
method of linear perturbations, µt-0oooc; -rrov ypuµµtKrov naptJ...~effiv.
method of matrix iteration, µt0ooo<; µT)'tpBtUlCOU avanpocreyytcrµou·
657
method of maximum likelihood
[ µt0oooc; tfj<; µT)tpetmcfj<; uvartpocri>yytcrteU(Je(J)<;].
method of maximum likelihood, :ETAT., µt0oooc; ti'\<; µi>yicrtTJ<; m0avo<pavdac;.
method of mean coefficients, µt-0000<; t&v µtcrrov cruvti>A.i>crt&v.
method of minimal differences, µt-0000<; t&v &A.axicrto'ttlcrov ota<pop&v· [ µE0oooc; Trov µ6A.t<; al.cr011Trov 01a<pop&v ).
method of minimal limits, \J'YXO<l>., µt0oooc; t&v V..ax1crtottJc&v 6-ptrov.
method of moment balancing, µt-0oooc; tfj<; icrocrta0µicri>ro<; twv ponwv.
method of moment distribution, µt0oooc; (tfj<;) lCU'!UVoµfj<; '!WV pon&v.
method of moments, µt0oooc; '!WV pon&v.
method of multipliers, µt0oooc; '!WV noA.A.anA.acrtacrt&v.
Lagrange's method of multipliers, A.aypav~tavi) µt0oooc; 't&v noUarrA.acna:cr't&v· [ µt0oooc; 't&v A.a:ypa:v~ta:v&v rroA.A.arrA.a:crtacr't&v].
method of numerical analysis, µt-0000<; tfj<; Upt0µtKfj<; UVUfvU(Jeroc;· { apt0µtKTl avaA.UttlC1l ~LE-0oooc;).
method of operations research, µt0o&oc; tfj<; &n1xi>1p11cnaKfj<; £.pi>uv11c;· [ µt0oooc; ( tfi<;) tmxi>1-pTJcrtaKfj<; UVUfvUcrero<;).
method of orbit computation, µt-0o&oc; unoA.oytcrµou tfj<; tpoxiac;.
Cowell method of orbit computa-
658
method of scientific induction
tion, Koui:A.A.tavi! µt0oooc; onoA.oy1-crµou 'tfic; 'tpoxiui;· [ µt0oooc; onoA.oy1-crµou 'tfic; 'tpoxiiii; Ka'ta Kaou&A.j.
method of partial fractions, µt0o&oc; '!WV TµT)µanK&V lCA.acrµ<it(J)V.
method of power series (expansion), µt0oooc; (avantu~i>ro<;) tfj<; &uvaµucfjc; cri>tpiic;.
method of projection, µt0oooc; npof3oA.fjc;.
method of proof, µt0o&oc; ano&d~eroc;.
analytic method of proof, UVO:AU'tlKi) µt0oorn; urrooEi~Eroc;.
deductive method of proof, rrapayroy1Kl) µt0oooc; urrooEi~Eroc;.
inductive method of proof, lmayroy1Ki) µt0oooc; U1tOOEL~&(J)c;.
synthetic method of proof, cruv-0mKl) µEeoooc; arrooEi~Eroc;.
method of quadratures, µt0oooc; twv ti>'!payrovtcrµwv.
method of reciprocal polars, µt-0o&oc; tWV avncrtp6<prov 1t0fvt-1CWV.
method of relaxation, µt0o&oc; (ti'\<;) xat..aprocri>ro<;. [ x aA.aprott lCTJ µt-0o&ocJ
method of repeated trials, µt0o&oc; twv £.navaA.11n'!tKWV &oKtµacrtwv.
method of residues, MA0., µt0o&oc; '!WV KataA.oinrov.
Cauchy's method of residues, KIDcrEiavl) µt0oooc; 't&v KamA.oirrrov· [ µt0oooc; ('t&v) KamA.oinrov wii Krocru ].
method of scientific induction, µt-0o&oc; tfj<; &mcrtT)µovtKfj<; £.nayroyfjc;.
method of sections
method of sections, MHXT., µt -0000<; twv toµwv.
method of small perturbations, µt-0o&o<; t&v µtKp&v napz/,~i>(J)V. (EYN.: perturbation method).
method of solving equations, µteo&oc; l;rttfvU(Je(J)<; B~ t(JcO(Je(J)V.
Choleski method of solving equations, xoA.rnKtaviJ µt0oooc; tmMcrEro:; t~icroocr&rov· hit0oooc; tmMcr&roi; t~tcroocrEroc; 'tOU T croA.tcrKt J.
method of statics, µt0o&o<; Tfj<; crtanKfjc;· [ crtcmici) µt0ooo;].
method of steep descent, µt0ooo<; tfj<; anot6µou Kataf3acrE(J)<;.
method of steepest descent, µs0oooc; tfj<; artotoµrotatT}<; rntaf}acri>(J)<;.
method of substitutions, µt0oooc; t&v unoKatacrtacri>rov.
method of successive approximations, µt0o&o; '!&V &1a&ox1K<i'>v npocri>yytcrµci'>v.
method of successive conjugates, µt0ooo<; '!ci'>V &taOOXtK&V crusuy&v (otc1 cruµµopcpov µi>rncrx11-µancrµov crx,i>oov K6KA.ou de; ic6KA.ov).
method of successive convergence, µEao&o; tfj<; &1aoox,1Kfj<; cruyKA. icri>ro;.
method of summation, µt0ooo; a0poicri>ro;· [ a0potcr'tt1CTJ µt0oooc;).
Abel's [Euler's] method of summation, ul3EA.tavi) {EuA.T]ptavl)} u0potcrnKi) µt0oooc;.
method of tension coefficients, µt-0o&o<; t&v {;cpi>A.KucrttlCG>V cruvti>A.i>crt&v· [ µt0ooo<; t&v cruvt&A.i>cr'!&V tcpi>A.Kucrµou ).
metric
method of string polygon, µt0o&oc; tOU crxoivonoA.uyrovou.
Mohr's method of the string polygon, µoxpiavl) µt0oooc; wu crxoivorroA.uyoovou· [µe0oooc; wii crxoivorro/.uyoovou 'tou Mop].
method of transformation, µt0ooo<; µi>rncrx11µancrµou· [ µi>tacrx,11µancrrnci) µ{;0o&o;).
method of trial and error, µt0ooo<; (ni;) OOKtµfj<; icai nMv11;.
method of truth tables, :EYMB. AOr., µt0o&o; t&v aA.1100A.oy1Kwv 7ttVU1C(J)V.
method of undetermined coefficients, µt0o&o; t&v aKa0opicrtrov { µ{;0000<; '!WV anpocr&iop icr'!(J)V] cruvrnA.i>crt&v.
method of virtual displacements, MHXT., µteo&o; t&v ouv11t&v µi>tctlCt vi} (J!>(J)V.
method of working backwards, µt-0o&oc; tfj<; 01ttcr0oxropT)tt1Cfj<; a .. vaMcri>ro;· [ omcreox(J)pTJttKlJ avaA.uttKTJ µt0oooc;).
methology, µi>0oA.oyia.
methods engineering, µi>0o&oA.oytici} µT)X,CJ.VO'!eX,Vtct.
methods of sampling from specified distributions, µt0o&ot &i>tyµatoA.TJ\j/ia; {;ic npoKa0roptcrµtvrov Katavoµ&v.
methods of solving linear systems, µt0o&ot &ntlcUcri>ro<; ypaµµtic&v crucrtriµ<iTrov.
Metonic cycle, µi>trovtKo<; K61CA.oc;· { µi>troVtlCO<; evtau'!6<;).
metre, = meter.
metric, µi>tptK6<;;i],ov ( = a, tfj<; µ&tpl)cri>coc;· p, &i>KctOtK6<;,1),6v).
659
metric
metric, 1, µstptici) µovac;. 2, MAE>., µt:tptKi) ( = µttpov 7tpOO"OlOplcrµou).
Bergman metric, pepyµav1av11 µei:ptKi] i:ou Mm~pytcµuv }.
Hermitian metric, tpµmavi] µetptKi]" [µetptKi] i:ou 'Epµii:}.
Kahler metric, Km;c),epuxvi] µetptKi]· [µetptKi] i:ou KaO.epj.
Lorentzian metric, A.opevi:cnavi] µei:ptKi]· [µttpttci] 'tOU A6pevtr:,}.
Riemannian metric, ptµavvmvi] µ &i:ptKiJ" {µetp1Ki] wu Piµav } .
metric aggregate, µt:tptKOV cruva-0potcrµa: [ µt:tplKOV O"UVOAOV].
metric density, µstptici) 7tUKV6tT)c;.
metric differential geometry, µEtptic1) ota<poptici) yscoµstpia .
metric geometry, µi;tptic1) yscoµi;-rpia.
metric measurement, OEKaon.:i) (µE-rptici)) KUtaµttpTJcrlc;.
metric photography, µstptic1) q>cowypaq>tici].
metric properties of curves, µstptKUi tC>t6'tTJtEc; t&V KU~L7tUACOV.
metric property, µstptici) iot6tT)c;.
metric space, MAE>., µt:tpticoc; x&poc;. (LYN.: point set).
&-covering of a metric space M, t-KaA.uµµa {f.ljltA.ov KaA.uµµa} tvor:, µ&i:pt!COU xropou M.
metric system, MAE>., µstpticov cr6-crtT)µa.
metric system of measurements ' ' crucrtri µa. oeKUOtKi)c; KUtaµs-
tpftcrscoc;.
metric tensor, µstptKOV tavucrµa. fundamental metric tensor, 0tµ&
A.tli'.>8&r:, µei:pucov i:avucrµa.
660
microcode
metric unit, OEKUOtKi) µt:tptKi) µoµac;.
metric wave, µEtptKOV Kliµa.
metrical, µstptK6c;J1,6v· [ µt:tpT)tt· ic6c;,Tj,6v }.
metrical field, µstpticov 7tt:oiov.
metrical point set, µt:tptici) crT)µEtocrt:tpa.
interior point of a metrical point set, tcrroi:&pL KOV cn"}µ&lOV µ&tptlcf\c; crriµtwcre1par:,.
metricize, µEtplKEUCO ( = µEtU'tp&-7tCO de; to St:icaC>tKOV cr6crt11µa).
metrics, µstpqnici].
metrizable, ~LE-rpi]crt~wc; , oc;,ov· [ µi;tptico0snK6c;, i],6v].
metrizable space, µt:tpi]crtµoc; [ µi;-tptico0t:nKoc;J x&poc;.
metrization, MAE>., µs-rpiKwcrtc;.
metrology, µt:tpoA.oy[a. .
Meu.sni~r (Jean-Baptiste Marie -), ( Icouvvric; Ba7tncrti)c; Mupi) M&VLE ( = yaUoc; f:7ttcrti]µcov· 1754 -1793).
Meusnier' s theorem, µscrvtt:ptuvov 0sffipriµa· {0t:ffipriµu -rou Msvit ] .
mho, HAEK., µffiµiov· [ µro} (=ft uv-ricr-rpoq>oc; 'tOU roµ).
Michelson (Albert Abraham -), ('AA.Btptoc; 'ABpaaµ) MiKEAO"OV ( = aµt:plKUVOc; <j>UO"tK6c;· 1852 -1931).
Michelson-Morley experiment, 7tdpa.µa MiicsA.crov-M6pA.rr [µiKt:A.croviavov 7tt:ipa.µa ].
microbar, <l>YL., µtKpoBapic;.
microcode, AOrILM., µtKpo1C&ot~.
microfilm
microfilm, µtKpota.t via· [ µtKpoq>cotota.iviu· µncpocpiA.µ].
microfilm card, AOrILM., µtKpo'tat VlUKOV ()i;'). 'tUplOV.
microinstruction, AOrJLM., µtK:poi;vtoA.i].
micron, <l>YL., µtKp6v· [ µtKpovwv ( = :XlAlOO"'tOV 'tOU XlAlOcrto~LS'tpou ).
micron of mercury, uopapyuptKOV µticp6v· { µticp6VlOV 'tOU uopapyupou j.
microprogram, AOrJLM., µtKpo-7tp6ypa~1µu.
microprogramming, AOrJLM., ~LlxpJ7tpoypuµµicrµ6c;.
micropulsation, µ1K:po7talvµcocrtc;. magnetic micropulsations, µuyvri
uKai µ11cpoitaA.µrocr&1r:,.
microsecond, µtKpOOEU'tEj)OAE7t'tOV.
microstate, MHXT., µtKpoKa.tacrmcrtc;.
microtorr, µ1K:pot6pptov ( = ~wvac; mtcrscoc;).
microtremor, 1:EI1:M., ~nKpo<>Ovria-ic;- [ µticpocrt:tcrµ6c;}.
microtremor recorder, µticpocrt:tcrµticoc; Kataypacpsl>c;.
microwave, <l>YL., µtKpOKU~LU" [µtKpov icuµa.}.
microwave radiation, µticpoicuµanici) UKtivoBolvia.
microwave turbulence, µticpoicuµanicoc; tupBa.crµ6c;.
midcourse guidance, L\IA1:T., 6osunici] [ 7topwnic1\} 6S1nscria ( = 6S11yscria 7tUpu6/vou a7to tfic; EK· KtVfjcrt:coc; µsxptc; U00atpE'tOU CTT]-
midpoint of a line
µEiou -r67tou i'( XP6vou). (l:YN.: incourse guidance).
middle, µscratoc;,a ,ov"[µtcroc;,T),OV ].
middle, AOr., ~1tcroc; {tpi'toc;] opoc;.
fallacy of the ambiguous middle, AOr., (to) cr6cp1crµa i;o() aµcp1P6A.ou µtcrou.
law of the excluded middle, v6µo~ i;o() aito!CA.ttoµt vou i:pii:ou.
middle axioms, AOr., µtcru a~uhµatu. (LYN.: axiomata media).
middle latitude sailing, NA YT., 7ttvt:ucrtc; µtcrou 7ttvatouc;.
middle span, MHXT., µscraiov otavoiyµa.
center of the middle span, MHXT., Ktvi:pov i:ol) µ&craiou 8tavoiyµai:or:,.
middle term, AOr., µtcroc; opo~· {tphoc; opoc;].
mid-length, µtcrov [ µscraiov cr11-~1siov] -rou µi]icouc;· [ µscroµflicoc;].
mid-line, MAE>., otaµfo11· {otaµt:croc; ypaµµi]}.
mid-line of a trapezoid, otaµscrT) [Siaµscroc; ypuµµi]} -rou -rpu-7td~iou.
mi d-perpen die ular, µscroica0swc; · [8ixot6µoc; Ka0stoc;}.
midpoint, µscrocrriµEiov· [ µscratov miµstov· Staµscrov crriµstov· µtcrov}.
midpoint deflections of beams, MHXT., a7toKaµ\jlt:tc; t&v Soic&v Kata to µrnaiov aotrov crriµdov· [8iaµscrot a7toicaµ\jlt:tc; -r&v SoKrov].
midpoint of a line, µrnocrriµEiov [ µrnaiov cr1iµsiov J ypaµµfic;.
661
midpoint of a line segment
midpoint of a line segment, µEcrocn1-~1Eiov [ µscrov crYJµi;iov] di9orpaµµoo -rµijµuwc;· { µscrov wu EMoyp<iµµoo -rµijµuwc;].
midsection, µEcronEptoxiJ · [ µfoT] 1tEptoxiJ· µfoov (ti\c;) 1tEPtoXi\c;].
full plastification at the midsection, MHXT., nA.i]pn~ nA.a:crtiKW<Jl~ KO:'tU -ro µtcrov -rfi~ m;p10xfi~.
midspan, MHXT., µEcro8t<ivotyµu· { µfoov wu otavoiyµawc;j.
deflection of the beam at midspan 6.n6KO:µ\!ft~ -rfi~ ooKou Ka:-ru -re'> µtcro~ wu oia:voiyµa:w~.
displacement at midspan, µ&Ta:Kiv1icr1~ Ka:tu -ro µi:croo16.vo1yµa:· [µi:mKivrim~ Ka:tu to µtcrov wu 01a:voiyµa:w~].
midvalue, LTAT., µEcronµij· [µEcronKT] nµij· µEcrafo nµij].
midvalue of a class interval, LTAT., ~tEcronµ1) "COU KAUcrtKOU otucr-rijµu-roc;.
Mie (Gustav -), (roocrmuoc;) Mi~ [Mi\] (=yEpµuvoc; cpocrtK6c;· 1868 - 1957).
Mie scattering, µrniuvoc; crKEoucrµ6c;· [ crKEoacrµoc; wu MiTJ].
Mie theory (of the scattering of electromagnetic radiation), µrntuvi] 9Eropiu [9Empiu wu MiTJ] (nEpi wu crKEoacrµou -rf\c; fiA.EK-rpoµuyvT)nKi'jc; aKnvo~oA.iac;).
mil, µtA.tocrt6v· [ µi/t..] ( = a, x;tA.tocr-rov -rf\c; 1v-rcruc;· ~. 1/60006v "COU KUKAOO me; µovuc; yrovtffi8ooc; µEt pij crEroc;).
mile, µiA.tov· [ µiA.t].
662
geographical mile, y&coypa:q>tKOV µi-1..tov.
nautical mile, va:unKOV µiA.tov. statute mile, v6µ1µov (6.yyl..tKov)
µiA.10v· [ µiA.10v !;11pa~j.
millimicron
mileage, µtA.toopoµT] ( = a, un6cr-rucnc; Etc; µi/t..ta• j3, OtaopoµTj di; µiA.tu).
military engineer, crtpanontKoc; µT]x;uvo-rsx;vT)c;.
military engineering, cr-rpunconK1} µT]x;uvo-rEx;viu.
military games, MAE>., crtpanmnKU [noA.EµtKaj naiyvia.
military procurement, cr-rpunconKoc; 1t0ptcrµoc; ( = UVE<pOOtUcrµoi; de; 1tpOµTj9Eiac;, S<pOOtu, 1tpOO'C0-1tlKOV, ft U7tTJpEcriuc;).
military time, crtpunconKT] &pa. ( = x;p6voc; µEtpouµEvoc; U1t0 µEO'OVOKtioo Elt; µEO'OVUK'ttOV, m<; 0001 ~tsx;pt 2400 &puc;).
military weapon, 1tOAEµtKOV 07tAOV. explosion of military weapon, EK
PTJl;t~ noA.&µLKOU onA.ou.
milliampere, x;tA.tocr-ruµnspiov· [ µtA.A.tuµnsp j.
milliangstrom, x;tA.tocr-ruvyKcrtp6µtov· [ µtA.A.tuvyKcr-rp6µ].
milliard, otcrEKU"CO~t~t6ptov.
millibar, x;tA.tocrwj3apic;· [ µtA.A.tµnlip ].
milliequivalent, <!>TI., XHM., x;tA.tocrw i'.croo6vaµov.
milligal, x;iA.tocrwyliA.tov· [ µtA.At-yK<iA. j.
milligram, xiA.tocr-r6ypaµµov.
milliliter, x;1A.tocrt6A.t-rpov.
millimeter, x;tA.tocr-r6µE-rpov.
millimetric wave, x;tA.tocr-r6µEtpov { XlAtoO'"COµEtptKOV j KUµa.
millimicron, x;tA.tocrwµtKp6v· [ µtA.A.tµtKp6v j.
milimicros econd
millimicrosecond, ow-rEp6A.Emov· AE7t"COV 1.
XLAtoO'"COµtKpO{ VUVOOEtltEp6-
millimole, <!>TI., XHM., x;tA.tocr"C0-µ6/t..tov· [ x;tA.tocrwµopt6ypa.~t-µ6v}.
million, ~Kawµ~tuptov.
millipoise, x;tA.tocrwj3liptov.
millisecond, xiA.tocrtoow-rep6/.e-nwv· [ µ1A.A.tow-rep6A.emov ].
millitorr, x;tA.tocrwt6pptov· [ µtA.A.t-r6p j.
millivolt, XtA.tocrw~6A.-rtov· { µtA.A.t~6A.t}.
Milne (Edward Arthur -), ('Eooo<ipooc; 'Ap9oupoc;) Milv ( = j3pe-ravoc; µa9TjµUttKOc; KCJ.i UCl'tpO<ptlcrtKOc;' 1896 - 1950).
Milne (William Edmund-), (rooif. .. -A.taµ 'Eoµ6v5oc;) MiA.v ( =cruyxpovoc; aµeptKUVOt; µa0T]µUttKOc; Kai acrtpocpocrtK6c;).
Milne's method, µtA.viuvi] µ69oooc;· [ µ69oooc; wu Mi/t..v ].
mind, vouc;.
miniature of an instrument, µtKpotEXVTJµU {µtKpo6pYT]µUj opyaVOO' [ µtKp6pyuvov ].
miniaturization (of an instrument), µtKf)OtEXVTJO'lt; [ µtKpo6py11µa 1 (opylivoo) (= KUtUO'KEOTJ µt-1Cp0 py<ivoo ).
miniaturize, µtKpo-rex;vro (opyuvov) ( = KU'tUO'l(EOUsCO µtKpocrxTJµOV opyaVOV' KU'tUO'KEOUSCO µtKj)OOp"(T]µEVU opyava.).
minima of functions of integrals, tA.axicr-ra -rrov crovup-rficrEcov -r&v 61..o<l 11 pcoµ<i-rcov.
minimax ·
minimal, tA.uxtcrrnrnc6c;, 11,ov ( = -rf\c; tA.ux;icr-rric; -rtµf\c;).
minimal curve, tA.axicrrnnKT] [eA.ayJ.crtTJ] Kaµnu). 11.
minimal difference, 'l'YXO<I>., tA.uxicrwnKT] {eJ..a.x;iatTJ} otacpopa.
method of minimal differences, µ{;0000~ -r&v i:A.a:xim:cov otacpop&v· { µt000o~ -r&v µ6/ .. 1~ aicr0T]'tii>V ota:q>op&v j.
minimal limit, &A.axmronKov [sA.ax;imov 1 optov.
method of minimal limits, 'PYXO<I>., µt0ooo~ -r&v i:A.axicrtcov 6picov.
minimal principle, sA.a.x;tcrwnKT] ap· x;fr { apx;i] WU tA.axicrwo}.
restatement of the minimal principle, MA0., uvaotatuncocrt~ -rfis i:A.a:x1crwt1Kfj~ upxfi~.
second minimal principle, oim-rtpa i\/,O.Xl<J'tO'tlKi) apxfi· { µ&'tO:A.A.ClK'tLKi)
apxi)J. (LYN.: variational principle).
minimal principles of structural theory, MHXT., v .a.xtcrtonKUt apx;ai tf\t; oOµT]ttKf\t; 0ECOptU<;" { apxai 7tEpi SAUX,LO'TOO tfjc; 9Ecopiuc; t&v cpopscov].
minimal straight line, sA.a.x;tcrwnKT] [sl,ax;icrn1] di9si'.a ..
minimal surface, EA.a.x,icrwnKT] [sA.a.xicrtTJ] l:mcplivsm· [sA.ax;icrwemcpa vEta].
adjoint minimal surface, tmcruvami) tA.a:x1crw&mq>avsia.
associate minimal surface, cruva:q>i]i; tt..axicrwcmcp6.vi:ia:.
double minimal surface, otnA.f\ tA.ax mwsmcp6. VEta:.
one-sided minimal surface, µov6-nA.wpo~ &Aax1crw&mcp6.v&ta:.
minimax, l:A.a.x;tcrwµsyicrwv· [sA.ax;icrwµEyicrtTJ nµij· eA.axicrrnv
663
minimax method
-r&v µsyicnffiv· EJi.axicr111 -r&v µsyicr-rrov}. (LYN.: min-max).
to have a minimax at, napoucriru;ro eA.axtcr1:0µtytcrrov et.;.
minimax method of estimation, f).ax1crwµsyim11 µ80oooi; EKnµ~crsroi; .
minimax solution, EAax1crwµsyicrn1 l:niJi.ucrii;.
minimax theorem, €Ji.ux1crw~1sy1-mov 0srop11µa.
minimization, i\A.axicr-rwcrii;.
minimization of the buckling load, MHXT., l:A.axicr-ri:ucrti; 'tOU AUytcr'ttKOU cpop-riou.
minimization of the total potential, HAEK., l:Ji.axicr1wcr1i; wu 6A.1-Kou ouv11nKou· [l:Ji.axicrr:wcrii; 'tOU OALKOU OuvaµtKOU).
minimize, €A.a.x1crr:s6ro.
minimizing arc, i\A.axicrr:suov r:6-l;ov.
minimizing equation, l:A.axtcrr:suoucra l:l;icrrocrti;.
minimizing player, D .. ax1crr:s6rov 1tCltKT11i;.
minimum, l:A.axtcrwv. absolute minimum, an6A.u1:0v eA.a
Xtcri:ov. condition for a minimum, cruv9iJKTJ
nepi eA.axicr1:0u. local minimum, i:omK6v el.axtcrrnv. maximum minimorum, = maximin. nonnegative minimum, µTi apVf!'t:t-
Kov eA.axtcrrnv. nonpositive minimum, µij 9enK6v
€1..axwrnv. Paschen minimum, nacrxevtav6v €
A.ax1cri:ov· [f.A.axtcrrnv 1:0D flacrev]. pri,nciple of the minimum, apxTi 1:0D
i:A.axtcrrnu. .
664
minimum latency code
relative maxima and minima problems, crxenKa µeytcri:a Kai eA.axtcna npof3/.ijµai:a · jnpof3A.i]µai:a crxei:tK<Ov µeyicri:rov Kai €1.ax icri:rov].
relative minimum, crxei:tK6v t/.6.x1cri:ov.
row minima, CHtXTJPCt [Kai:a crtixov J el.axtcri:a.
minimum access code, AOI'U:M., ~A.ax1crwj3ar:m'>i; K&Otl;· [K&'Ot'f,, tA.a xicrr:11 i; 1t pocrj3<icrscoi; 1.
minimum access coding, AOI'ILM., EA.ax1crr:oj3ar:lK1'J KCOOtKCOcrii;· [ KroOiKrocrti; €A.axfcrr:11i; npocrj3<icrscoi;].
minimum access programming, AOI'IEM., f:Ji.ax1crwj3anKoi; npoypaµµ1crµ6i;· [ npoypaµµicrµoi; eA.axicrr:11i; npocrj3<icrscoi;].
minimum access routine, AOrILM., f:A.ax1crr:oj3anKi] crupµ~· [ crupµi] €A.axicrr:11i; npocrj3<icrscoi;].
minimum area, EA.ax1crwv f:µj3a06v. surface of minimum area, emq>U
veta i:A.axicr1:0u eµf3aoou . (EYN.: minimal surface).
surface of revolution of minimum area, EK neptcri:pocpfj<;; &mcpaveta (i:ou) el.axicrrnu eµf3aoou· {EK neptcri:pocpfjc; &l.ax1cri:oemcpave1a].
minimum coding time, AOI'ILM., l:Mxicrwi; xpovoi; KCOOtKrocrsroc;.
minimum condition, cruv0~K11 nspi l:A.axicrwu.
necessary minimum condition, cruv-0iJK11 7!epi UVUyKaiou EAUXLO-'t:Ol>.
minimum downward curvature, l:A.axicrr:11 Ka-rcocpi:ptKT] KaµnuA.6-111i;.
minimum equation of a matrix, €A.axicrr:11 €1;,icrrocrti; ~111r:pdou.
minimum latency code, AOI'U:M., KWOtS EAUXfcrr:11i; avnµovfii;·
minil!lum latency programming
[ Kffi'61s €A.axfor:11i; npocrj3ucrsroi;].
m101mum latency programming, AOI'ILM., npoypaµµicrµoi; i:A.axicrt11i; uvnµovfii;· [ npoypaµ~n<rµoi; i:A.axicrt11i; npocrj3<icrsroi;].
minimum latency routine, AOI'ILM, crup~1i] D.axicrr:11i; avnµovfii;.
minimum limit, €/.axtcrr:ov optov.
minimum maximorum, = minimax; [min~max).
minimum of a function, f;Ji.<i;pcnov ( tfli;) cruva.pti1crscoi;.
absolute minimum of a function, arr6A.ui:ov eA.uxtcri:ov (i:fj<;;) cruvapriJcreoo<;;.
relative minimum of a function, crxei:tK6v i:A.axtcrrnv (i:i'\<;;) cruvapi:i1-creoo.;.
m101mum of a function of any number of variables, f;A.axmrnv cruvapr:~crsroi; OtOU0~1tOTE Upt-0~toU µsr:aPA.11t&v.
minimum of a sequence, f;Ji.axtcrrnv aKoA.ou8iac;.
minimum of the column maxima, f:Mx1crwv [f.Ji.ax,icrr:11] -r&v Ka.-ra crt~A.11v µsyicrr:cov . (~YN.: minimax).
minimum of the complementary energy, f;Jvaxicrwv tfli; cruµnA.11-proµanKfii; svspysiai;· [€A.axi.crn1 cruµnA.11 pcoµanKit l;vtpysw}.
minimum of the total potential, EA.axicrrnv r:ou 6.A.1Kou ouv11nKou· [l:A.axicrwv wu 6Ji.1Kou ouva.µ1-Kofi ).
minimum point, f:A.c1.x,1crwv cr11µstov.
Minkowski distance function
minimum principle, €A.axicrr:11 apx~· [apxiJ nspi wu f;Ji.axicrr:ouj.
minimum problem, f;Ji.axtcrwv np6-PA.11.µa.· [np6PA.11µa nspi r:ou €.A.axfcrtou ).
minimum total potential of a system, f;Ji.ax,tcr'tOV OALKOV ouv11r:iKOV Evoi; crucrt~µarni;.
minimum value, MA0., EJi.a.xicrn1 nµ~.
minimum variance, LTAT., !;A.a.xicrr:11 UJ..A.016r:11i;· [eA.axicrr:11 01-ucpop6r:11i;J.
minimum variance estimate, EK'tiµ11crii; r:fli; €.A.axicrt11i; u.A.Ji.016r:11-'t0i;.
minimum variance unbiased estimate, aµsp6A.11nwi; EK'tiµ11mi; tflc; 1mr:' eMxicrwv uA.A.016t11-rni;.
minimum vocabulary (for mathematics), EA.<ix;tcrr:ov anapalr:11wv A.sl;t/..c:yiov (-r&v µa.0riµanK&v) .
mining, µsr:UAAWTLKOi; ,iJ.,6v. gold-mining equation, xpucroµei:aA.·
A.wnK1) B~icroocrt<;.
mining engineer, µsta.A.A.sto.A.6yoi; µ11xavottxv11i;.
m1mng engineering, µsrnA.Ji.s10A.oy1Ki] µ11xavotsxvfo.
Minkowski (Hermann - ), ('Epµuvvoi;) M1vK6cpcrKt ( = Ji.10ouavoi; µa.811µanK6c;· 1864 - 1909).
Minkowski (Rudolph Leo B. -), (Po06.A.cpoi; Asrov B.) MtvK6cpcrKt ( = uµsptKUVOi; acrr:pov6µoi;· y. 1895).
Minkowski distance function, µ1vKocpcrK1avi] cruvc1.pr:11mi; anocrr:acrsroi;.
665
Minkowski space
Minkowski space, µwKo<pcrKtavoi; :xropoi;;· {x&poi;; wt> MtvK6<pcrKt }.
.Minkowski's inequality, µtvKo<pcrKtavij av1cr6nii;;- [ UVtO'O't'lli; 't'OU MtVKO<jlO'KL ].
Minkowski's system of world-ge-. ometry, µtVKO<jlO'KtaVOV lCOcrµo
y&roypa<ptKOV crucri-11µa: { O'Ucr't'll· ~ta Kocrµoy&roypacpiai;; wt> MtvK6<pcrKt}.
Minkowskian, µ1 vKo<pcrKta.v6i;;, ft,6v ( ='t'OU Mt VKO<j>O"Kl).
Minkowskian geometry, µ1vKocpO"KtaVyt y&coµ&i-pia· [ y&coµ&i-pia '!OU MtVKO(j)O"Kt ].
Minkowskian plane, µtvK'.O<pO'Ktavov btin&oov· [snin&oov wu MtvK6<pcrKt}.
min-max, slvax1crwµty1crwv. (tYN. minimax).
(the) max-min = min-max relation, (fi) crxfot<; µi;y1crtoeA.6.x1crtov foo v £1.axicrrnµtyicrwv.
min-max principle, l;!vax1crwµ&y[cri-11 apxiJ.
.min-max principle for variational problems, l;A.axtcnoµgyfoi-11 apx1) [ apxl'] wu slvax1crwµ&yimou] oia i-a µ&rnlvA.aKnKa npo~A.Tjµam.
min-max problem, sA.axicrwµtytO"'!OV np6Plv11µa· [ np6p!v1-iµa sA.axicrwµ&yfowu].
min-max theorem, l;A.axicrwµtyiaTov 0&ropriµa· {0&rop11µa wu slvaxtcr'!oµ&yicri-ou].
minor, sA.&.crcrcov,cov,ov.
minor, sA&.crcrcov (6pi1,;oucra). complementary minor, croµ1tl.T)pco-
666
minuend
µa:tiiciJ &A6.crcrrov· [eA.6.crcrrov 6pi~oucra].
Fredholm minor, <pp&OxoA.µiaviJ &A6.crcrrov· [&A6.crcrrov toii q,pf.vtXoA.µ].
higher Fredholms minors, uvrotepat <ppeoxoA.µiavat eA.6.crcrover;.
signed minor (of an element), npocreO'T)µa:crµtvri tA&.crcrrov (tvor;) crto1xeiou .
minor arc of a circle, eA.acrcrov 't'6-sov KUKAOll.
minor axis of an ellipse, EA.&.crcrcov ascov [ µtKpoi;; ascov J (rfii;;) D .. -"-f>i'l'&coi;;.
semiminor axis of an ellipse, µ1icpor; fiµu'L~rov tfir; tUei1veror;. ·
minor cycle, elvacrcrov KDKA1WU" {l;Aa.crcrcov <pcicrti;;].
minor determinant, l;A,&.crcrcov 6pi-1,;oucra.
minor determinants of linearly equivalent quadratic forms, eA.&.cr<JOVC:i;; 6pi1,;oucrm ypaµµucroi;; icroouv&.µcov ·rnrpayroVtKWV µop<pGw.
minor matrices (of elements of a matrix), sMcrcrova µllTPEfa (Tciiv crwixdcov i:voi;; µ71i-pdou).
minor of an element (in a determinant), sMcrcrcov crwixdou (6p1-1,;oucr11i;;)· [sA&.crcrcov 6pi1,;oucra ).
minor premise, AOr., V .. &.crcrcov np6i-acrti;;.
minor segment of a circle, eA.acrcrov rµfjµu KDKAou.
minor term, AOr., sA&.crcrcov opoi;;.
mint par of exchange, OIK., ~L&ta.AAtKi] icronµiu.
mint ratio, OIK., µ&ra/..!..tKoi; 1..6-yoi; (otµ&ta!..!..tKfji;; p&.cr&coi;;).
minuend, MAE>., (6) µ&tcotfoi;.
minus
minus, µ&iov· [ n!..i]v ). a minus b, a µetov 13· [a- 13].
minus infinity, (ro) nlvijv Cin&tpov· [ upvT)nKov Cin&tpov].
approach minus infinity, tdvro [µetai3aivro] dr; to 7tA.itv t'i7tEtpov· [ 7tA.T)criarro t'O <ipVT]t'llCOV tl1tElpOV" JCU0lcrta~m apVT]tlJCil><; tl1tBlpO<;,O<;,OV} ·
minus sign, (ro) cruµpot..ov n/,i]v· {ro apv11nKoV O'T]µdov· 't'O O"T]µdov rfji;; acpatpfo&coi;;].
minute, µtKp6rnwi;;,11,ov· [V .. ux1-cn6tatoi;;,TJ,OV].
minute, /,&1t't'ov (xp6vou, &pui;; ii µoipui;;).
ampere-minute, aµ7t&p6A,e1ttOV. centesimal minute, SKatocrnaiov
A.i::ittov ( = 1006v tfir; µoipar;). decimal minute, OEJCaoiicov A.ei;tov
( = a, SKUtOcrtov µoipar;· p, EV oeKarnv oEKaoiicfjr; µoipai;).
French minute, = centesimal minute.
minute vibrations, l;t..ux1crr6rnrot [ ~LtKp6Tawt] Kpaoacrµoi.
Miquel point, µtKOll&Atavov m1-µdov'[ crT]µdov wu MiKou&lvj.
mirage, <DYL, uvnKawntptcrµ6~· { o<p0a/..µattcJ.'!T]} ·
mirror, <I>Yt., K<ito7trpov. axis of a spherical mirror, li~rov
mpmpiicou icm67ttpou. parabolic mirror, 7tUpaPoA.1icov K6.
t'07ttpov.
mirror reflection, <DYt., KU't01ttptKTJ avciK!..acrti;;.
mirrored images of each other, <I>Yt., CtAA11AOKU't01t'tj)t1,;6µ&va docoA.a.
missile, P!..11t6v· ['t'TJl..SPJ..11µaJ (, oiovoi]not& µeya PA.fiµu Tl ~upuuA.oi; nou pim&tat, EK't'O~&u&-
mixed concomitants
'tat, fi 6ncocroi]1tot& at..J..roi;; Pa.J. .. -1..&tm npoi;; sva crtoxov Ka't'a Tpoxiucrµu Ka0opt1,;6µ&vov P<lcr&t iiA.&K!pOVtKfji;; 0011y&criai;).
aerodynamic missile, aepoouvaµticov l3A.rit6v.
air-to-air missile, PA.Tlt'OV u{;poi;atpor;.
air-to-surface missile, l3A.Tlt'OV u{;poi;-em<pavdai;,
ballistic missile, l3aU1crt1icov PA.rit6v· {i3aUtcrttK6v tT]A.tPA.riµa}.
cruise missile, icata8poµ1icov 13A.rit6v· [8poµ6PA.TJµa].
guided missile, 1teµ1tt6v· [Kateu0uv6µevov PA.TJt6v· icateu0uv6µevov t'Tl· A.tPA.TJµaJ .
rocket missile, 1tUpauA.1Kov i3A.rit6V" [ nupauMPA.TJµa].
surface-to-air missile, i3A.ritov &m<j>aveiar;-ui:por;.
surface-to-surface missile, 131.ritov em<pavdai;-em<p<XVEiar;· {13ATlt'OV em<pav&iar;}.
missile acquisition, IlYPA YA., np6crKtT]crti;; (rou) pt..i]µatoi;;.
electronic missile acquisition,, TiA1>Ktpov11ci'l 7tp6crKtT]crtr; wii, l3A.ri1;1atoi;· [ iJA.eictpov1iciJ PA.riµattJCT) 7tpocrJC'tf\O'lr;].
missilry, pt..11µartK1'1' [7tupuut..op!..T}wci]).
mission, anocrwlvi]. mistake A,&.0oi;;· [unoK&tµ&VtKov A.<l-
0oi;;/ (Kat' UV'!LOlUO"'tOATJV 7tpoi; '"Co error, crcp&./..µu).
mixed, µtKt6i;,i],6v.
mixed-base notation, µtKtT\ cr11µ&toypucpi]· [ cr11µ&toypacpi] µtKtfli; pacr&coi;].
mixed-base number, apt0µoi; µt1C't'flc; pacr&roi;.
mixed concomitants, µtKtai cruµ-1tapoµaptoucrat ( cruvaptijcr&ti;).
667
mixed decimal
mixed decimal, oeJCaotJCo<; apt0µ6<;.
mixed fraction, µtJC'tov JCAucrµa· [ µtJC'to<; apt0µ6<;}.
mixed game, MHXT., MA0., µt-. JC'tov nuiyvtov.
completely mixed game, &vteA.&c; µuctov 7taiyvwv.
mixed initial-value and boundaryvalue problems, µtJC'tU npoPAi1-µum apxtKfj<; (nµfj<;) Kai cruvoptaKfj<; 'ttµfj<;.
mixed number, µtJC'to<; api0µ6<;. addition of mixed numbers, 7tp6cr-
0ecrtc; µiKtOOV O:pt0µ&v. division of mixed numbers, otaipe
crtc; µtKtOOV O:pt0µrov. multiplication of mixed numbers,
7toA.A.a7tA.acrtacrµoc; µuctrov apt0µ&v. product of mixed numbers, yiv6-
µevov µtKtrov O:pt0µrov. subtraction of mixed numbers 0:-
<paip&crtc; µtKtcOV Upt0µrov. '
sum of mixed numbers, a0potcrµa µtKtcOV Upt0µrov.
mixed quantity, µtJC'ti] nocr6'tTJ<;.
mixed proportion, µtJC'ti] avaA.oyia · [ avaA.oyia tK cruv0foero<; Kai otatpfoeffi<;}.
mixed-radix notation, crriµewypa<pi] µtJC'tfj<; pil;ric;· [ µtJC'ti] crriµewypa<pij].
mixed-radix number, apt0µo<; µtJC'tfj<; pit;ric;· r apieµoc; µiJCtfl<; pacreroc;].
mixed ratio, µtJCto<; Myoc;· [ µtJCti] avaA.oyia].
mixed strategy, MHXT., MA0., µtJC'tit crtpU'tTJYLlCTJ.
optimal mixed strategies, 13eA.ncrtat µtKtai crtpatT]')'tKai.
mixed surd, µtJC'ti] appfJ't6ptl;a.
668
Mobius (August Ferdinand -)
mixed tensor, µtJC'tOV 'tavucrµu.
mixing length, µfjJCO<; avaµiseffi<;.
mixing ratio, 'A6yo<; avaµi:seroc;· [avaA.oyia avaµisero<;].
mixture ratio, Myo<; {avaA.oyia] µiyµato<;.
MKS system, crucr'tTjµa MX.!l ( = crucrtriµa Me-rpou-Xt'Atoypuµµou -Aeu'tepoA.en'tou ).
MKSA system, crucr'tlJµa MXAA( = cr6cr't11µa Me-rpou-XiA.toypuµµou -Aeu'tepof...ttt'tou-'Aµnepiou ).
MM scale, = Modified Mercalli Scale.
mnemonic devices, AOr., µvriµoVtJCU µfoa.
mnemonic equations, µvriµovtJCai. ts i crfficre t<;.
mnemonic operation code, AOn~M., µv11µovtJC6<; JC&ois.
mnemonics, µvriµo'texviu· [ µv11µ0-VtJCTjj.
mobile, lCLVfJ'tOV. perpetual mobile, O:etKiVT]tOV.
mobility, lCLVTJ'tO'tTJ<;' [ elJlCLVfJCTlU ]. coefficient of mobility, cruvteA&crti]i;
(tfjc;) KtVT]tOtT}toc;. Hall mobility, xaUiavi] KtVT]t6tric;·
{KtVT}tOtT]c; wu XroA.A.j. ion [ionic] mobility, tovnKi] KtVT]·
t6tT]c;.
mobility of rigid figures, MA0., lCtVfj'tO'tTJ<; 't"WV CT'tepp&v CTXTJµutffiV.
condition of modility of rigid figures, cruv0i]KTJ (7t&pi tfjc;) KtVT]t6-tT]t0c; t&v crtepprov crxriµatrov.
Mobius (August Ferdinand-), (Auyoucrto<; <l>epoivuvoo<;) Mutµm-
M.obius function
ou<; ( = yepµuvo<; µu0riµunJC6<;· 1790 - 1868).
Mobius function, µm~iavi] crnvaptTJcrt<;' [ cruvuptilcrt<; toil Muiµmou<;].
Mobius net, µmp1avov oiJCrnov· {'&iJCrnov toil Muiµmou<;].
Mobius strip, MA0., µaipiuv11 'Affipic;· {A.ffipi<; 'tol> Muiµmou<;].
Mi>bius transformation, µatPtavoi; ~tetacrxrJµancr~16i;· [ µe'tUCTXTJ~tancrµoi; tol> Muiµmoui;].
Mobius's sheet, µaipiavi] xo)V1r [ xwvri toil Muiµmouc;· tmcpuvi:ia tol> Muiµmoui;].
Mobius's surface, µaipiavi] tmcpaveia· [tmcpaveia mu Mo.iµmoui;].
mod,= modulo;[modulus].
mod c, ~LOO Y' {lCU'tU µ6otov y ]. a is congruent to b, mod c, to a
cruvapµ6~etm 7tp6c; to 13, (Kata) µoo(wv) y.
modal, 1, AOr., 'tpomJC6<;,iJ,6v· {'tpotto7totTJ'ttlC6i;,Tj,6v j.2,MA0. AOr., ~TAT., 'tpom1nK6<;, 11, 6v· ['tpottoA.oytK6i;,Tj,6v]. 3, MHXT., 'tpom1nK6i;,Tj,6v.
modal analysis, MA0., MHXT., 'tpom1nKi] [ -rpottoA.oytKT]] &.vu'Aumi;.
modal class, MHXT., 'tp07tl"J'tlK'll JCA<lcrti;.
modal column, MHXT., 'tpomrr1K1) mijA.11.
modal columns of the dynamical system, MHXT.MA0., 'tpom1-nKai cr'tfjAat mu ouvaµtJCou crucr'tijµmoi;.
mode
modal logic, AOr., 'tpomJCi] {'tpo-7t07tOt TJ n Ki]] / ... oyuo'l.
modal operator, MA0.AOr., 'tpom1nKo<; tKteA.ecrtiii;.
modal proposition, AOr., 'tpomKi] { 'tp07t07totTj'tt1Ci} j 7tpO'tUcrt<;.
modality, MA0.AOr., 'tp07tTJ'ttK6-'tfJ<;' { 'tp07ttKOtTJi;J.
mode, 1, AOr., Tp6ttoi; (cruA.A.oyicrnJCol> crxiwarni;). 2, ~TAT., MA0., 'tp67tTjµa· [ Tp6ttoi;] ( = i1 µo.l ... A.ov cruviJ011<; nµi] Tfj<; µemPATJ'tfji;· i1 µeyicr'tTJ µemPATJTiJ ttA.ri0ucrµou, cbi; Ttmoi;). 3, MHXT., tp67tfjµa ( = otuµ6p<pffiµa. KpaoucrµG>v) .
alternate mode, u7ta.l-A.etKtov tp6-7tT]µa.
antimetrical modes, O:vnµetptKU tponi]µata.
characteristic mode, x.apaKtTJptcrttKOV tp67tqµa.
coupled mode, cru~&UKtOV [ cruve~cuyµtvov] tp67tT]µet.
extensional mode, E7t&KtetttKOV tp6-7tT]µet.
extensional-rocking mode, S7t&KtattKOAtKVtcrttK6v tp67tT]µCt.
flexural mode, KaµmtKOV [ 7t&ptKet~mnK6v] tp6miµa.
flexural-rocking mode, 7t&ptKaµ7ttt· KOAlKVlO'TlKOV tp07tT]µU.
flexural-torsional mode, 7t&ptKaµ-7tTtKOcrtp&7tttK6v tp07tT]µU .
fundamental mode, 0Eµ&A.tfooec; tp6-miµa.
multi-mode system, 7t/,etov6tp07tOV crucrtT}µCt.
natural mode, ql\JcrtKOV tp67tT}µa.
noisy mode, wpl3tKOV [0opul3ri· 'tOV j -cp67tT]µa.
rocking mode, A.tKVtcrnK6v tp6-7tT]µa.
torsional mode, crtp&7tttKOV tp67tTJ· µa.
669
mode of a population
uncoupled mode, c'i~eUKTOV [µTi auve~euyµtvov] 'tp6miµa.
mode of a population, LTAT., 'tp6-m-iµa ['tpono<;] (wu) nli.1100-crµou.
mode of expressing, 'tp6no<; EK· q> pUO'Effi<;.
mode of operation, I, 'tp6rto<; tvepyi1creror,. 2, OIK., 'tp67to<; €JCµe't ali.'1.eu creror,.
mode of vibration, 'tp6rto<; 1Cpa8acrµou· [KpaSacrµtJCo<; 'tp6nor,j.
fundamental mode of vibration, 0i;µeA.1rooT]i; Kpa1>a:aµ1K6i; 'tp6itoi;.
normal mode of vibration, 'taKnK6i; [ <jJUO"LKO<;] Kpaoacr~LtKO<; 'tp6ito.:;.
predominating mode of vibration, tmKpa'ttO"'tepoi; [ itpoel;upxcov) 'tp6-7toi; Kpal>aaµou· [OeµeA.tclioT] i; Kpal>aaµtK6i; 'tp67toi;].
second mode of vibration, oeu-repi;ucov Kpaoaaµ1K6 i; 'tp67to.:;.
mode shape, MHXT., 'tpo7to~topcplr [ 'tpon11n1CiJ Staµopq>fi].
antimetrical mode shape, Ct.v-r tµ e'tptKi] 'tp07tOµOp<j>l] .
orthogonal mode shape, 6pOoycov1-Ki] 'tP07tOµopq>i] .
parabolic mode shape, 7tct:paJ30A.1Ki] 'tp07toµopq>11. • simp~y orthogonal mode shapes, a7tA.roi; op0oycovtKai 'tP07toµopq>ai· [ 6.-7tA.op0oycovtKai 'tp07tT]itKai oiaµopq>aij.
symmetrical mode shape, auµµ i;-'tPLKi] 'tp07tOµOpq>i].
model, 7tpO'tU7tW' [ 1tpO'tU7t&Uffi ] .
model, np6'turto<;,or,,ov.
model, 1, MA0. , np6'tUrtov· 2, TEXN., µoStli.o· htovrt/....o ].
atmospheric model, ci'tµoaq>mptK6v 7tp6tu7tOV.
670
cosmological model, KoaµoA.oytKO V 7tp6tu7tOV.
model of stable expanding economy
deterministic model, 7tpoao1op1aµ1-K6v 7tpOW7tOV.
dynamic model, ouvaµtKOV 7tp6w-7tOV.
economic model, oiKovoµtKOV 7tp6-'tUitov.
(equivalent) barotropic model, ({· aoouvaµov) J3a;potp01tLKOV 7tpOW1tOV,
Experimental Institute for Models and Structures, Tietpaµawcov 'IvO"ttwilwv Tipo'tu7tcov Kai ~oµT]µ6:rcov.
geochemical model, yi;coxTJµlKOV 7tp6-'tuitov.
hydrological model, iJOpoA.oy1K6v 7tp6tU7tOV.
mathematical model, µa0T]µct:nK6v 7tpOtu7tOV.
mechanical model, µT]xavtKOV 7tp6-tuitov.
operational model, 1, A.etwupyqnKov [evepyl]~lCLtLKOV J 7tp6tu7tOV. 2, tmxetpT]crtaKOV 7tp6tu7tOV.
probabilistic model, m0avowc6v 7tpOtU7tOV.
scale model, emcl1µ1iKLOV 7tp6w-7tov· [7tp6tu7tov (mo KA.iµam] .
theory of models, 0ecop[a 'trov 7tpotu7trov.
thermotropic model, Oi;pµotpomKov itp6-ruitov.
moclel-building, npo'tUrtoupy[a ( = KO.'tUO'lCEU'l'J t] lCU'tUO''tprocrt<; 7tpo'rll7t ffi v).
theoretical model-building, 0eCOpTJw ci] 7tpotu7toupy[a.
model complete, rtpO'rU1tO't&li.1i<;,i]<;, t<; .
model completeness, rtpO'rUTto't&· '1.&ta· [ 7tpO'tU7ttJCiJ tv'rt/....&ta ].
model construction, lCU'tUO'lCEUiJ 1tpOtU1tOU' { KU't'UO'K&U'l'J trpO'rU· TtffiV j.
model of stable expanding economy, MHXT., MA0., OIK., (µa011µa'rt1Cov) np6'tUnov i:ucr't'a0ou<; oieupuvoµtvrii; oiJCovoµ\a<;.
model of the universe
model of the universe, np6rnnov wu crt'.lµ7tavrnr,· [ KocrµoA.oytKOV np6rn7tov].
model testing, SoKt~tacr[a npo't'U· ttffiV' [ 7tpotumKiJ ooJCtµacriu] .
model-testing procedure, µ&0oSda {otamKnK~j SolCtµacria<; npo'rU7tffiV.
model theory, 7tpo·rnm1C11 0&ffipia· [0&ffipia t&v npo't't'.l7twv· npotuno0&ropia].
modeling [modelling], MA0., npo'tU1tfficrt<;.
mathematical modeling, µaOT]µUn K~ 7tpOtU7tCOO't<;.
models representing economic situations, MHXT., MA0., OIK., np6'tUrta UV(l7tapacr'tacr&ro<; oilCOVoµtJC&v 0tm::rov.
moderate, Stali.li.acrcrro ( = npoicrmµm crus11Ti]cri:wr; <l><; Stali.AaK'n)r;).
moderate, }tS'tpto<;,a ,ov· [ µ&'tpto1ta-0~<;,i]<;,t<;].
moderator, 1, Sta/....A.aJC'rfJ<; ( = 7tpoIcr-ruµi::vo<; t] pu8~ucr'tTJ<; crus'Tl't~crew<;). 2, TEXN., µ&-rptacrtf] r;· [ pu8µtcr'ti]<;· t mppaSuv'ri]<;].
modern, I, V&ffi't&pt!C6<;,i],6v· [ vew't'&po<;,a,ov]. 2, cruyxpovoi;,o<;, ov.
modern algebra, v&ro-rt pa [ cruyxpovor;] 6.li. yi:ppa.
modern analytic geometry, V&ffi'tepa { O'OYXPOVO<;} UVUAU'tl!Cll y&roµe'tptU.
modern logic, V&ffi'repa { O'UYXPO· vo<;] li.oytJCij.
modern math,= modern mathematics.
modified Mathieu function
modern mathematics, veoµa0riµan-1Ca· [ V&Wt&pa µa0riµanJCU' cruyxpova µa9rwanJCCt.].
modern numerals, vero't&pa [ cruyx.pova] &pt0µT)n1Cu.
modern science of aseismic construction, V&ffi't'SpU { O'OYXPOVO<;} imtcr'ri]}LT) 't'WV avncr&tcrµtlC&V 1CU'tUO'JC6UWV.
modern structure designed to resist dynamic disturbances, cruyxpovov 06µl1}tU crxi:Swli.oyri0~v ~ uv0&1C'tl1COV { crunpovo<; q>op&u<; crx&l>Loli.oyT)0&ir; tlir; 0.v8&1Cn1Co<;} &Lr; Suva~LtJCa<; Sunapaxa<;.
modernization, EJCcrunp6vLcrt<;' [tic-cruyxpovLcr~16<;]. '
modernize, tKcruyxpovisro.
modified, 'tp07t07tot11µtvor, ,11,ov. i;;.--
inodified Bessel function, 'tpono-7tot11µtvri pi:crcri:li.iaviJ cruvup't'TJcrtr,· [ 'tp07t07t0tl1µtv11 cruvap't'T)O't<; 't'OU M7ttcra&Aj.
modified Bessel's differential equation, 'rpo7to7totT)µt vri Pecrcr&li.1av1) Staq>opt1C1) cruvup'tllcrt<;' ['tpono7tot11µ t vri Swcpopt1C'l'J cruvup'rT)crt<; wu M7tfocr&A.}.
modified brachistochrone problem, 't'pono7tot 11µtvov ppaxim6xpovov np6PA.mm· [-rpono7tot11µtvov n&pi ppaxtcrrnxp6vou 7tp6-pA.1iµa].
modified index of refraction, 'rpo-7t07tOtl1µtvo<; ota0A.acrn1Co<; S&ilC'tT)<;' [ 'tpono7tot11µ&vo<; o&tlC'tlli; ota0')..acr&ffi<; J.
modified Mathieu function, 'tpono7tot Tl µ&v11 µa0etavi} cruvup-
671
Modified Mercalli Scale
-rri crt<; · b pononoi ri µtvri crovcip'l"Yj crt<; wu Mant }.
Modified Mercalli Scale, Tpononoiriµtvri MepKa.A.A.iavi] KAiµas. (1:YN.: MM scale).
modified refractive index, -rpo1to-1totriµtvo<; Ota9A.acrnKo<; oeiK'l"Yj<;.
modified spherical Bessel functions, -rpononoiriµtvai crcpaiptKai f3ecrcreA.iavai ouvap-ri)cret<;.
modified Struve function, -rpononoiriµtvl'] cr-rpoof3iavi] crovcip-rrimi;· [ -rpononoiriµtvri crovcip'l"Yjcrt<; WU Ltpouf3 }.
modifier, MHXT.MAE>., -rpono7totri-riJ<;.
modify, -rpono7totro.
modular, l, MAE>., µootmc6<;,i),6v. 2, TEXN., f3anK6<;,i),6v.
modular angle, µootaKi) yrovia.
modular arithmetic, µOOlUKTJ apt-9µYjnKi). (1:YN.: clock arithme-tic).
modular equations, µootaKai i\b-crc.Ocret<;. •
modular function, µootaKi) ouvcip-rricrt<;.
modular group, µootmci] oµci<;.
modular lattice, MAE>., µootmcov nA.tyµa.
modular law, MA0., µootaKo<; v6-µo<;.
modular number, µootaKO<; apt-9µ6<;.
modulated, otaµopcptcrµtvo<;, ri ,ov· [otawvicrµtvoi;,ri,ov }.
672
modulation
modulated continuous wave, otaµopcpicrµtvov [oiawvicrµtvov} crovexe<; KU~ta.
modulated wave, otaµopcptcrµtvov [ota-rovicrµtvov} Kuµa.
modulating wave, otaµopcptcrnKOV [oiawvtcrnKov} Kuµa.
modulation, <l>YL., MHX., otaµop<ptcrµ6<;· [oiawvtcrµ6<;}.
amplitude modulation, &upooiaµopqncrµ6c;· [ &upucoc; otarovtcrµ6c;].
frequency modulation, cruxvoou1-µopqncrµ6c;· [ crux,vowcoc; 01arovtcrµ6c;] .
grid modulation, foxapoµopcptcrµ6c; · [£crxapucoc; lharovtcrµ6c;].
intensity modulation, otaµopcptcrµoc; £vracr&roc;· [otarovtcrµoc; tvracr&roc;· pu0µ1crµ6c; cprotnv6rriroc;].
phase modulation, cpacrto1aµopcp1-crµ6c;· [ cpacrncoc; 01arovtcrµ6c;j.
pulse amplitude modulation, &uponal..µncoc; otaµopcptcrµ6c; · [ &uponul..µtKoc; oiarovtcrµ6c;] .
pulse code modulation, nal..µoKrootKoc; {KCilOlK07taf..µtK6c;j otaµopcptcrµ6c;· { 7taf..µOKCilOlKOc; otarovtcrµ6c;j.
pulse duration modulation, nul..µoµaKptK6c; litaµopcptcrµ6c;· (1:YN.: pulse width modulation).
pulse frequency modulation, nul..µocruxvonKoc; 01aµopcp1crµ6c;· [nut..µocruxvonKoc; oiarovtcrµ6c;].
pulse modulation, nal..µ001aµopqncrµ6c;· { naf..µtKoc; OtUTOVtcrµ6c;j.
pulse phase modulation, nal..µocpacrtKoc; Otaµopcpt<J~L6c;· { 7taf..µocpacrtKOc; otarovtcrµ6c;].
pulse time modulation, nal..µoxpoVtK6c; oiaµopcptcrµ6 c;· [nal..µoxpovnco c; otarovtcrµ6c;].
pulse width modulation, naA.µoJtl..atUKoc; oiaµopcptcrµ6c; · [ nal..µoµaKptKoc; otarovtcrµ6c;] .
single-sideband modulation, µovonA.i:upo~rovtKoc; litaµopcptcrµ6c;· [ µov0Jtl..&upo~rov1K6c; otarovtcrµ6c;].
modulation code
space modulation, xropatoc; 01aµopcptcrµ6c;· [oiarovLcrµoc; xropou J.
modulation code, AOrI1:M. , ota-µopcptcrttKo<; {otarnvicrnxo; ) K&ois.
modulation of earthquake motion, ota~Lopcptcrµo<; {otawvicr~10<;] µtu<; cretcrµtKfj<; KtV~O"E©<;.
modulator, ota~1opcp1crt~<;· [01at0-vtcrti)<;}.
module, 1, ~IAIT., e~1f3atri<; (oiacr-rl']µtxou cpoptro<;). 2, TEXN., f3a-rri<; (9eµeAtci>crnro<;). 3, 0EQP. 1:YN., µ6oto<;.
right module, 0€1;16c; µ60t0~ .
rings as modules, oaKtul..t01 <i>~ µ60101 .
unitary module, µovaoiatoc; µoowc;.
modulo, MA0., Kata µ6010v· [<be, npo<; µ6otov].
division modulo p, 01aipecrtc; Kata µ60lOV p.
factor modulo p, 7tapayrov Ka.tu µ60wv p.
modulo 2 counter, AOrU:M., µe-rpri-ri]<; xma µ6owv 2· {otµ6-oio<; µetpfjt~<;).
modulo 7 problems, npof3A.iJµam enmotxou µooioo· [ npopA.iJµata xata µ6ot0v 7· npopA,i]~1arn µt pa.cri v -ro 7 J.
modulo 12 problems, npopA.iJ~1am O©OEKIJ.OtKOU µooioo· [npoPA.iJµa·ra Ka-.a µ6owv 12· npopA.iJµarn µ!: Pam v -ro 12].
modulo N check, AOrI1:M., sstA.eyst<; Ka-ra µoowv N.
modulus, MA0., µ6ot0v ( = a, ~1t-.pov µeyt 9ou<;, cruvapti)creroc,, oovaµero <;, 11 U1tO'l"EAEcrµawi;· p,
modulus in tension
U7t6A.ow<; nµ1) ~It yal>tKOU ap1-9µou) .
bulk modulus, µOOlOV oyKOl.l" { µ6-0 LOV 01..[lj!&roc;· µ60lOV KU~!Kfjc; cruµmrnt6t11t0c;}.(LYN.: compression modulus) .
complementary modulus, cruµnl..TJproµanK6v µ60wv· [ cruµnl..T]pro~tattJCi] <in61..utoc; t1µi]} .
compression modulus, ~1601ov cruµmfoeooc;· hL60lOV 01..iwr.roc;]. (EYN.: bulk modulus).
double modulus, omA.oiiv [<ivT)yµtvov] µ61itov.
effective modulus, opacrttKOV µ6-owv.
elastic modulus, f;l..ucrttK6v µ6owv· hL6owv (ti\c;) i;A.acrttK6t11roc;].
flexural modulus, KaµnnJCov µ6-owv· htOOlOV KcLµljl&roc;j .
isentropic modulus, icr&v·tpomKov µoowv.
isothermal modulus, icr60r.pµov µ6-owv.
Karman modulus, Kapµaviavov µ6-owv· [ µoowv t0ii Kapµav].
plastic section modulus, µ6owv 7tAU<Jt1K1'jc; toµ1ic;.
principal modulus, nprot&uov [nprotaPXtKOV j ~tOOLOV (tl..a:crttJC6tT]tOc;).
reduced modulus, uvqyµtvov µ6-0lOV.
refractive modulus, ota01..acrttKOV µ6 0lOV.
section modulus, roµtKov µ6owv · [µoowv wµ1ic;].
shear(ing) modulus, otatµT)t!KOV µ60wv· [µ60wv 01arµi]cr&roc;]. (1:YN. modulus of rigidity).
stretch modulus, µ6owv 010.nru~&coc;. (LYN.: modulus of elasticity).
tension modulus, tcp&1'.KU<JttK6v µ6-owv· { µ60lOV ecp&f..Kucrµou} .
Young's modulus, uouvyKLavov µ6-owv· {µ60lOV f; f..acrttK6tT]t0c; (t0ii rt6vyK}.
modulus in tension, MHXT., µ6-otov sv scpeA.Kucrµ(j). (IYN.: tension modulus).
673
modulus load
modulus load, MHXT., µootmcov q>optiov.
reduced modulus load, avriyµl:vov µoOtUKOV <pOp'ttOV.
tangent modulus load, t<pa7twµ&vt· K6v µootaK6v <poptiov.
modulus of a complex number, µootov [ &.no/...,uwr:, n~t iJ] µt yaoticou &.ptf>µou.
modulus of a congruence, µootov o-uvapµocr-rotritoc;.
modulus of a curve, ~tootov icuµrt6-J.:r1c;.
modulus of a section, MHXT., µoowv wµfjc;· [ µootov oiawµfic;J.
modulus of a system of logarithms µootov histpov] crucrti]~taw~ "A,oyapteµcov .
modulus of an elliptic function µootov [ ano/...,uwr:, nµiJ 1 £/...,/...,et~ rttticfjc; cruvapn'!crecoc;.
modulus of an elliptic intearal 'I: [ "' ' µoutov &.no"A,uwr:, nµiJ) sUet-
rcttKOU 6/...,oic"A, ri pro~tatoc;. complementary modulus of an
elliptic integral, crwm/,riproµan1C6v µ6-8tov tA.l.&t7t'tt1Cou 61.oKA.TJpciJµa'trn;.
modulus of an imaginary quantity µootov [ anol .. uwr:, nµ11J cpav~ tacrnicfjc; rcocr6tTjtoc;.
modulus of common logarithms µ6otov [ µetpov] icot v&v "A,o~ rapi0µcov.
modulus of compression, <I>Y1:., µootov cruµmfoecoc;.
modulus of cubic compressibility, MHX., µoowv Kupiicfjc; o-uµmecr't6'tTJ'toc;· [ µootov oricou ). (1:YN.: bulk modulus).
674
Mohr (Karl Friedrich • )
modulus of decay, µootov rcapaicµfjc;.
modulus of elasticity, µ6otov [ µe-rpov) VcacrttKO'tTJ'tOC:,.
dynamic modulus of elasticity 8uvaµ11C6v µ60tov tl.acrnK6'tT)'tO~. '
flexur~l modulus of elasticity, m:ptKaµm:11Cov [ KUµ7t'ttK6v] µ68tov tl.acrn ICO'tTJ 'to~.
second modulus of elasticity 8&6--r&pov !-l68tov tl.acrnK6tT]'to~· [ Joowv O"T&ppO'tT)'tO~j.
Young's modulus of elasticity, uouvYKtavov ~t68tov tl.acrnK6triw~· [ µ6-8tov tA.acrnKO'tTJ'tO~ wu rt6vyK].
modulus of periodicity, µ6otov nepwouc6tT]toc;.
modulus of resilience, MHXT., µ6-otov £rtUVU'tU1CttK6'tT]'tOC:,.
modulus of resistance, µootov avttcrtacrecoc;.
modulus of rigidity, MHXT., µootov cr'teppO'tT]'tOC:,' [ µo&tov oAtcr0i]crecoc;· oe6tepov µ6otov £/,acrtt K6n1wc;).
modulus of rupture, MHXT., µ6-otov f>paucrecoc;.
modulus of shear, MHXT., µootov otatµi]crecoc;. (1:YN.: shear modulus).
modulus of transverse elasticity, µ6otov £yicapcriac; £1..acrttKO'tTJtor:, . (1:YN.: modulus of rigidity).
modus, 'tp6rcoc; ( = cr6cr'tTJµa ft µef>oooc; opcicrecoc;).
modus ponens, = rule of detachment.
Mohr (Karl Friedrich -), (Kapl.. <I>peioepiKor:,) Mop ( = rspµavoc; XTJµtic6c;· 1805 - 1879).
Mohr (Otto-)
Mohr (Otto-), COf>cov) Mop (= cr6npovoc; "fepµavoc; µ11xavo'ttxvric;).
Mohr's balance, µoxptavoc; suy6c;· [Suyoc; 'tOU M6p).
Mohr's circle diagram (for compound stress), µox1nuvov KU· UlKOV otuypaµµa (<>ta cruvf>ewv 'tUcrtv)· {KuK°}..,tKOV otaypaµµa 'tOU Mop).
Mohr's diagram, µoxpiavov ouiypuµµa: [01uypa~1µu tou M6p).
Mohr's method of the string polygon, µoxpiavi]_ µtf>oooc; wu crxotvorco"A,uyrovou· [µtOoooc; toO crxotvorto"A,uycovou 'tOU Mop].
Mohr's theory of elastic failure, µoxpiavi) Oecopiu rcepi £/...,o.crnicfjc; ucrwxi]crecoc;· [Oecopia n:epi V,acrnicfjc; urcotuxiac; 'tOU M6p ).
molal, <I>Y1:., ypa.µµoµopuc6c;, i] ,6v.
molality, <I>TI., ypaµµoµopt6n1c;.
molar, <I>Y1:., ypuµµo~wpwx6c; , 1'! , ov.
molarity, <!JY1:., rpa.µ~wµoptmc6-'t1ic;.
mold, ~lll'tpa· [Ka"A,oum).
molding surface, MA0., otan"A,acrcroucra [oian"A,aa'ti)] £mcpaveta.
mole, <I>TI., XHM., µ6/...,wv· ['Ypu~Lµoµ6ptov· µopt6rpaµµov ).
gram-mole, ypaµµoµ6A.tov· [ ypaµµoµ6ptov].
molecular, µopmic6c;,i],6v.
molecular effusion, <I>Y1:., µopta.Ki) Sieicp01'!.
molecular flow, ~wpiaici) poi]· [£J...,w0£pa µoptaKi) poi]]. (LYN.: free molecule flow).
moment
molecular flux, ~wpta.Ki) pucnc;.
molecular structure of the material, ~LOptaici]_ ooµi) 'tOU u/,tKOU.
molecular theory, µoptmci) f>ecopia.
molecular weight, µopmicov Pupo;.
molecule, <I>Y1:., µoptov. isomeric molecule, icroµ&pts µ6pt·
ov.
Mollweide (Karl B. -), (Kap/..., B.) MoA,A,patV'tt: ( = repµavoc; µa011-µanic6c;· 1774 - 1825).
Mollweide projection, µonpeiotavl'J [ 6~m"A,oypucptici)] rtpopoA,i]· { rtpopo"A, i]_ wu MoUP<itv'te ).
moment, crnyµi].
moment, MHX., porti]. area moment, E~tPaotKit pom'!. area moment theorem, 0&<i>p1iµa
(7t&pi) eµpao1Kii~ po7tfi~.
as tatic moment, acrtanKi] po7tn. balancing moment, icrocrta0µi~oucra
po7tn. (I:YN.: unlocking moment). bending moment, KUµ7tnKi] pom'r
[ pom'I Kcl.µ'lf&ro~]. center of moments, KEV'tpov 'tIDV
po7t&V. concentrated moment, cruyK&V'tpro'tit
poitn. curvature-moment relationship,crxf:·
O"l~ Kaµ7tUt.6'tTJ'tOs-P01ti'\~. damping moment, a7tocrP&crnKi] po
m'r [ po7tit <l7tocrPf:cr&ro~] . deficiency of the fiber strength
against the bending moment in the flexural vibration, av&mipK&ta UV'tO• xi'\~ 'ti;~ ivo~ et~ 'ti]v po7titv Kaµ'lf&ros KU'tU 'tOV 7t&ptKUµ7t'tlKOV 1Cpaoacrµ6v.
differential of moment, 8ta<poptK6v [ O"'tOLXEiOV J p01tfj~. (I:YN.: element of moment).
dummy bending moment, &iK&J. tKit KaµmtKit pom'l.
6.75
moment
676
eccentric forcing moment, E!C1Cev-rp1Ki] (j)Op'ti~oucra: poni]· [tKKEVTPLKi] O.va:yicu~oucra: poni]].
eccentric moment, i:KKev-rp1Ki] [eKKev-rpor:,j pom'J.
elastic moment, i:A.a:crnKi] poni1.
element of moment, cr-roixetov poitf)r:,.
end moment, 0.Kpa:ia: ponir [ poni] KU'ta 'tO UKpov }.
equivalent bending moment, icroouvaµor:, Kaµit'ttKi] pom'J .
equivalent twisting moment, !croouvaµor:, O"Ucr'tpE1tTLKTJ poiti].
far-end moment, i:axaraia ponir [ poni] ( wu) foxawu UKpou}.
final end moments, -reA.1Kai aKpaTm pomLi' [ ponai -r&v flKprov ].
fixed-end moment, poni] itaKrou CiKpou"[ poni] 0.Kpaiw;; itaK'tWcreror:,].
forcing moment, &.vayKa~oucra: [ q>op-r[~oucra} poni].
fully plastic moment, nA. i)pror:, nA.acrn Ki] poni].
initial fixed-end moments, apx1Kai ponai aK:paiar:, ita:K'tWcreror:,.
Jocking moment, 0.KtvT]wucra poni)· [ poni] 0.Ktvri-rt')creror:,].
magnetic moment, µa;v1]nKi] poni) . method of moments, µtOooor:, -r&v
pon&v. negative bending moment, 6.pvT]nKi]
Ka:µnnKi] pom'J . overturning moment, O.varpen-r1Ki]
[ava-rptnoucra] poni) .
p~rallelogram of moments, napaA.A.1]A.oypaµµov -r&v pon&v.
particular moment, iowµ epi]r:, [ cruy-1ceKp1µtv1]] poni).
pitching moment, np6veucr1r:,· [npoveur1Ki) poni)j.
plastic. bend~ng moment, nA.a:crnKi] KaµittLKT] pOitT].
plastic moment, nA.amtKi] poni1 . positi~e bending moment, Oe-r1Ki]
KU~l1tTLK1] poitt'). positive moment, OenKi] pom'J. principal moment, npro-reuoucra
[ nprowPaO~nor:,j poni).
moment
product moment, y1voµi:v1Ki] pom]· [y1v6µevov pon&v ].
product moment correlation coefficient, cruv-reA.ccrti]r:, crucrxeticreror:, wu y1 voµtvou -r&v ponrov· /cruvreA.ecrri]r:, taKnKf)r:, crucrxer[creror:, / .
pulsating moment, naA.µ1Ki] [rmJ../...oµtvri] pom'J.
real moment, npayµarn<i] pont').
resisting moment, 6.vncrtanKi] /O.v-91crraµtvri] poni1.
. restoring moment, anoKa:tamanKij [ aitoKa01crt&cra} poni1.
resultant bending moment cruv1-crtaµtvri Kaµnt1Ki] pom'J . '
rolling moment, Ku/...1vo1Ki] potj· [ poni] KuA.1 v0i1creror:,· poni] 6p1~ovnocr-rpoqJf)<;;j.
second moment, S&urepoPaOµior:, poni).
single resultant moment, µovtaia CTUVlv'tU~ttv11 poitt'). ~pan mom<;nts (of the beams), po-
7tat 01a:vo1yµa-rrov (-r&v SoK&v).
spin moment, TIYP.<1>YL, 01vriµat1Kr] poni]· [ po7ti] Sivt')µawr:,· po7tij cr'tpO(j)Opµfj<;;}.
static(al) bending moment, cr-ranKij KUµ1ttl Ki] p07tTJ.
statical moment, crtanK11 pom;. (rYN.: moment of a force).
theorem of three moments, Oeropriµa 'tOOV -rp1&v po7t&V.
three-moment equation, i;~icrrocrt<; (t&v) -rp1&v pon&v.
trimming moment, AEPOil., !crocrmnKi] po7tt') .
twisting moment, crucr-rprnnKi] po-1tlJ" [ po1ti] crucrtpeljferor:,].
unbalanced moment, acr-ra0µ1crw<;; [ av1crocr-ra0µ1crw<;;] pom).
unit bending moment, µovaoia:ia icaµ1tTLKi] po7ti].
unlocking moment, ani:A.euOepoucra poni). (1:YN.: balancing moment).
yawing moment, EKcr'tpO(jltKTJ pom'r [ po1ti] SKcrrpoqJfjr:,j.
yield moment, poni] {moxropi)creror:,.
moment-area method
moment-area method, µt9ooo<; po-7tfj<;-eµpa.oou.
moment-area problem, 7tp6Pl.11µa. po1tfj<;-eµpa.oou.
moment balancing, icrocr't(i9µtcrt<; 'tfjc; po7tfjc;.
method of moment balancing, µtOoBor:, icrocr-ra:Oµicrero<;; -rf)r:, po7tf)<;;.
moment balancing procedures (of structural statics), µs9oostm [ 'tExvuca.i µt9ooot 1 icrocr'ta.9µicrsroc; 'tfjc; po7tfjc; ('tfjc; 00µ11nKfjc; cr'ta.nKfjc;).
moment diagram, ouiypaµµa po-7tWV.
bending moment diagram, otaypaµµa KUµ7tn KOO\I p07tOOV.
moment distribution, xarnvoµij ( 'tfjc;) ponfjc;.
bending moment distribution, Ka'tc:voµi] (t~r:,) K0:µ7t'ttKfjr:, po7tfj<;;.
dynamic moment distribution, Ka:'tavo~1i] 'tfl<;; Suva:µtKfi<;; po7t~r:,· [ouvaµ1Ki] Ka:'ta:voµ11 po7tfjr:,].
method of moment distribution, µtOooo<;; Kamvoµfi<;; po7t&v.
moment generating function, po7toysvsnKij cruv<ip'tl)crtc;· [ cruv<ip'tl)crtc; ysvfosroc; po7tfjc;}.
moment of a couple, po7tij ~euyouc; (ouvaµsrov).
moment of a curve, po7tij Kaµm'.JA.l)c;.
moment of a force, po7tij ouv<iµeroc;· [man Ki) po7tfj].
moment of a frequency distribution, po7tij cruxvonKfjc; Karnvoµfjc;· { po1tij KU'CUVOµfjc; 'tfj<; O'UXVO'tl)'tO<;}.
moment of a vector quantity, po7tij avucrµa.nKfj<; 7tOO'O'tl)'tO<;.
moment of mass about a line
moment of area, po7tij eµpaoou· [ ( cr'ta.nKT)) pom'l E7ttcpaveiac;].
moment of elemental forces, pom'J O"tOlXEtaKWV ouv<iµsrov.
moment of flexure, po7tij 7tEptK<iµ\j/Eroc;· [ 1tEptKUµ7tnKij po7tfj}.
moment of force about a point, po7tij ouv<iµsroc; cbc; 1tpoc; crriµEiov.
moment of force about an axis, po7tij ouvaµsroc; cbc; 7tpoc; t'i~ova.
moment of inertia, po7tij Mpa.vsia.c;. apparent moment of inertia, qJatvo
µtv11 pom'I aopavi:[a<;;. centrifugal moment of inertia, (jlU
y6KeV'tJ)O<;; p07ti] UOpUVelU<;;. combined moment of inertia, cruv
ouacrti] [ crvvOewr:,] poni] aopavi:ia<;;. differential of moment of intertia,
01a(jlop1K6v l cr'to1xetov J po7tfi<;; aopaveiar:,.
element of mom'!nt of inertia, crtotxetov {OIO:(j)OptKOV} p07tfj<;; aopavei-0:<;;.
mass moment of inertia, µa~tKi] J)07ti] aopaveiar:,· [ po1ti] aopaveia:<;; 'ti\<; µa~11r:,J.
polar moment of inertia, 1tOAtKi] po7ti] O.Opa:vela<;;.
rotor moment of inertia, crtpo(jletaKi] /yupocrK01tlK1l} poitl'] UOpUVfLU<;;.
unit moment of inertia, µovao1aia poni] 0.opavi:ia:r:,.
moment of inertia of a particle about a point, line, or plane, p07tTJ aopa.vsiac; UAlKOU cr11µEiot> cbc; 7tpoc; cr11µstov, ypa.µµf]v, fJ E1ti7tEOOV.
moment of mass, pom't ('ti1<;) µa~11c;· [ µasiKiJ po7tfi}.
moment of mass about a line, po-7tij ('tflc;) µas11<; c0c; 7tpo<; ypa.µµfiv.
677
moment of mass about a plane
moment of mass about a plane, pom'! (tfj<;) µasl]<; ch<; npo<; enfm::oov.
moment of mass about a point, ponij (tfj<;) µasl]<; ch<; npo<; O'ljµetov.
moment of momentum, ponij -rfj<; puµl]<;' [ yrovwxij pu~tfl}.
moment of population, :ET AT., nA.1']0ucrµtmci) ponir [ ponij toll nA.l]0ucrµou ].
moment of resistance, ponf] (tfj<;) a vnmaaero<;.
moment of stability, ponij dicrta-0eia<;.
moment reduction factor, napuyrov avayroyfj<; tfj<; ponfj<;.
mo mental, puµmS<;, i],ov ( = tfj<; puµ1']<;).
momental ellipse, puµrn:ij eA.A.w)lt<;.
momental ellipsoid, puµucov eA.A.et'JIOEtoe<;.
moments of inertia about axes x, y, and z, ponai aopavda<; ch<; npo<; wil<; al;ova<; t&v tetµl]µEvrov, tetayµevrov, 1cai Kan1yµevrov.
momentum, puµri.
678
angular monentum, yrovutt<i) p6µT]. change in momentum, aA.A.ayi) 't"i)<;
p6µT]<;. conservation of momentum, l:ita
't"f]pT]crt<; Tfj<; pUµT]<;. generalized momentum, YeVtKeu
µEvT] p6µT]. law of conservation of momentum,
v6µo<; 't"ij<; ota't"T] pf]crero<; 't"ij<; p6µT]<;' {np&w<; v6~t0<; (t<tviwero<;) wii Neu· 't"(J)VO<;j
linear momentum, ypaµµtt<i) p6µT].
Monge (Gaspard·)
moment of momentum, poni) 't"fj<;; p6µT]<;.
principle of linear momentum, upxi) 't"ij<; ypaµµtt<f\<; p6µT]<;.
relative (an;.ular) momentum, crxe't"tKi) (yrovtat<i)) puµT].
rotor angular momentum, cr't"po<petaKi) [yupocrt<omt<i)] yrovtCIKi) p6-µT].
unit momentum, µovaomia p6µT]· [µova<; puµTJ<;].
momentum distribution, puµtKij Katavoµi] · [ Katavoµij ( tfj<;) puµ1']<;].
momentum space, puµtKo<; x.&po<;· [x.&po<; (tfj<;) puµl]<;].
monad, µovaow v· [µova<;]. (Leibniz's) theory of monads, 0eco
pia •c'iiv ~t0vciocov (wu Acilµnvt't"<;).
monadic, µovaotaK6<;,i],6v.
monadism, <l>IA., µovaotcrµ6<;'{µ0-va0oA.oyia ].
monatomic, <l>YL., µovawµtK6<;,i], 6v.
monetary, OIK., l, '.X.Pl]µanK6<;,i], 6v. 2, voµ1crµanK6<;,i],ov.
monetary unit, OIK., '.X,j)ljµanKij [vo~ttcrµanKijj µova<;.
money, OIK., X,pfjµa (Kat' avnota<HoA.ijv npo<; to currency, v6-µ1crµa).
future value of a sum of money, µeUoucra a~ia XPTJµanKOii nocrou.
mathematics of money, XPT]µa't"tKa µa0T]µant<ci .
money management, 1, X,pl]µanKij oiax.dptcrt<;. 2, '.X.Pl]µanK1) oiax.e1p1crrnci].
money market, OIK., '.X,j)l]µatayopa.
Monge (Gaspard -), (racrnapo<;)
Mongian
Mov~ ( = yaA.A.o<; cpucruco<; Kai µa0riµanK6<;· 1746- 1881).
surface of Monge, µoyy1avii &m<paveta· [&m¢veta wu M6v~j.
Mongian, µoyyiav6<;,i],ov ( = wu M6vs).
monic, µovocrt6<;, iJ ,ov· [ µovo~ti0µ1-o<;,a,ov J.
monic equation, MAE>., ~1ovocrtl'J el;icrrom<;.
monitor, Sti:Xveuro ( = naRUKoA.ou-0& paot0cproVt1Ci\V eKnoµniJv ft tT)AEcprovtKlJV oµtA.io.v, KtA., oui 1CpU'ttKOU<;, avaKpl'ttKOD<;, t'\ crtpanronKoil<; J...6you<;).
monitor, Strxvwtl'J<; (paowcprovtKi\<; Kt.A. EKnoµnfj<;).
monitor routine, AOrirM., oti:xvwnKlJ crupµi].
monitor ·system, AOrirM., S1i:xvwnKov crucrtl]µa.
monitoring, S1ix;vwcrt<; ( = napaKo/...o60T)crt<; ft l:A.eyx.o<; paowcprovtKfj<; EKnoµnfj<;, tT)AEcprovtKfj<; 6µ1A.ia<;, KtA.., otu KpanKou<;, avaKplnKOU<;, ft crtpano>'tt1COU<; J...6you<;).
monocoque, µovoKeA.ucpo<;,o<;,ov.
monocoque, µovoKeA.ucpov· [ µovoKeA.ucpov ooµT)µa·µovoKEAucpo<; cpopeu<;}.
semi-infinite monocoque, fiµtciltetpov µoVOKEAU<pOV (o6µTjµCI) .
monocoque fuselage, AEPO~ .• µovoKeA.ucpo<; ii'tpmcw<;.
monocoque principle, apx;l'J wu µovoKe/...ucpou.
monodromic function, µov6Spoµo<; [ µov6nµo<;] auvtiptT)O'l<;.
monomial factor
monodromy, µovoSpoµtK6tT)<;. [ µovoopoµi]].
Jaw of monodromy, v6µoc; 't"fjc; µovoopoµ111:6't"TJW<;.
monodromy group, µovoopoµta.KT\ 6µti<;.
monodromy theorem, µovoopoµta.Kov 0erop11µa.
Darboux's monodromy theorem, µovoopoµ1(a)11:6v 0eropT]µa wu N't"apµno6.
monogenic, µovoyevij<;, i]<;,e~.
monogenic analytic function, µovoyevi}<; UVnAU'tllClJ O'UVtlptT)crt<;.
domain of existence of a monogenic analytic func~ion, iteptoxii uTtcipl;i:roc; µovoyeVOU<; CtVaAU't"LKf\<; m>VClP't"TJO'I:• ro<;.
lacunary space relative to a monogenic analytic function, xacrµan11:~ xoopo<; O'Xl:'t"LK~ itpo<; µovoyevf\ avaAU'tlKTJV (Jl)Vclp't"T]O'lV.
natural boundary of a monogenic analytic function, <pum11:6v cruvopov µovoyeVOU<;; aval..un11:fjc; m>VUP't"TJO'I:• roe;.
primitive element of a monogenic analytic function, npro't"6yovov crwtxetov µovoyevouc; CtVCIAITTtK1'c; m>V· ap't"fjcrero<;.
monoid, MA0., µovoetoi]<;,i]<;,Ec;.
monoid, MA0., µovoetoe<;.
monoid system, MA0., µovo£t0&<; crucrtT)µa.
monolithic, µovo/...t0tK6<;, i],6v.
monomial, µovrovuµov. similar monomials, 6µ01a µovoovu
µa .
monomial factor, µovrovuµo<; 1tapayrov.
monomial factor of an expression, µovci>vuµo<; 1taptiyrov 1tapacrtaaero<;.
679
1'~qoppl;st, µovomoA.T}t~i;.
monopolistic, µovo7tcoA.taK6i;, i},6v.
monopolistic competition, MAE>., µoyo7t<0Ata.Koi; cruvaymviqµ6i;.
monopoly, MA0., OIK., µovomoA.wv.
duopoly, ouoit<i>A.wv· [µEptKOV µovoitroA.wv].
bilateral monopoly, Ol1tAEUpoV µoV01tOOAtOV.
partial monopoly, µEptKov µovonroA.tov.
theory of bilateral monopoly, 9EO>pia w\i otitAEupou µovonrol..iou.
monopoly problems, µovo7tcoA.tuKa 7tpof)A.i}µata· [7tpof)A.i}µata µovo7tcoA.iou].
monopsonist, µovo'l'<OVT]ti]i;.
QlOnopsonistic, µovo'l'<OVtcrttK6i;, i}, ov.
mon~psony, µoVO'l'WVlOV ( = µovo-7tWAtOV ayopao"tou).
1DOnopsony problems, µovo'l'<OVtaKa 7tpof)A.i]µam.
monostatic reflectivity, µovocrtanKTJ clVUKAUcrttKOtT]i;.
monotone, µov6tovoi;,oi;,ov. (LYN.: monotonic).
comonotone, 6µoµov6tovoc;,oc; ,ov· [ cruµµov6i-ovoc;,oc;,ov ].
piecewise monotone, tEµaxri-rroc; [ tE· µaxrioov I µov6wvoc;,oc;,ov.
monotone [monotonic} decreasing function, µov6tovoi; [ µovotoVtKit} <p0ivoucra cruvciptT}crti;.
monotone [monotonic J decreasing sequence, µov6tovoi; [ µovotoVtKTJ} <p0ivoucra iiKoA.ou0ia.
monotone [monotonic} decreasing
680
Monte Carlq Jp,e~~
Sefi~~' µqvfr~qvqi; {µOVQ'T;OVlKTJ} <p9ivoucrq qi;tpci.
monotone [monotonic} increasing function, µov6tovoi; [ µovotovtKTJ} au~oucru cruvciptTJcrti;.
monotone [monotonic} increasing seguence, µov6tovoi; [ µovoto-: VlKTJ} au~oucra UKoA.ou0ia.
monotone [monotonic} i,icreasing series, µov6tovoi; [ µovor:ovu~i]J au~oucra O'&tpci.
monotonic, µovotovtK6i;, i},6v· [ µov6tovoi;,oi;,ov }.
monotropic, µov6tpo7toi;,oi;,ov.
monotropic function, µov6tpo7toi; [ µov6nµoi;} cruvciptT}crti;.
Monte Carlo, Movt&KcipA.o ( = 7t6-A.ti; ri'ji; l)y&µoviai; toli MovaK6 ).
Monte Carlo approach (to a problem), µovr&KapA.tKoi; X&tptcrµoi; (evoi;) 7tpo~A.iJµawi;· [avnµ&rffimmi; 7tpo~A.i]µaroi; Ota µ&06-oou Movr&KcipA.o }.
Monte Carlo evaluation of integrals, µovr&KapA.tKTJ EKriµT]crti; r&v 6-AOKA T} pmµarcov'{EKtiµ11 crti; oA.oKATJ p<Oµateov ota µ&06ocov Movr&KapA.o ] .
Monte Carlo method, µovn:Kap/.tKTJ µi0oooi;· [ µ&0oooi; M6vre KapA.o}.
Monte Carlo method for eigenvalue problems, µ&0oooi; Movr&KcipA.o [ µovt&KapA.tKit µ&0oooi;J ota (ra) 7tpof)A.l)µara (ri'ji;) iotonµi'ji;.
Monte Cl}rl o method of solution of integral equations, µovr&Kap,A.tKit µs0ofoi; €mA.Ucr&mi; oA.oKA. TJ pconK&v €~icrci>.cr&cov.
MoP.t~ Carlo method
Monte Carlo °"~t~od gf soJ'!~9µ of •ipear eqµations, µqy~&~µpA.tK~ µ&0oo6i; €7ttA.Ucr&co~ ( r;p>v) rpo.µµtKrov t~iO"rocr&cov.
Moot(;! C3do ~thJ>d of solution of p~rtial difh~rential equati~ns, µovr&KapA.tlCTJ µs0o~oi; €mA.uq&coi; (rrov) µ&ptKrov otu<poptKrov €~ tcr<i>cr&mv.
Monte Carlo method of sl>lring Laplace's equation, µovr&KapA.tKTJ µ&0oooi; €7ttA.Ucr&mi; ri'ji; A.anA.amavi'ji; €~tcrci>cr&coi;.
Monte Carlo methods related to diffusion processes, µovr&KapAtKai µs~ooot avaq>&p6µ&vat ⅈ OiUX:U'ttKUi; µ&raycoyai;.
Monte Carlo simulation, µovr&KapA.tlCTJ 7tpocroµoicocni;.
designing Monte Carlo simulations, crJ(EOtOAO"(Ticrtc; (trov) µOV'tEKapl..tKOOV itpocroµoirocri:rov.
Monte Carlo solution of the newsboy problem, µovr&KapA.tKTJ €niA.ucrti; tou 7tpof)A.ijµatoi; rou Eq>TJ µ&ptOo7tci>A.ou.
Monte Carlo technique of stratified sampling, µovr&!CapA.tKit r&x;vtKTJ crtotf}aotKfji; O&tyµatoAT}'!'iai;.
Montel (Paul-Antoine-), (IlauA.oi; 'Avrrov10i;) Movr&A. (=cruyxpovoi; yaA.A.oi; µa0T}µan1C6i;).
Montel space, µovr&A.tavoi; x&poi;· fx&poi; tou Movrs/.}.
month, µijv. synodical month, cruvootKoc; µfiv~
mood, AOr., oturpo7tfr [(cruA.A.oytcrnJCoi;) rp67toi;].
valid mood, ilyKupoc; 01atpoitfi· ['Ey-Kupoc; tp6itoc;j. ··
woo~" cr&l.i}vrr [ <p&yyam J. full moon, 1tavcrtA.rivoc;· [yeµdto
fPE"('Y0.pt I. light of the moon, (f)) iptl;ri wO
fPE"('YUPtOU. phases of the moon, ipacri:t~ tf'\~
ui:A.fivric;.
Moore (.Jj:Jiakim Hastings -), ('EA.taJC&iµ XairimivyKi;) Mofop ( = aµ&ptKUVoi; µa0T}µUrt1CO£" 1862 - 1932).
Moore (Robert Lee-), (P6µ7t&p~ Afj) Mofop ( =cruyx:povoi; aµ&· ptKavoi; µa0T}µanK6~).
Moore-Smith convergence, µoup&t· aviJ cruyKAtcrti;· { cruyKA.tcrti; r&V Mofop-1:µi0}.
Moore-Smith sequence, aKoA.ou0ia Mofop-1:µi0· [oiJCruov· <>iKtuov cruv6A.ou]. (1:YN.: net; net of a set).
Moore-Smith set, cruvoA.ov Mouap-1:µi0'{ot&U0uv6µ&vov crucrrriµa}. (LYN.: directed set; directed system).
Moore spaces, µoupi:tavoi x,&poi· [ x;ropot rou Mofop }.
moral certitude, il0tKit f)&f}at6r:T}i;. principle of moral certitude, cipxt)
tfjc; i]91Kfjc; 13i:l3m6triwc;.
more compact form, 7tAEoV cruµ7ta.yiJi; [ cruµ7tay&crrspa} µopq>i}.
more-than-three dimensional spaces, u7t&prp101acrraro1 [avco t&v rpt&v otucrtacr&mv] x.&poi.
Morera's theorem, µop&ptavov 0&ropriµa· {0&ffipT}µa rou Mopepa }.
Morley (Edward Williams -), ('Eooucipooi; rouiA.A.taµi;) M6pA.11 < = aµ&p1Kavoi; xTJµtKoi;· 1838 -1923).
681
morphism (or rings)
Michelson-Morley experiment, µ1-1CtA.crov1av6v 1ttipa~1a· [1ttipaµa. MiKtA.crov-MopA. ri].
morphism (of rings), MAE>., ~topqncrµo; (oaKwA.irov).
morra, {'to rcaiyvtov) µ6ppa· ['f>aKWAtKo; KA.iipo;· Mxµo;}.
Morse (Marston H. -), (Mapcrtov X.) Mope; ( = aµeptKavo; wrcoMyoc;· y. 1892).
Morse's theory of critical points, ~10pcrtavi) 0&ropia rc&pi Kptcriµrov crrweirov.
mortality, AL<I>., MAE>., 0v11rorri;· [0vrimµ6rric;J.
force of mortality, lcrx;uc; 't'i'jc; 9vri-mµ6tritoc;· [Kivouvoc; 9a.va't'Ouj. (~YN.: risk of dying).
Gompertz's la~ of mortality, yoµ-1ttptmav6c; 1tEpi 9VT]O"lµO't'T]toc; voµoc;· {voµoc; 't'f\<; 9vT]mµ6tT]to<; to\) rKoµ-1ttptc;}.
Makeham's law of the force of mortality, ~mKtx;aµ1avoc; v6~1oc; [v6· µoc; 't'O!i Mairix;aµ] 1ttpi 't'f\c; lcrxuoc; 't'i'jc; 9vricr1µ6tT]toc;.
rate of mortality, 01anµTi [otiKtTJc;] 9vrimµ6't'T]toc;· [9VTJ't'OtTJr;].
mortality curve, KaµrcuA.ri 9vrimµ6-i:riwc;.
mortality table, rcivaK&c; 0vrimµ6· i:riwc;.
aggregate mortality table, cruva-9po1crnK6c; 1ti val; 9vricr1µ6tritoc; .
radix of a mortality table, pi~a (tou) 1tivaKoc; 9vrimµ6tT]toc;.
select mortality table, t1tiA.EIC't'O<; 1tiva!; 9vricr1µ6tT]t0c;.
truncated mortality table, KoA.oJ36r; 1tiva!; 9vrimµ6tT]t0c;.
ultimate mortality table, ilITTator; 1tiva.!; 9vrimµ6tritoc;.
mortality trends, tacr&tc; 9vrii:6trt· to;.
682
motion
mortar, TEXN., Koviaµa. cement(ing) mortar, mµtvto1Cov£a-
µa.. .
Mossbauer (Rudolph Ludwig -), (PoooA.cpoc; Aou'f>o~i.Koc;) MaicrµTCaou&p ( = y&pµavoc; cpucrucoi;· 'Y· 1929).
Mossbauer effect, µmcr~aou&piavov l:vtumoµa · [ l:vtuTCroµa wu MmcrµTCaou&p j.
most destructive damage factor, MHXT., rcapayrov (tiii;) A.iav Katacrtp&rctuciic; ~M~rii;.
most probable after lifetime, AL<J>. MAE>., A.iav m9avi) µ&i:a~iromc;· [A.iav m0avi) im&p~acrii; i:f1i; 'f>iap1rniac; ~rof1i;}.
most probable lifetime,AL<l>.MAE>., A.iav m0avi) ~iromi;·[A.iav m0avi) otapK&ta ~roiic;].
motion, <l>YL., MHX., Kiv11cric;. absolute motion, a1t6A.u't'Oc; ldvri
O"lc;. accelerated motion, tm't'ax;uvoµ&vT)
KiVT]O"l<;. • acyclic motion, a1Cotl1oc; ldvricr1c;. adiabatic motion, ao1aJ3at11CTt Ki
VT]O"l<;. agent causing the motion, 1tapayrov
1tpo1CaA.oov [ µfoov 1tpo1CaA.&crav j 't'TtV lCtVT)O"lV.
amplitude of ground motion, tupoi; 't'i'jr; toaq>11Cf\c; Kivficrtroc;.
amplitude of motion, tupor; 't'f\i; lClVficrtroc;. .
amplitude of simple harmonic motion, &Upo(,; a1tA.f\c; apµOVllCf\<; IClViJO"t(J)<;.
aperiodic motion, aitEp10011Cti [ µ1) 1ttpl00l1Ci]} lClVTJO"l<;.
Brownian motion, J3pouv1avti Kivrimc;· [ 1tt'ioricr1c; ('t'Ou) M1tpaov ].
center of motion, IC&Vtpov ti'\c; KlVTJ• cmoc;.
. circular motion, 1CUKA.11Cti Kivrimc;. coherent train of periodic motion
(in the emergent wave), tlpµiKti aA.A.riA.ouxia ('t'i'\c;) 1tEpt0'01Kf\c; K1vficrtroc; (to\) t1C'OT]A.ouµi;vou Koµawc;).
complete description of the motion, tvti:A.Tic; oiaypaq>ricric; [tvti:A.i]c; 01a'Y paq>i]] 't'i'jc; Kl vficri:roc;. ·
complicated patterns of ground motion, 1tOMitA.oKa OtaµOpq><.i>µata lOaq>lKf\c; KlViJO"£(J)c;.
compound motion, cruv9i:toc; Kivrimc;.
constant motion, crta9tpn [6µaA.ti] KlVT]O"lc;.
curve of ground motion, imµituA.ri tliaq>lKf\c; 1C1vficri:roc;· {Kaµ1tUATJ lClVliui:roc; tou f,l){tq>ouc;].
curvilinear motion, KUµituA.6ypaµµoc; lCtVT]O"lc;.
curvilinear motion about a center of force, KaµituA.6ypaµµoc; Kivrimc; 1ttpi 't'O KEVtpov -ri'jc; ouvnµEroc;.
damped amplitude of the motion, t'mocrJ3tcr't'ov tupoc; 't'f\c; Ktvficri:roc;.
damped forced motion, a1tocrJ3i:vvuµtvri avayKacrtii ldvricr1c;.
damped harmonic motion, c"LitouJ3i:vvuµ€vri apµOVllCTt ICLVTJO"lc;.
damped motion, c"L1tocrJ3tvvuµevri [ cmocrJ3tcr-r11J Kiv11mc;.
description of the motion, 01aypaq>ti [li1aypaq>rimc;] 't'f\c; Ktvf)cri:roc;.
differential equation of motion, omq>op1K11 t!;icrroO"tc; 't'i'jc; Ktvi1crtroc;.
differential motion, 01aq>optK11 Kivrimc;.
direct motion, A~TP., op9i] Kivrimi;· f op91i q>opa].
direction of the motion, 'Oti:u9uvO"tc; {'q>Qpa] i:f\c; Ktvi]m:roc;.
duration of the motion, ouip1C1:1a 'tf\c; Ktvi]cri:roc;.
earthquake exciting motion, crcmµiKiJ . Ottytp't'lKTJ lClVT]O"lc;.
elliptical motion, tAA.i:t7t't'lKTt Kivrimc;.
equating motion, t!;icroucra. Kivricrii;. (l:YN.: differential motion).
motion
equation of motion, t!;icrroO"tc; 't'i'\i; Kl vficrtroc;.
equation of wave motion, f,~icrromi; -rfjc; KUµUtlKi'ji; Kl vficrEroc;.
Eulerian motion, tuA.ripmviJ Kivrimc;· [Ki vri O"tc; 't'OU Eu A. ii pou].
excite motion, ou;ydpro KiVT]O"tV. exciting motion, 'Oti:ydpoumx [lit
tyi:pnxiJ] xlvriO"tc;. face angle of the motion, toptKTt
yrovia -ri'jc; Ktvi1m:roc;. forced motion, avaylCUO"'t'i] KiVT]O"lc;. forcing motion having unit ampli
tude, CtVU'YICcl~OUO"U {s!;avayKU~OUO"Uj Kivricr1c; µovallialou i:upoui;.
free motion, tA.w9!\pa KiVT]O"tc;. free undamped motion, tA.Eu9epa
µi] U1tOO"J3tvvuµtvri KtVT]O"tc;. fundamental equation of motion,
9i:µi:µt<i>oric; t!;icrroO"tc; 't'f\c; Kt vficrtroc;. Galileo's laws of motion, v6µ01
:rrcpi IClVi]O"&roc; 't'OU raA.tA.aiou. geostrophic motion, yi:rocrtpoq>tKTt
Ki VT] crtc;. ground motion, toaq>1Ki] Kivrimc;·
[Kivrimc; tou toaq><i>µatoc;}. harmonic motion, apµOVlKTJ JCiVT]•
me;. hunting motion, pm-racrµoc;· [ap
pu9µia]. impressed motion, :rrpoKA.T]9&icra
{ 1tpOKA.T]'t'Tt} KtVT]O"tc;. impulsive motion, MHX., 6pµro
O"t1Ki] lCtVT]O"lc;. in motion, tv K1Vficr1:1· [K1vouµ&voc;,
T],OV }. initial phase of simple harmonic
motion, apxtKi] q>amc; U1tA.fjc; apµoVLKf\c; Ktvficri:roc;.
interpretation of the motion, tpµijvi:ucrtc; [tpµrivi:ia] 't'f\c; K1vficri:roc;.
irregular motion, a1Cav6vtcrt0c; [µft lCUVOVlKi]j KiVT]O"tc;.
irrotational motion, Cicr-rpoq>oi; Ki· vrimc;.
Lagrangian equation of motion, A.aypav~mvi] t!;icrromc; 't'f\c; Kt vficri:roc;· [t!;icr(J)()"1c; Kivficri:roc; wu Aay1Cpav~].
latent motions, A.av9avoucrm [A.rt· 9a.imj lCLViJO"&lc;.
683
~uon
684
lateral motion, 1tAEUpucfi lCtVllO"tc;. Jaws of motion, v6µot 't'fjc; ictvfJ
a&roc;. length of motion. µ~Koc; 't'fjc; JCtvf]
a&roc;. logarithmically damped amplitude
of motion, A.oyapt9µtJCGJc; a1toaj3&vvuµ&vov &upoc; JCtvf]cr&roi;.
mean motion, µfort 1CtV11<11c;. modulation of earthquake motion,
oiaµopcp1crµ6c; 't'fjc; cre1crµ11Cf'jc; !Cl vfJcreroc;.
natural motion, cpucr11Cii 1Civricr1c;. Newton's [Newtonian/ laws of
motion, v6~w1 't'ijc; 1C1 vf]creroc; wu Neu't'rovoc;· [ VEUtci>v&101 v6µ01 't'ijc; 1C1vi)creroc;/.
Newton's second law of motion, o&ut&poc; v6µoc; tiic; !CL vi)cr&roc; wu N&u't'rovoc;· [o&u't'&poc; v&utci>v&wc; v6-µoc; 't'ijc; 1C1vi)cr&roc;/.
Newton's third law of motion, 't'piwc; v&utci>v&ioc; v6~1oc; tijc; !Cl vi)cr&co:;· [ v6µoc; opacr&coc; 1cai uvnopacr&coc;/.
normal coordinates for the motion, 6p969&w1 cruvt&tayµ&vm 't'ijc; Kl vfJcrecoc;.
orbital motion, 1t&p1tpox1a1Ci'] {'t'pox1a1Ciif Kivrimc;.
oscillatory motion, taA.av't'conlCi'] Kivricric;.
parabolic motion, 1tapaJ3oA.11C1) 1Civricr1c;.
parallel motion, 1tapaA.A.riA.oc; Kivricr1c;.
perpetual motion, 1, u&11C1 v11cria. 2, U&llClVTf'l'OV.
perpetual-motion engine, ('t'6) 'ue1-1CiVT\'l'OV.
perpetual motion of the second kind, u&1Kivriwv wu o&u't'&pou doouc;.
phase angle of the motion, cpacr11Ci'] rcovia tf\c; 1C1vi)cr&coc;.
phase-plane interpretation of the motion, tpµriveun1Ci'] u1t60ocr1c; · tfjc; KL vf]crecoc; JCa't'u cpacr1 v Kai t1tht&oov.
point in motion, crriµetov tv KL vfi-cre1' {Kl VOUµ&VOV crT)µ&tOV j, ·
polygon of rhotions, 1toA.uyolvov 't'IDV KlVTJC!l"&COV.
precessional motion, µ&'t'ait't'r.on!Cfi KiVllc:hc;.
quantity of motion, itocr6't'T)c; li:1vfi-crtroi;.
radial motion, ci1Cnv1Kii KiVi,mc;. random motion, 't'll'Xaia KiVllmc;. rectilinear motion, e\>9uypaµµoc; Ki-
VllO't<;. relative motion, crx&n!Cfi dvricric;. resistance to the motion, ciV't'icrta
mc; ≤ 't'TJV 1CtVT)<1lV. retrograde motion, avaopoµoc; {6-
mcr96opoµoc;J 1d vricr1c;. rigid-body motion, MHXT., 1Ci
V11<1l<; aci>µawc; roe; crt&ppou· [ 6Mcrr.oµoc; KlVTf.<1lc;}.
rigid motion, MA0., crt&pp« Kivricric;.
rocking motion, A.11Cv1crn1Ci'J Ki vrimc;.
rotational motion, cr't'pocpucl'] KiVTt.cric;· [1t&p1crtpocp11Ci'] Kivrimc;/.
seismic motion, cr&1crµ11Ci'] lCiVTf.<11<;. shearing motion, oiatµT)n1Cfj Kivri
cric;. simple harmonic motion, aitA.f\ up
µov11Ci'] KiVT\<11<;. simple motion, Q1tAij KLVT)crtc;. sinusoidal motion, fiµ1wv11Ci'] [li
µ1wvo&1oi']c;/ 1CtVT\<11<;. solar motion, fiA.taKTJ Ki VT\crlc;' [Ki
vricric; wu f)A.iou]. space motion, l, xcopaia 1Civricr1c;·
[1CiV11<1l<; tv t<i> xci>pqi/. 2, 01acrtriµ11Ci'] KiVT\<11c;·[lCiV11<11<; tv tl!> 01acrtfJµan].
steady-state portion of the motion, crt&p&01Ca't'acr't'awv [ ( 't'O) (mo crm9&po-1to1 riµ£vri v Ka't'acrtacr1v] 't'µf\µa 't'f\c; 1ClVTJ<1&fili;.
straight-line motion, 1, eu9&1a1Cl'] KivT\crtc; [ Kivricric; t1t' eb9eiac;· &u9uypaµµoc; Kivricr1c;J. 2, eMuypaµµia· [ &U9uypaµµicr't'p1a].
strong-motion shocks froni earthquakes, cre1crµ11Cu 1tA.fiyµata ~vt6vou KlVTJ<1&fili;.
sustained simple harmonic rllotion, 7tapa't'&'t'aµ£vri aitA.f\ apµov1icil KiVll-O'tc;. .
swaying motion, alrop1 ICTJ [ 't'aA.av't'EU'l'LKii[ Kivricrtc;.
theory of the Brownian motion, 9&ropia 't'f\c; (3pouviavfjc; Kl vi}a&roi;· [0ecopia 't'f\c; K1v~cr&coc; wu Mitpaov ].
time-dependent motion, xPov&l;cip't'Tf'l'Oc; Kivricr1c;.
time-displacement curve of ground motion, KaµituA.ri xp6vr.ov-µ&'ta1C1viJcr&cov wu toacpouc;.
translational motion, µ&ta9&nKi'] KlVT\<11<;.
undamped forced motion, uvait6-<Jl3&cr't'O<; [ µi'] U1tOcrl3&vvuiiEvri J avuyKU<1'l'TJ KiVTf<1l<;' { itapat&lVOµEVT\ UV· <IYKUITTTJ Kivricr1c;J.
uniform circular motion, 6µ016-µopcpoc; [icrotaxiic;/ 1CuKA.11Cii Kivricric;.
uniform motion of a particle moving on a circle, 6µoioµopcpoc; 1Civricr1c; uA.11COU crriµ&iou C1ti lt&pupep&iuc; KUKA.ou.
uniformly accelerated motion, 6µ01-<Jµ6pcproi; tm't'axuvoµevri Kivricr1c;.
unstable motion, Ucr't'a9i']c; Kivricric;. unsymmetrical motion, acruµµ&'t'poc;
[ µi'] cruµµE't'PllCTJ} lClVT)crt<;. variable motion, µ&'t'al3A.Tl't'TJ Kivri
<nc;. variably accelerated motion, µe
wl3A.rt't'6'.lc; tm't'U;(UVOµEVT\ Kivricric;. vibratory motion, Kpixoacrµ11Ci'] Ki
vricric;· {ituA.µm1 kiVT\Ol<;/. vortical motion, 01vo&1oi']c; [ cr't'po
l31A.0&10Tic;/ KlVTfcrtc;. wave length of motion, 1Cuµa't'11C6v
µf\ICO<; 't'f\<; KlVl)cr&coc;. wave motion, KujianKfi Kivricr1c;.
motion study, MHXT., MA0., ictvriµanicl) µeA.enr [ µeA.e•ll ic1-vi) cremv].
time-and-motion study, xpovo1CtvT1-µunKiJ µeA.&nr { µEA.E't'T\ xp6vou !CUL Ktvi}cr&rov].
motivate, 1CLV'f1'tpro ( = Eµ\jfU;(;cOV(l) ii uttoicwro µe ica.•<iA.A.t)A.a Kivll•pa).
motivation, 1, 1ctviJ-rpokrt~ ( = eµ-
"'ux;con'icl) u7toiciv'f1d'1~). 2, (oTtoicwouv ii sµ\j/ux;ouv) ictviJ· 'tpcoµa..
motive, TEXN., KLVT1'tt1C6~,i],6v·{ic1-vl]'ti)p10~,a.,ov· Syepnico~,ij;OV j.
motive, 'PYX., ictV'f1'tpov.
motive power, K1vrinicl) [eyep'nicft] ouvacr1c;.
inotdr, KtV~'tl'lP° [µllxavi)· JC1V'f1•il· pac;].
motor house, auw1C1 V'f1't6crm w· [ tpox6crmw].
motor load, HAEk.., ictV'f1't'f1ptaicov cpOp'ttoV.
motorboating, <l>Y~ .• PAd.; icpo· rnA.A.tcrµ6c;.
movable, JCLV'f1't6c;,i],6v.
move, 1, ic1vro. 2, ic1vouµm.
move, MHXT.MA0., ic(V'f10'1c; ( = p1~1a, t,;a.pta, -rpli~llYµa x;a.pnou, cretpa ttm~iµawc;, ictA..).
chance move, wxri pa [ cruv't'llxtaJCli I Kivricr1c;.
personal move, 1tpocrcomKit [i>it6· K&lµ&VlKft/ KLVT\<11<;.
movement, 1, icivllµa· [icivllcrt~J. 2, OLUlclVTJO'l~.
backward movement, avciopoµoc; KLVTfcrtt;• { UVUOpoµT)crl<;/.
bending movement, kaµ1tnKit KivTt.crtc;.
Brownian movement, J3pouvtavi} Kivricric;· [13pouvtcrµ6c;· 1ti}oricrtc; wG M1tpaov ].
handling and movement of materials, xe1p1crµ6c; Kai 01uKivTt.crtc; trov uA.11C6'.lV.
mathematics of movement and change, µa,9riµan1Cu ti'\<; Klvi}O'&roc; Kai 't'ijc; O.A.A.ayf\g.
relative movement, O';(&'t'IKft Kiv11-dl~.
Ms
·; movement of solid figures
speed of relative movement, tax,u. tnc; {tfjc;) crx,EttKfjc; Ktvi]cri:roc;.
movement of solid figures, oimdvricni; (trov) O"tEpSCi'>V <rXl')µa:trov· {idVl')crti; 't"Ci'>V O"'tSpSWV <rXl')µ<i't(J)V j.
movement of the pressure wave, otaKLVl'J<rti; {Kivricrii;j wu KU· µawi; mtcrsroi;.
moving average, 1:TAT., KtVl')'tOi; ot<iµscroi;· { Ktvl')'toi; µtcroi; opoi;j.
moving load, MHXT., Ktvl')'tOV {Kt· vouµsvov J cpop'tiov.
action of moving loads, opiicnc; {&rt&vtpy&ta] t&v Ktvntrov <p0pt[rov.
moving mass, Ktvl'J'tt') {Ktvouµtvri] µat:a.
velocity of the moving mass, tax,uvcnc; tfjc; Ktvouµtvnc; µa~nc;.
moving of a circle, Ktvouµsvoi;,11,ov imi rrspupspsiai; KUKA.ou.
uniform motion of a particle moving on a circle, 6µot6µopcpoc; Kiv11cr1c; uA.1Koll crnµ&iou &rti 7t&p1cp&peiai; KUKAOU.
moving particle, Ktvll'tOV crroµ<inov· {Ktvouµsvov uA.1Kov crriµstov ].
hodograph of a moving particle, 60oypacpnµa Ktvouµtvou UAIKOll crnµeiou· [ 60oypacpriµa Kl vouµtvou crroµat[ou].
moving point, Kt Vl'J'tOV { Ktvouµsvov J mwstov.
moving trihedral, Ktvouµsvov 'tpisopov.
moving trihedral of a space curve, lClVOUµSVOV 'tpisopOV xropaiai; KaµrruA.11i;.
moving trihedral of a surface, Kt· vouµsvov wisopov &rttcpavsiai;.
rotation of the moving trihedral
686
multidimensional systems
of a surface, (7t&p1)crtpocpfl wu Ktvouµtvou tp1topou (µuic;) emcpavi:iac;.
moving trihedral of a surface (relative to a curve on the surface), Ktvouµsvov 'tpisopov tmcpuvsiai; (crxsnK&i; rrpoi; 1CaµrruA.11v 'tfji; tmcpavsiai;).
multiaddress system, AOrI:EM., rroA.uo1<iµovov crucr'tl')µa.
multiaddress system of commands (for computers), rroA.uot<iµovov <rU<r'tllµa rtpocr'tayrov (our wui; A.oy1crµ11't<ii;).
multiaspect search, rroMrrA.supoi; [rroA.ucrxiot')i;] tpsuv11crti;· {rroA.u0sroptKt') UVUS ij'tllO"ti;}.
multiconstant, MA0., rrA.sio(vo)<r'ta0sp6i;,<i,6v· { rroA.ucr'ta0sp6i;,. <i,6v ].
multidegree of freedom structure,. o6µ1')µa {cpopsui;j rroA.u~a0µio~ tA.su0spiai;· [ooµriµa rrA.st6vrov ~a0µ&v tA.su0spiai;].
multidegree of freedom systems, cru<r'ti]µa'ta rroA.u~a0µiou tA.su0spiai;· { crucr'tijµa'ta rrA.s16vrov ~a-0µrov tA.su0spiai;].
multidimensional, rroA.uot<icr'tawi;,, oi;,ov.
multidimensional coordinate geometry, 1tOAUOtU<r'tU'tOi; <rUV'tS'tUyµtv11 ysroµs'tpia.
multidimensional Euclidean space,. rrot.uoi<icrtawi; soKA.siosioi; xropoi;· { sotlsiosioi; x&poi; rtA.s16-V(J)V Ota<r"CUO"S(J)V ].
multidimensional geometry, rroA.uoi<icr'tawi; ysroµs'tpla.
multidimensional systems, rroA.uoi<i-
multi graph
cr'ta'ta crucr'tijµa'ta; {crucr'ti}µa'ta rrA.st6vrov oiacr't<icrsrov]. ·
multigraph, MA0., rro/ ... uyp<icpriµa.
multifoil, I'EQM., rroMcpuA.A.ov.
multilinear, rroA.uypaµµ1K6i;,i],6v.
multilinear algebra, rroA.uypaµµtKt') CiA.ys~pa.
multilinear form, rroA.uypaµµuct') µop<pi].
multilinear function, rroA.uypaµµ11Ct') cruv<iptl')crti;.
multilingual, I, rroA.Uy A.rocrcroi;,oi;,ov. 2, OIK., rroA.us0viji;, i]i;,ti;.
multimass problems, rroA.uµal;txa rrpo~A.i]µa'ta· { rrpo~A.i]µa'ta rroA.A.arrA.fji; µ<il;rii;J.
multimass structures, rroA.uµal;tKa ooµijµa'tU' {ooµijµam rcoA.f...a-7tAfji; µ<il;rii;· rroA.uµal;tKoi cpopsti;· <popsii:; rroA.A.arrA.1ii; µ<il;11i;J.
multimodal, MHXT., rroA.u'tporroi;, oi;,ov· { TCOAU'tpOTCl'J'ttKOi;, i],6v J.
multimode elastic system, rro/.U'tponov { rroA.utporrrinKov] tA.acrtt'ICOV crucr'tl')µa.
multimode system, rro/.u'tpom1nKOV { rroA.u'tporrov] cru<r'tll µa.
multinomial, noA.urovuµ1K6i;, 1) ,6v· {rcA.strovuµ1K6i;,i],6v ].
multinomial, rroA.ucilvuµov· { rrA.s1ci:>vuµov ].
multinomial theorem, rrA.s1rovuµ1Kov 0srop11µa.
multipartite, rroA.uµspiji;, 11i;,ti;· { rroA.UrrA.supoi;,oi;,ov }.
multipath transmission, <l>Y1:., rcoA.oopoµtKt') µsruoomi; (aKnvo~oA.iai;).
multiple-length number
multiple, rroA.A.arcA.oui;,fj,oov· {itoA./ ... arcA.amoi;,a,ov].
multi pie, rroA.A.arrA.<icrtov. in multiple, &v rtoA.Aart/.ql' [ev rta
pal.A.i]A.cpj. (I:YN.: in parallel). least [lowest] common multiple,
&A.ax,icrtov KOIVOV 1tOAACl1tAUUlOV.
multiple address, AOrI:EM., nol....Aarcl.fj oia~wvij.
multiple-address code, AOrI:EM., rrol...uotaµovoi; K&ot~.
multiple-address instruction, AOrI:EM., rroA.uoi<iµovoi; tvrnl...iJ.
multiple algebra, MA0., noA./.arcA.fj dA.ys~pa.
multiple cohesion, MHXT., rco!...J.anA.1') O"UVSK'ttlCO'tlli;.
multiple-column matrix, nl ... st0v6-crT11A.ov µ11'tpstov.
multiple correlation, rroA.A.anA.fj cr6-crxtnmi;.
multiple correlation coefficient, cruv'ts/ ... scrn)i; rro/...A.arr.A fji; crucrxs'ti.; crsroi;.
multiple-degree of freedom systems, crucr'tijµam rro.Au~a0µiou tl...su-0spiai;· { crucr'tijµam rrl...st6vrov J)a0µrov t.Asu0spiai;].
multiple integral, noA.A.a7t/...ouv oA.o'ICATjproµa.
second variation of a multiple integral, oeuttpa µetaA.A.ayl) {toll) noA.A.artA.oll 6A.0KA.11p<ilµatot; .
multiple-integral problems, npo~A.i}µa'ta rroA.A.arr/...&v 6A.0K!...11proµ<i'trov (mu /...oyicrµou tow µstaA.A.ayrov ).
multiple-length number, AOrI1:M., up10µoi; rtol...l...a'TtAOU ,µl)Koui;· { 4-:
68?
multiple point
pt0µoi; 7toA.A.a7tA.i\i; em11Cptj3eiai;].
multiple point, 7toA.A.a7tA.o\'lv crrrµetov.
multiple point on a curve, 7toA.A.arrA.ouv crriµetov icaµm'.>A.ric;.
multiple-point tensor field, 7tA.etocrriµeiaicov [ 7toA.A.a7tA.ouv] i-avucrµanicov 7teoiov.
multiple prediction, ~TAT., 7toA.A.a7tA. i'j 7tp6~A.e\jft<;.
multiple programming, AOrU:M., 7tOAAU7tAOU<; 7tpoypaµµtcrµ6c;.
multiple proportion, 7toA.A.a7tA. i'j Ct.vaA.oyia.
(Dalton's) law of multiple proportions, (oaA. 1rov1avoc;) v6µoc; 16.'>v 1toA.A.a1t/..&v ava/..oyt&v.
multiple punching, A.OrI~M., 7toA.Aa7tA.i'j ouitp11crtc;.
inultiple root of an equation, 7tOAAU7tA fj pi~a &stcrc:i>creroc;.
multiple scattering, 7toA.A.a7tAoDc; mceoacrµ6c;.
multiple series, 7toA.A.a7tA.i'j cretpa.
multiple-stage, = multistage.
muJtiple tangent, 7tOAAU7tA. i'j &cpa-7ttoµtv11.
multiple-valued, 7tA.eio(v6)nµoc;,oc;, ov.
multiple-vallied analytic function, reA.eiov6nµoc; ava).unKij cruvapi-ri cric;.
branch of a multiple-valued analytic futietion, KAaooc; (t"fjc;) 1tA.&1ovotiµou avaA.uttKfjc; crovap1i]cr&~.
multiple-value function, 7tA.etov6nµoi; crovaptl'Jcrtc;.
multiple-vihi~a function of • ce>m-
688
muliiplicatioi
plex variable, 7tA.eiov6nµo~ cruvapi-ricrtc; µiyaouci'jc; µeta~A.Tttfli;.
multiplexing, PAA., 7toA.tiicA.oK1) [ 7toA.U7tA.esic;] ( = i-aot6x;povog 7tOAOEK7tOµml).
multipliable, 7tOAA<l7tAUO'Ul0'1.µoc;.~. ov· [ 7toA.A.a7tA.acrmcri-toc;,a,ov].
multiplicable, 7toA.A.a7tA.acriacrrfog,a. ov.
multiplicand, ( 6) 7toA.A.a7tA.d.crtacrt&oc;.
omltiplication, 7toA.A.a7tA.acrmcrµ6c;. abbreviated multiplication, cruv10-
µ1K6c; [ cruvt&t"µT\~lEVOc;] 1tOAAU1tAacnacrµ6c;.
abridged multiplication, cruvtoµoi; [ trri toµoc;] , 1to/..A.a1tAacrtacrµ6c;.
algebraic multiplication, aA.y&~ptKOc; 1tOAAU1tAamacrµ6c;.
arithmetical multiplication, ap10µrittK6c; 1tOAAa1tA.amacrµ6c;· [1tdA'A.an/..amacrµ6c; tfic; cipt0µrittKi;c;].
associative law in multiplication, crove1pµ1Koc; {otaA.uwcoc;] v6µo~ toil 1tOAAarrA.amacrµoi:\.
associative · multiplication; crovetpµ1K6c; {otaA.unKoc;] 1tOAAU1tAUcrta.crµ6c;.
combinatorial multiplication, crovoua.crµucoc; { O"UVOUUO"'t'tKOc;j' 1tOA'A.a-1tAUcrta.crµ6c;.
commutative law of multiplication, avnµrn;c0&WCOc; { QVtal..A.aKttKO(;j VOµoc; toU 1tOAAU1tA.a.crtacrµoi:\.
commutative multiplication, civttµ&ta.0&ttK6c; 1tOAAU1tAUcriacrµ6c;.
commutative principle (of multiplication), avtaAAU.KttKll { avttµ&tli-0&ttKi]j iot6tric; (toii 1tOAAli1tA.ama.crµou).
complex multiplication, ~i1ya8iKOi; 1toA.A.a1tAacr1a.crµ6c;.
compound multiplication, croµµtY:ilc; 1toA.A.a1tA.a.ma.crµ6c;.
corts~nts " of multiplication, &ca.0&pai toO 1tol..A.mt;l..acr1acrµol>.
multiplication by a fraction
cross multiplication, l, = duodecimal multiplication, 2. 01a.yoov1oc; 1toA.;l..an/.a.macrµ6c;.
distributive multiplication, ~1tlµEptv'ttK6c; 1tOAAll.1tAUcrta.crµoc;.
distributive property of multiplication, tmjl&ptcrttKi] iot6tric; toii 1tOA/,anA.amacrµou.
duodecimal multiplication, OroO&KaOllCOc; 1tOAAa1tAacrtacrµ6c;.
generalized definition of multiplication, yevtK&uµ&voc; 6p1crµ6c; toii 1tOl.A.arrA.a.criacrµou.
geometric multiplication, yeroµ&tptx6c; 1tol..A.a1t/ .. a.crtacrµ6c;. (LYN.: outer multiplication).
inner multiplication, tcroot&poc; [tcrrot&p1K6c;] 1to/) .. a1t/..acrta.crµ6c;.
la\v of signs in multiplication, v6-µoc; t&v miµ&irov 8ui t6v 1tOAAU1tA.a.ma.crµ6v.
logical multiplication, LYMB.AOr., /..oytKoc; 1tol..A.a.rrivama.crµ6c;.
matrix multiplication, µ11tp&ta.Koc; 1tOAAa.1tA.acrta.crµ6c;.
outer multiplication, t~oot&poc; [t~ro-r&ptK6c;] 1tol..A.arr/..amacrµ6c;.
progressive multiplication, 1tpooo&uttK6c; 1tOAAU1tAa.crtacrµ6c;.
proof of multiplication, ooKtµi] [f>acra.voc;] toii 1tOAAa1t/..amacrµou.
regressive multiplication, ava.8poµ1-K6c; 1tOAAa1tA.amacrµ6c;.
relative multiplication,crxerncoc; 1i:o;l..A.arr/.ama.crµ6c;.
scalar multiplication, KA.tµaKrotoc; 1tOAAa1t/..a.ma.crµ6c;.
sign of multiplication, crriµerov · toii 1tOAAa.n/.amacrµou.
theory of complex multiplication, 0Eropia toii µiyaotKOU 1tOAAU1tAa.crtacrµou.
vector multiplication, ltvucrµattKOt; 1tOAAa.rr/..acrtacrµ6c;.
multiplication by a fraction, 7toA.A.a-7tAacnacrµoi; £7ti kA.<lcrµa.
multiplicanoii by a scalar, 7to/..Aa-7tA.acnacrµoc; &xi 1CA.tJ111.ica>µa.
maltlplicatii>n ()f vettori
multiplication by meiilis of aetached coeffieients, 7toA.A.a7tA.acnad"µoi; µtcrcp trov U7t00'7tU0"0&vtrov cruvteA.ecrtrov.
mtdtiplicatiod by zero, 7toA.A.a7tAacrtacrµoc; e7ti to µ11o&v.
multiplicatiod factot, 7toA.Aa7tA.acnacrrncoc; 7tapciycriv.
effective multiplication factor, opacrttKoc; 1tOAAUltAat:na.crttK6c; 1ta.payrov.
multiplication of a determinant by a constant, 7toA.A.a7tA.amacrµo<; opt~oucrric; E7tl crta0epliv.
mi.dtip1ication of complex numbed, 7tOAAa7tA.dcrtacrµoc; µtyaotKWV apt0µrov.
multiplication of decimals, 7toA.A.a-7tA.atnacrµoc; oelCaodcrov.
multiplication of determinants, 7toA.A.tt.7tA.ncnucrµoc; o pi~otcrrov.
multiplication of infinite series, 7tOAA<l7tA<lO'taO'µoi:; U7teiprov cretprov.
iiiu1ti11lication of matrices, 1toiJ.a-7tA.acrtacrµoc; µ11i-pdrov.
multiplication of mixed numbers, 7tOA.A.a7tA.acrtacr~toc; µtictrov apt-0µrov.
multiplication of polynomials, 7toA.A.a7tA.acnacrµoc; 7toA.orovi>µrov.
multiplication of tensors, 7toA.A.a-7tA.amacrµoc; i-avucrµai-rov.
inner multiplication of tensors, tcrootepoc; [tcrrot&ptKoc;] 1to;l../.aii:A.amacrµ6c; (t&v) ta.vucrµatrov· [ crllv-0&crtc; tavucrµatrov].
multiplication of vectors, 7toA.A.a-7tA.ticnacrµoc; avtd'µiito:lv.
cross product of the multiplication
689
multiplication of versors
of vectors, crtauprotov [ dwcrµanKov] r1v6µtvov to() itoA.A.aitA.acnacrµo() (tli'lv) dwcrµ<hrov.
dot product of the multiplication of vectors, crnyµtKov [ecrrottptKov] 'Yl v6µtvov to() itoA.A.aitA.acrtacrµo() (tli'lv) dwcrµatrov.
inner product of the multiplication of vectors, ecrrottpov {ecrro<tplKOV j y1v6µtvov to() itoA.A.aitA.acrw.crµoil (tli'lv) dwcrµatrov.
scalar multiplication of vectors, KA.iµaKrotoi; itoA.A.aitA.acrtacrµoi; dwcrµfrrrov.
vector multiplication of (two) vectors, dvucrµanKoc; itot..A.aitA.acnacrµoi; (Mo) dvucrµ6.trov.
multiplication of versors (in quaternions), 7tOMa7tA.acrtacrµoc; cri-poq>icrµlii-rov (mu A.oyicrµou i-rov 'tEcrcrapirov ).
multiplication sign, crriµi;iov [ cruµ~oA.ov] wu 7toA.A.a7tA.acrtacrµou.
multiplication table for Hamiltonian numbers, 7toA.A.a7tA.amacrnKoc; 7tiva~ oia x;aµiA.wvtavouc; api0µouc;.
multiplication table for imaginary quantities, 7tiva~ 7toM.a7tA.amacrµou i-rov q>avi-acrrncrov 7tocroi-ij-rrov.
multiplication tables, 7toA.A.a7tA.acrtaai-ucoi 7ti vairnc;· [ 1ti vaic&c; 7toA.A.a-7tA.acrtacrµou ].
multiplication theorem, 0i:eopriµa 7t&pi wu 7toA.A.a7tA.acrtacrµou.
multiplicational, 7toA.A.a7tA.acrtacrµtK6c;, ij,6v.
mol?~licative, 7toA.A.a7tA.acrtacrwc6c;, ri,ov.
multiplicative axiom, AOr., 1toA.A.arrA.acrtacrwcov &.~i(l)µa.
690
multiply
multiplicative function, 1toA.A.a7tA.aaiacrnici) cruvaptricrtc;.
multiplicative numeral, 1toA.li.a7tA.acrtacrnicov apt0µrinic6v.
multiplicative system, 1toA.li.a7tli.acrtacrnicov crocri-riµa.
multiplicative variable, 7tOAt.a7tA.a-crtacrnici) µi;i-a~A.ri-rij.
multi plicator, 7toli.A.a1liA.acriamijc;.
multiplicity, 7toli.A.a7tA.6tric;.
multiplicity of a curve, 7toA./.a7tA.6tri~ icaµ7tuA.ric;.
multiplicity of a root of an equation, 7toA.A.a7tA.6-rric; pil;ric; t~tcrcl>cr&roc;.
multiplicity of functions, 7toli.A.a-7tA.6tric; ( t©v) cruvapi-ij cri;rov.
multi plied, 7toA./,.a7tA.acrtacr0eic;,&icra, tv.
manifoldly multiplied, 1, itoA.uittUKtroi; ito.A.A.a7tA.acriacr0tii;,ticra,tv. 2, = manifold.
multiplied by, E7ti. a multiplied · by b, a titi 13.
multiplied into, 7toA.li.a7tA.acrta1;6µ&voc;, Tl ,ov s7ti · [ t7ti J.
multiplier, 7toA.A.a7tA.acrtacri-ijc;. Babbage multiplier, itot..A.aitA.acna
crti]i; toil M7taµ7tat't~. indeterminate multiplier, d7tpocr0i6-
picrtoi; 7toA.A.aitA.acrmcrtf]c;. Lagrange's method of multipliers,
µt0oooc; trov 1toA.A.a1tA.acrmcrtrov · wu Aa-yKp6.v~· [µf.0oooc; tiilv A.aypav~tavrov 1to)J,aitA.acrtacrtiilv J.
multiplier principle, OIK., 7toli.A.a-7tA.acrtacrt.tici) apxl).
multi ply' 7tOAAU7tAUcrtat;ro.
multiply, 1tOAAU7tA.©c;.
mult,jply connected domain
multiply connected domain, 1toA.li.a-7tA.©c; O'UVil1t'tTJ 7t&ptox;ij.
conformal maps of multiply connected domains, cruµµopcpot tiicovtcrµoi itoA.A.a1tA.iiic; cruva1ttrov 1ttpwxrov.
multiply connected map, rroA.li.a-7tA©c; O'UVil7t'tOc; dx:ovtcr~L6c;.
canonical types of multiply connected maps, 0tcrµtKoi tuitot itoA.A.a-1tAO'lc; cruvaittiilv dicovtcrµiilv.
multiply connected region, 7toli.A.a-7tli.©c; O'UVU1t'tTJ 7t&ptox;l).
multiply isomorphic, 7toA.li.a7tli.©c; icr6µopq>oc;,oc;,ov.
group multiply isomorphic with another, 6µa:; 1tOAAa1tA.iiii; µet' iiA:Aric; icr6µopq>oc;· [ 1tot..A.a1tA.wi; icroµopq>oil-cra itpoc; lit.A.riv 6µ6.c;]. ·
multiply periodic function, 7toA.A.a-7tA.©c; 7tEplOOLX:1) cruvaptricrtc;.
multiplying, 7tOAAa7tA.acriacric;· [ 7tOAA.attA.acrtacrµ6c;}.
multiplying factor, noA.li.a7tli.acrtacrwcoc; 7tapuyrov· [ 7tol-A.a1tA.amacri-ijc;}.
unknown constant multiplying factor, liyvrocrwc; crta0tp<'>c; 1toA.A.aitA.acrtacrtticoc; 1tap6.yrov.
multiprecision arithmetic, 7tOAU&7taicpt!}l)c; apt0µrinicij· [ upt0µrinicl) 7tOAAU7t/,. fie; errax:pt!}&iac;}.
multiprocessor, AOrI~M., 7toA.uµ&tayroyrii-ftc;.
multiprogramming, AOrU:M., 7toA.u7tpoypaµµtcrµ6c;.
multi purpose, nA.&tcrt6X.PTI crrn<;,oc;, ov.
multispan beam, MHXT., 7toA.uotavotic-roc; oox:oc;· [oox:oc; 7toA.A.wv otavoiyµui-rov].
multistage, 7toA.ucri-uoioc;,oc;,ov· [ 1tO-
multivibrator circuits
A.ucr:xiol)c;, iJc;,&c;· 7toli.tiµi:piJc;, iJc;, tc;].
multistage decision processes of . stochastic type, 7tOAUO''tUOtot a-7to<pacrtaicai otaotx:acriai wu crwx;acr'ttlCOU 'tU1tOU.
multistage planning process, rroA.ucri-aowc; [ 7toA.ucrx;1ol)c;] 7tpocrx;&· otacrµuci) otaoumcria.
multistage rocket, 7toA.ucri-aotoc; [noA.ucrtaowc; [ 7toA.u6poq>oc;] 7t6-pauA.o<;.
multistage wave, 7toA.ucri-uotov [1toA.ucrxioec;] icuµa.
multistory building, 7toA.u6poq>ov K'tlf)LOV" [ 7tOAU6poq>oc; OllCOOO~Lij j.
multistory frame, 7toli.u6poq>ov rrli.aicrtov.
multistory structure, 7toA.u6poq>ov ooµriµa· [ 7toA.u6poq>oc; q>opi;oc;J.
symmetrical multistory structures. croµµt"CplKU 1tOA.u6poq>a ooµi]µata• [ cruµµttpticoi itoA.uopoq>ot cpop&i.c;].
multitude, 7tA.ri0uc;· [ 7tA.fi0oc;]. infinite multitude, ii1tttpov itA.f\9oc;.
multivariate, MA0., 7toA.uµ&ta~A.11-crtmc6c;, ft,6v.
multivariate algebra, 7toA.uµi:·ta~A.11-ata1Ci) iili.y&~pa.
multivariate distribution, 1toli.uµ&-ra~A.ricriaicft icai-avoµft.
multivariate probability functions, cruvapi-ijcr&tc; noA.uµ&ta~A.11criax:fic; m0av6i-11-roc;.
multivibrator, HAEK., 1tOAUOOVT1-tftc;.
multivibrator circuits, rroA.uicpaoacrµix:u KuicA.roµai-a.
691
l
p!)ase plar;ie for multiviprator circuits, cpacmcov £7ti7tEOOV -r&v 7toA.u-Kpaoacrµucrov KllKA.wµO.-rrov. ·
muon, <I>TI., µu6v1ov.
qilltation, BIOA.,MHXT.MA0.,aA.µ<itrocnc; ( = UA.µanKi) µ&tuPo/.1)).
progressive mutation, 7tpooOEU'tl· KTJ af..µ6.-rrocrti;.
regressive mutation, avaopoµix:iJ ciAµu-rrocr1i;.
mutatis mutandis, AOr., 'tT)pouµtvrov 'tWV ava.A.oy1&v.
mutual, uµo1Paioi;,a,ov.
mutual action of currents, HAEK., uA.A.riA.(&7t)&vtpy&1a [ at.t.ril.&1tiopa:cm;] 'tWV peuµat(J)V.
theory of the mutual action of currents, 0Eropia -rf}i; Q.A.A.TJAE!tEVEP· YEiai; [0&wpia -rf}i; UAATJAE!tlOpacr&roi;] -rrov peuµa-rrov.
mutual funds, OIK., uµo1paia taµi&uµi:tta. (1:YN.: open end investment funds).
mutual inductance, HAEK., ut.Ari/.1mayroy11}6tT)i;.
mutual induction, HAEK., at.l.ril.&1tayroyl).
mutual information, AOrI1:M., a-
692
µoipaia 7tli.T)pocp6pricni;· [ uA.A.riA.o7tl.TJpocp6pTJcni;].
mutqaJity, dµo1Pm6tT)i;.
mutually, uµo1pairoi;·[a7to x:o1vou }.
miJtuaJJy equiangular polygons u-µ01Pniroi; icroy<i>v1a 7toA.6yro~a.
mutually equilateral polygons, uµ01pairoi; icr67tA.&upa 7toA.Uyrova.
prntu~ly exclusive events, 1:TAT., uµo1Pairoi; a7tox:A.e16µeva [aA.t.11A.oa1totl&16µeva] cruµpciV'ta.
mutually perpendicular directions~ K:ci0&'to1 7tpoi; O.A.A.l)A.ai; oi&u06vcre1i;.
mutu:itly per~endicular tange~ts~ 1ca0&'t01 7tpoi; a/./.111.ai; ecpa7t-r6-µ&vat.
muzzle, BAHT., crt6µ10v (7tupoP6A.ou o7tA.ou ).
muz~le velocity, BAHT., crtoµ1mo'a -raxuvcr1i;· [ taxutTJi; crtoµiou ].
myriametric wave, µup10µ&-rp11cov [ µup16µ&'tpov] Kiiµa.
mystic hexagram, µucrttlCOV el;<iypaµµa.
Pascal's (mystic) hexagram (µum1x:6v) tl;aypaµµa wu Ilac:ncc:0...