ip sur rpt perron's grid 102€¦ · iv- data presentation.....3 v- discussion s....
TRANSCRIPT
l l l l l l l l l l l ll l l l l l l
32D12SEe7ei 2.1217e HOLLOWAY 010
INDUCED POLARIZATION SURVEY
PERRON'S GRID 102
HOLLOWAY-MARRIOTT TWP.
KIRKLAND LAKE, ONTARIO
July 1988
RECEIVEDFEB 81989
LANDS SECTION
lm 3aoiasE*7ei a.iai7e HOLLOWAY 010C
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
l
CONTENTS
I- INTRODUCTION.............................2
II- LOCATION 6 ACCESSIBILITY.................2
III- INDUCED POLARIZATION SURVEY..............2
IV- DATA PRESENTATION........................3
V- DISCUSSION S. INTERPRETATION. . . . . . . . . . . . . . 3
VI- CONCLUSIONS AND RECOMMANDATIONS..........7
IT i i i i i i i i i i i i i i i i l i
-2-
I- INTRODUCTION
During the months of April, May and June 1988, an induced
polarization survey was carried out on the Perron's grid 102
property, in an attempt to outline stratigraphic horizons of
disseminated sulfides.
II- LOCATION S ACCESSIBILITY
The Perron's grid 102 property located at the northeast corner
of Holloway Twp. and at the northwest corner of Marriott Twp. in
Northern Ontario. Situated at about 50 kilometers north-northeast of Kirkland Lake, Ontario, and is accessible via Harker-Holloway
access road up to highway 101 going east to Holloway Lake from therei
l -1/2 to 2 miles south by muskeg road. The east part of the propertycross the highway 101 from line 30 E to line 47 E, the east part of
the property is at 7,0 Km from the Quebec border.
The Perron's (grid 102) propertyconsists of 97 mineral claims.
The survey was conducted on claims:
PERRON'S (GRID 102) CLAIMS;
980255 to 980316 (62)
980323 to 980325 (3)
980332 to 980359 (27)
980467
981409
981410
982884
982975 = (5) .
97 CLAIMS
III- INDUCED POLARIZATION SURVEY
The dipole-dipole induced polarization survey was carried out
over a 200 meters grid line system. A total of 63,8 kilometers of
l l l l l l l l l l l l l l l l l l l
-3-
50 meters spreads ^1 to 3 and some to NM. The .25 S 4.0 hertz frequencies were used during the survey. A Phoenix I.P. V-l receiver and l.P. T-l transmitter was used to carry out the survey with a generator of 2.0 Kw.
The data has been plotted on pseudo-section. The induced pola rization method is mainly used to detect disseminated metallic sulfides. The frequency effect is derived from a normalized different frequencies. The frequency effect anomaly intensity is related mainly to the total surface of disseminated sulfide grains and the percentage of disseminated sulfides in the rock and sulfide grain size.
IV- DATA PRESENTATION
The maps and pseudo-sections of the calculated apparent resis tivity and percentages of frequency effect are included in this report.
1) Surface projection of the interpreted I.P. anomaly zone;2) Frequency effect, surface projection of N=3;
3) Apparent resistivity, surface projection of N^S;4) Apparent resistivity, frequency effect and metal factor
pseudo-sectons are presented in this book.
V- DISCUSSION St INTERPRETATION
Numerous complex anomalous patterns have been observed from the obtained data. Examination of the pseudo-sections reveals 13 anomalous zones.
Anomalous zone 11Anomalous zone #1 start from line 26+00 W to line 14+00 W.
Line 26+00 W between 5+00 S to 5+50 S shows a lower resistivity of
about 250 to 450 Ohm-meters with a frequency effect of about 1.31 at N=3 St 4.
l l l l l l l l l l l l l l l l l l
-4-
Line 24+00 W shows about the same as line 26 W. On line 24+00 W, the conductor between 4+25 S to 5+00 S with F.E. of about 1.01 about
10 times the background of .1*. Line 24 and 26 W are in flat ground
covered by clay. The response shows weaker due to the overburden
(clay).
Line 22 W between 4+00 S show an increase in F.E. at Ns 3 and NM up to 1.6% about 15 times the background of .1*. This
conductor in a higher resistivity close to the hill.
Line 20 W shows a conductor between 5+00 S to 5+50 S with F.E.
of about 2.0*^ in a higher resistivity. Couldn't get the readings
past 5+50 S due to the cliff (no contact for electrodes).
Line 18 W shows a conductor between 4+50 S to 5+50 S about the
same as line 20 W.
Line 16 W and 14 W show a weaker anomaly between 4+50 S to 5+50 S in a higher resistivity of up to 10,000 Ohm-meters and F.E.
of up to 1.9%. The high resistivity is due to outcrop close to
surface couldn't do the line further south due to the high hill
(cliff) bad contact. For anomalous zone #1, line 26 W, 24 and 22 W
show to be the best line for a drill hole.
Anomalous zone 12Anomalous zone #2, on line 8 W and 10 W, shows to be weak
response. On line 10 W, the conductor is between 8+50 S to 9+50 S
on a high hill resistivity of up to 50,000 Ohm-meters and F.E. of
up to S.3%.
Line 8 W between 10+50 S to 11+75 S in high resistivity of about
30,000 Ohm-meters with F.E. of up to e.5%. For the line 8 W and
10 W a close look at the rock type on top of the hill to see if that
conductor is due to sulfide or magnetite before attempt any drilling
in that area due to rough topography.
l l l l l l l l l l l l l l l l l l l
-5-
Anomalous zone f3Anomalous zone #3, on line 2 E and 4 E. Line 2 E shows a higher
F.E. of about g.0% to 11.(^ at N**3 and 4 between station 5+50 N to
6+25 N in a resistivity of about 5,000 to 9,000 Ohm-meters.
Line 4 E between 4+25 N to 5+00 N F.E. of up to 6,73; in a lower
resisstivity of about 2,000 to 3,000 Ohm-meters. Line 2 E shows to be the best line to do any drilling for anomalous zone #3.
Anomalous zone #4Anomalous zone #4, on line 16 E, shows a weak zone between 11 N
to 12 N F.E. of up to 6.21; in a high resistivity zone of about 30,000
Ohm-meters. This conductor should be check on surface, outcrop close
to surface to see the cause of that increase in F.E. if it due to
sulfide.
Anomalous zone f5Anomalous zone #5, on line 26 E to 28 E, this conductor shows a
weak response. The increase of F.E. of up to 6.0% with a very high
resistivity could be due to that very high resistive zone of about
80,000 to 200,000 Ohm-meters. A close look at surface on line 26 E
between 7+50 N to 9+00 N for alteration zone.
Anomalous zone f6Anomalous zone #6, on lien 18 E to 22 E, shows weak response.
Line 22 E between 5+50 S to 6+50 S shows F.E. of about 1.41 in a lower
resistivity of about 200 Ohm-meters. Line 20 E shows a weak response
betwen 5+00 S to 6+00 S in a lower resistivity of about 200 to 300
Ohm-meters at ^2, 3 with F.E. of about .9%.
Line 18 E, between 4+50 S to 5+50 S shows a weak response in
F.E. in a medium resistivity of about 1500 to 2,000 Ohm-meters with
an increase in metal factor for line 18 E, 20 E and 22 E.
l l l l l l l l l l l l l l l l l l l
-6-
Anomalous zone #7
Anomalous zone #7 between line 30 E to 38 E. Line 30 E shows
a weaker response between station 6+00 S to 6+50 S small increase
in metal factor.
Line 32 E about the same as line 30 E, between 6+00 S to 6+75 S,
small increase in F.E. of about 2.^ in a lower resistivity of about
1500 Ohm-meters.
Line 34 E, zone between 6+00 S to 6+75 S, good increase in metal factor fue to lower resistivity.
Line 36 E, zone between 6+50 S to 7+50 S with F.E. of about
4.0% in a lower resistivity of about 400 Ohm-meters with an increase in metal factor.
Line 38 E, zone between 7+50 S to 8=50 s an increase in F.E. of up to 1.5% in a low resistivity.
For anomalous zone #7, the best line for any drilling is line
36 E.
Anomalous zone #8
Anomalous zone #8 is caused by a steel pipe 3' diameter that
cross the highway 101.
Anomalous zone 19
Anomalous zone #9, on line 40 E and 41 E. On line 40 E f between
station 0+50 S to BL. a low resistivity down to 100 Ohm-meters with
F.E. of about 7.0% at 13=3 S Ns 4 narrow zone probably shear or fault
zone at about 60 to 80 meters deep below surface. Line 41 E shows
weaker response on F.E. 1.0% to 1.^. The same low resistivity low at ^3 as line 40 E. Best line to drill is line 40 E between 04-50 S
to BL..
Anomalous zoen f10Anomalous zone #10, on line 41 E at station 0+75 N to 1+25 N,
shows an increase of up to 1.0% in F.E. in a higher resistivity 1,500 to 2,000 Ohm-meters. This zone is covered by clay it may shows
a weaker response due to the clay.
l l l l l l l l l l l l l l l l l l l
-7-
Anomalous zone f11
Anomalous zone #11, on lien 38 E, shows a weak response at Ns 3 with F.E. of I,Q* in resistivity of about 500 Ohm-meters.
Anomalous zone #12
Anomalous zone #12, on line 36 E and line 44 E didn't pick up on line 38 E. Line 36 E between 6+00 N to 7+00 N F.E. of about S.0%
at N=3 to 4 in a higher resistivity. Line 40 E shows a better shape
anomaly between 500 N to 600 N in a lower resistivity of about
400 Ohm-meters with F.E. of about 1.2% about 10 times the background of .life flat area covered by clay.
Line 40 E shows to be the best line for any drilling of anomalous zone #12. Line 42 E between 4+25 to 5+00 N, F.E. of up to 1.0?; in
a no change in resistivity, small increase in metal factor of about
6 times the background. Line 44 E between 3+50 N and 4+00 N same
as line 42 E.
Line 46 E, between 2+75 N to 3+25 N, increase in metal factor
of up to 2.0 to 2.5** in M.F.. Zone #12 should be tested by drilling
on line 40 E and second choice, line 44 E.
Anomalous zone #13
Anomalous zone #13, between L-44 E to 46 E. Line 44 E between, 2+25 N to 2+75 N, increase in F.E. of up to 1.4% about 14 times the
background of . ^ in a no change of resistivity.
Line 46 E between 1+50 N to 2+00 N in a higher resistivity of
about 3,000 Ohm-meters. Best line to drill is line 44 E for anomalous
zone #13. This zone is in flat area covered by clay.
VI- CONCLUSIONS AND RECOMMANDATIONS
The survey revealed 13 anomalous zones. Out of the 13 anomalous
zones, six zones of interest for any drilling is zone #1, 3, 7, 9,
l l l l l l l l l l l l l l l l l l l
-8-
12 St 13. One cause by a steel pipe under highway 101, zone 18.
Zones 2, 4, 5, 6, 10 S 11 show to be weaker in response put should
be check at surface for sulfide or the possible cause of the response.
Sincerely yours ," '
REMY BELANGER, Geophysical contractor.
PERRtx ~s 7nc~
LEGENDGOLD ZONEOtformoiion ion*Foul!
Airbornt EM onomolyH.jd.cj No 101
Inclini Hint Iliad
Properly Locotiont Of
PERREXRESOURCES INC
and
PERRONS'HARKER - HOLLOWAY
GOLD AREAHOLLOWAY and MARRIOTT
ports of
TANNAHILL end DOKISTOWNSHIPS
LARDER LAKE MINING DIVISION DISTRICT OF COCHRANE. ONTARIO
PERRONS'
ano 32oiesE07ei s.iai7e HOLLOWAY 300
Ministry ofNorthern Developmentand Mines
Ministere du D6veloppement du Nord et des Mines
April 5, 1989
Mining Lands Section 3rd floor, 880 Bay Street Toronto, Ontario M5S 1Z8
Telephone: (416) 965-4888
Your file: W8908-029 Our file: 2.12170
Mining RecorderMinistry of Northern Development and Mines4 Government Road EastKirkland Lake, OntarioP2N 1A2
Dear Sir:
Re: Notice of Intent dated February 22, 1989 Geophysical (Induce polarization) Survey submitted on Mining Claims L 980255 et al in the Townships: of Mo Howey and ilariott.
The assessment work credits, as listed with the above-mentioned Notice of Intent, have been approved as of the above date.
Please inform the recorded holder of these mining claims and so indicate on your records.
Yours sincerely,
W.R. CowanProvincial Manager, Mining LandsMines A Minerals Division
/}8AB:eb Enclosure
cc: Mr. G.H. FergusonMining and Lands Commissioner Toronto, Ontario
The Perron Gold Corp. Kirkland Lake, Ontario
Resident Geologist Kirkland Lake, Ontario
Remy Belanger Evain, Quebec
Ministry ofNorthern Developmentand Mines
Technical Assessment Work Credits
Date FEBRUARY 22,1989
File 2.12170
Mtnlno Recorder* Report ofWorltfloW8908.029
Recorded HolderTHE PERRON GOLD CORPORATION
Toxvnthlp or AreaHOLLOWAY MARIOTT
Type of survey and number of Assessment days credit per claim
Geophysical
Elertrnmitgnntic itay^
Badiomotrio ,. , ....., ......., days
InH.ir-ort pnlnrijatinn 40.40 ttayt
Othnr rfnyt
Section 77 (19) See "Mining Claims Assessed" column
fienlofjii-al riayt
Rporhemiral ri*y*
Man days 0 Airborne f~1
Special provision Q Ground Q
Q Credits have been reduced because of partial coverage of claims.
Q Credits have been reduced because of corrections to work dates and figures of applicant.
Mining Claims Assessed
L 980255 to 980297 to 980323 to 980329 to 980336 to 980467 981409-10 982884 982975
293 inclusive 317 325 334 " 359
Special credits under section 77 (16) for the following mining claims
No credits have been allowed for the following mining claims
^] not sufficiently covered by the survey Q insufficient technical date filed
L 980294-95-96
The Mining Recorder may reduce the above credits if necessary in order that the total number of approved assessment days recorded on each claim does not exceed the maximum allowed as follows: Geophysical - 80; Geologocel -40; Geochemical - 40; Section 77(19)-60.
828 (85/12)
Ministry ofNorthern Developmentand Mines
i
Report of Work
(Geophysical, Geological, Geochemical and Expenditure
Yfi ^\A Mining Act
NOI"*" K*lont: ~ Weate type or print.- If number of mining claims inverted
exceeds spec* on this form, attach a list. Not*: - Only days credit* calculated In the
"Expenditures" section may be entered in the "Expend. Day* Cr." columns.
- Do not use shaded areas below.
SURVEY -"INDUCED POLARIZATION MARRIOTTProtp*ctort Licence No.
T-4932CI" l ll Holder (t)
Tfe PERRON GOLD CORPORATIONTd3 GOVERNMENT ROAD EAST, KIRKLAND LAKE, ONTARI'O P2N IA9
Survey Company
REMY BELANGER ENR.rvey (fr Total Mile* of line Cut
105 MILESleal
, QUEBEC JOZ IYOCredits Requested per Each Claim in Columns at rightSpecial Provisions
For firs
For eacusing th ^ se me g
Ent
Man Day*
Complete reverse tide and enter total(s) here
ftECElVt;
-- 31983
M.M'MQ LANDS St O
Airborne Credits
Note: Special provisions credits do not apply to Airborne Surveys.
Geophysical
ranrfi*5/ tlectromaor itic
Geochemical
Geophysical
- Electromagnetic
IV Magnetometer
Radiometric
Other I i P t
Geochemical
Electromagnetic
Magnetometer
Radiometric
Expenditures (excludes power stripping)
Mining Claims Traverted (List in numerical sequence)Days per
Claim
Day* per Claim
Mining ClaimPrefix Number
- 980255980256980257980258980259980260980261980262980263980264980265
Days perClaim
980266980267980268980269980270980271
Type of Work Performed
Performed on
Calculation of Expenditure Days Credit*
Total Expenditures
InstructionsTotal Oayt Credits may be apportioned at the claim holder's choice. Enter number of dayt^credits per claim selected in columns at right.
980272980273980274980275980276380277
Expend. Days Cr.
Mining ClaimPrefix Number
L- 980278980279980280980281980282980283980284980285980286980287980288980289980290980291980292980293980294980295980296980297980298980299980300
Expend. Deys Cr.
Total number of mining claims covered by this report Of work. 101
Retarded Hblrf*r or) Agent (Signature)Date
ANUARY 19/89Certification Verifying Repoh\of Wbrk
1 hereby certify that 1 haw a personal and intimate knowledge of the facts set forth In the Report of Work annexed hereto, having performed the work or witnessed same during and/or after Its completion and the annexed report it true.
Name and Postal Address of Person Certifying
ALEXANDER H, PERRON, 103 GOVERNMENT ROAD EAST,/"~ ""N
\ )KIRKLAND LAKE, ONTARIO P2NIA9
Data Certified
JANUARY 19,198?Celtic ad by ISto"*'*/']/
AMTtnrx-1362 (85/121
PAGE -2-
L-980301 L-980302 L-980303 L-980301 L-980305 L-980306 L-980307 L-980308 L-980309 L-980310 L-980311 L-980312 L-980313 L- 9803 11 L-980315 L-980316 L-980317 L-980323 L-98032/1 L-980325 L-980329 L-980330 L-980331 L-980332 L-980333 L-980331 L-980336 L-980337 L-980338 L-980339 L-980310
L-980311 L-980312 L-980313 L-980311 L-980315 L-980316 L-980317 L-980318 L-980319 L-980350 L-980351 L-980352 L-980353 L-980351 L-980355 L-980356 L-980357 L-980358 L-980359 L-980167 L-981109 L-981110 L-982881 L-982975
Mineral Oeveldpmelit; Irlt .^w^,^, Ministry of Northern DeveiopnilHt3 880 Bay Street, 3rd Floor, Toronto, Ontario M5S IZ8
Dear Arthur:
RE: Induced Polarization Survey Report for Holloway and Marriott Townships Larder Lake Mining Division_______
Enclosed herewith please find a duplicate copy of the following:
- Report dated July 1988, by Remy Belanger entitled:
Induced Polarization Survey Perron's Grid 102 Holloway-Marriott Townships Kirkland Lake, Ontario
I trust this is the information required to correspond with the Report of Work filed concerning the above noted township.
Yours truly,
PERRONSRECEIVED
B 1989
Mary Greer Geological Technician MG/p Ends.
MINING LANDS SECTION
Ministry ofNorthern Developmentand Mines
Geophysical-Geological-Geochemical Technical Data Statement
Ontario File.
TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORTFACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT
TECHNICAL REPORT MUST CONTAIN INTERPRETATION, CONCLUSIONS ETC.
Type of surveys) INDUCED POLARIZATION SURVEY Township or A™* HOLLOWAY S MARRIOTT,——-,,—. Claim HniH.w.) THE PERRON GOLD CORPORATION
103 GOV'T RD.E.KIRKLAND lAKE.QNT Survey Company REMY BELANGER ENRG.————Author of Report REM.Y BELANGER^—————-,^-Address of Author BOX W), EVAIN. QUE JOZ IYOCovering Dates of Survey.
Total Miles of Line(linecutting to office)
105 MILES APPROXIMATELY
SPECIAL PROVISIONS CREDITS REQUESTED
ENTER 40 days (includes line cutting) for first survey.ENTER 20 days for each additional survey using same grid.
Geophysical—Electromagnetic.—Magnetometer_—Radiometric——
T . p ,
DAYS per claim
Geological.Geochemical.
AIRBORNE CREDITS (Special provision credit! do not apply to airborne lurveyi)
Magnetometer
DATE
Electromagnetic. . Radiometric(enter dayi per claim)
SIGNATURE
Res. Geol.. .Qualifications.Previous Surveys
File No. Type Date Claim Holder
MINING CLAIMS TRAVERSED List numerically
L-
L-980255
li
1-"
..98Q262, 980263..980264.,980265..980266.,980267..98026&.980269
980271
Lfc.980275
,L- 980277
.U..................................98Q2Z8..........L- 980279 .U..................................98Q280L.......L- 980281.U..................................9&Q282..........L- 980283
L- 980285 .U........................ .....98028&.........L- 980287
T-'
l?"
980289'9KOZ90"980291"9HOZ92198029:980295
TOTAL CLAIMS. 101
l
837 (85/12)
L-980296 L-980297 L-980298 L-980299 L-980300 L-980301 L-980302 L-980303 L-980304 L-980305 L-980306 L-980307 L-980308 L-980309 L-980310 L-980311 L-980312 L-980313 L-980314 L-980315 L-980316 L-980317 L-980323 L-980324 L-980325 L-980329 L-980330 L-980331 L-980332 L-980333 L-980334 L-980336 L-980337 L-980338 L-980339 L-980340
L-980341 L-980342 L-980343 L-980344 L-980345 L-980346 L-980347 L-980348 L-980349 L-980350 L-980351 L-980352 L-980353 L-980354 L-980355 L-980356 L-980357 L-980358 L-980359 L-980467 L-981409 L-981410 L-982884 L-982975
GEOPHYSICAL TECHNICAL DATA
pRQUND SUR VK YS If more than one survey, specify data for each type of survey
Number of Stations Station interval Profile scale ———.Contour interval,
Number of Readings Line spacing ——-—-
Instrument.H Accuracy — Scale constant ;vj Diurnal correction methodSj Base Station check-in interval (hours).
Base Station location and value ————
ldc*H
W
InstrumentCoil configuration Coil separation — Accuracy ————— Method: Frequency————
Parameters measured.
Q Fixed transmitter D Shoot back O In line D Parallel line
(specify V.L.F. itation)
Instrument.Scale constant —— Corrections made.
C: Base station value and location,
O
H
E-' oooo
l H
Elevation accuracy.
instrument INSTRUMENT PHOENIX I. P. V^l RECEIVER S IP T-l TRANSMITTER
Method D Time Domain Parameters — On time .——
- Off time ———— Delay time -—-— Integration time.
2.0 KW____Electrode array — Electrode spacing , Type of electrode STEEL RODS
D( Frequency Domain9^ P li fi Frequency •*- y a H|U
Range
Ministry of AssessmentNorthern Development Workand Mines Breakdown
i. Type of survey ....J.NDyCE.D.Pp.LARIZAIIpN..SURREY.................................,.2. Township or Area ..JlQLLQWAY.MD.LWBJatl.MStUP................................
3. Numbers of Mining Claims Traversed by Survey t?.8.???.5. J.9.k"i80.3jL7..(jN.CLySJ.VE,,7. 63)
k-.??9.3.2.?IP. A:?.8.0.???. UNCLUS i VE ^3^ .L:?8.Q??.9.19. k-J980334..( J NCLU s;v E .f. .6) IP. A:?-8-0-???-.(. LNpL.4? I Y.E. .T. 2.1). k 9.804.67. -t. k 981409-t..
4. Number of Miles of Line Cut -...1Q5..MILE.S......... Flown ..__...................
*5. Number of Stations Established ..16-*300...............................................
*6. Make and type of Instrument Used PH.QEWJK.UP...V-1.AECEJ}flEB.A..UPJ..T-l.IRAl!l5]!U.ITER
*7. Scale Constant or Sensitivity ...Njf.l .TQ.Jl1:^..............................,...........
*8, Frequency Used and Power Output .j2Ji-S.rtw.WiR.~Gi^.w.lSr!
9. Summary of Assessment Credits (details on reverse side)
Total 8 hour Technical Days (Include Consultants, Draughting etc.)
Total 8 hour Line-Cutting Days .....2Q............
Calculation
580 , 4060 20 4080 , 101 40,40 DAYSx 7 - + - 4-
Technical Line-cutting Number Assessment creditsof claims per claim
The dates listed on this form,represent working time spent entirely within the limitsof the above listed claims [A| CheckIf otherwise, please explain ..............................................,............
Dated: ...JANUARY .lg,. 1989 ....,.. signed:
Note: (A) * Complete only if applicable.(B) Complete list of names, addresses and dates on reverse side,(C) Submit separate breakdown for each type of survey.(D) Submit in duplicate.
627 (85/12)
Details of Assessment Work Breakdown
FIELD WORK
Number of Type of Work Name t* Address ROUYN- Dates Worked 8 hour daysOPERATOR/PI ERRE FAUBERT/1467 PARADIS ST.NORANDA,QUE.|^8|^8-if^?8 62 --.....-.-..-....-..-. — -...,........................ Sg............OPERATOR/JEANGUY DUBE/235 8TH ST.,ROUYN-NORANDA,QUE " ' 62
OPERATOR/YVES BOUCHER/54 14TH ST., " " " " " 62
OPERATOR/YVON BOILY/ 2894 DU RUISSEAU " " " " " 62
OPERATOR/J.G.FAUBERT/142A 5th St., " " " " " 62
OPERATOR/RAYMOND LEVERT/767 LARIVIERE, " " " " " 62
CONSULTANTS
Number of Name 6t Address Dates Worked (specify In field or office) 8 hour daysREMY BELANGER ENR.,BOX 40, EVAIN, QUE FIELD 27/03/88 - 16/04/88..... ————— ........ ————— .........................
DRAUGHTSMAN, TYPING. OTHERS (specify)Number of
Name 6 Address Type of Work Dates Worked 8 hour days
P*!1^ FAUBERT/1.467 PARADIS ST.,ROyYN-NORANDA.QUE 16/05^88-04^06^88 DRAFTING~~^~rn7,^r~VnJ~~""~"""~"~""^SOPHIE BELANGER.BOX 40,EVAIN, QUE. 03/07/88 - 24/07/88 24..........................,................rg70g7gg:04;og;gr ..A .t^JEAN GUY DUBE,235 8TH ST,RQUYN-NORANDA.QUE.03/07/88-24/07/88 PUTTING MAPS TO- 44 ~...—...—...........—..,........ ...........................g..........
TOTAL 8 HOUR TECHNICAL DAYS 58Q
LINE-CUTTINGNumber of
Name Address Dates Worked 8 hour days
JQHJLA^S........JN.M^^ANITA HELIN " MARCH 13 - MARCH 22, 1988 10
--.-----..-.--.--.-..-.-.---..--..-----.--.-------.-------------------------- •-••o------
---.--.--.-....----..---.--.-w-.--.---.-----.-----..--..--------------------------------
20 TOTAL 8 HOUR LINE-CUTTING DAYS _____
UJ
eaS sLO a.
D
O
ccQ
Z
cr ^
UJ
—
T
<*-
crc
t-
LO(/)
<
LU O
l 3
.-
X
K-
i -
.ri12
5OI oo ctrO
O
cr D
.r -
cr -
cr OxLO
L/l CC
LO
S -
- t
~ m
cr < 5 2 -
cr
COoG
C
OCOoQ.
C O
z i*-
si^i
O
Oo oCMUJOW
<O
uac k- t/tacc^—C
/l
UJ
UJ
oVJ
ocH-
tO(J
C/)o
Q
^ -
1Z
^
Q;
<
a
UJ
ri o
Q^
5 a:
LUz < a: x o o o
to m
a*ccU
Jmot- o
o
MA
RR
IOTT
TOW
NS
HIP
-A——
t——
——
—|-
dIHSN
MO
l H
HV
IdVH
ot- w
OSs aoccccQT
HS(A<
UJ
CC
I-XoX
K
-J
LU
s 0S pK
I
I
O*2
E
P
dK
tt
E
M
Z ^
k s
O
i(A*
*. S
s -g
Q O CU
Hol
low
ay T
wp.
( M
. 356
)
PROV
INCE
OF,:Q
UEBE
C
5 z73
^
Z
- O
en
!"-f Z
-
> c
>?
' 50
2z
. >
-O
r- (T
T
D r > z z en
to GO
GO
m O •-n
c/5 c:
m
O 0
LO3
-
-*
in
w
•f
'
S
'J
O m
•31.
y-W
Q
i
H *~ 3
-*/
3
y
Z"P
X?c5atf*zr-
r'r"
0
>Q
>5, socs^C
^fia)
SS;^iS?l5s5i
T'S
^^S
w^O
ft^f^Z
3
rn
- M
m
oo
r 3
i Q
x
-r
,*i
f?
g S
S t*
5
2w
5
s
^H
z
o5
* J
5\
5
w*
a3fe
S
\
M
O
'o*
T
W
V
\
VI
' ^*
\ W
ri
' ^K
*'
^
m
v*
\ 2
o
^
S.
n ;
o p
c ,
j;\
2 5
2\
cv*
5
l m Z -1
m O z o
v-l
\z
r m O m z D
(A
K
3
3D
C/) n > m n 1 o ~ n
20
o- -7 z m
OD
25
5.O
H
zo
nrn
-H I•"
m
- H
00 Z
U)
L 982884\
, L 980300
KEY MAP
L 980295 L 980294INDUCED POLARIZATION SURVEY
SURFACE PROJECTION OFANOMALOUS ZONES
THE 102 PROJECT50METERS SPREADSHolloway - Southtatl Sheet
RESISTIVITY N:3
FREQUENCY EFFECT N:3 HOLLOWAY- MARRIOTT TOWNSHIPSLARDER LAKE MINING DIVISION
DISTRICT OF COCHRANE. ONTARIODEFINITEPROBABLEPOSSIBLE
PERRONSKirkland i att Canaan32D12SEe781 2. 1217* HOLLOHIAY
r
\ v\ L 980467
L 9628B4\
4 i 980310
KEY MAP
L 980294INDUCED POLARIZATION SURVEY
SURFACE PROJECTION OFANOMALOUS ZONES
THE 102 PROJECT50METERS SPREADSHolloway - Southtott Sheet
RESISTIVITY N:3
FREQUENCY EFFECT N:3 HOLLOWAY-MARRIOTT TOWNSHIPSLARDER LAKE MINING DIVISION
DISTRICT OF COCHRANE, ONTARIODEFINITEPROBABLEPOSSIBLE
Scale l 2500
PERRONSLett Canaan32012SE0701 2.1217® HOLLOWAY
rTO{poo and pin locoltt)}
-- - -
. L\98I4IO \
^------V-
\ L 980Z99
\ L 980273 \\L 980330
\ L 980287\
' L 980312
' L 980296
KEY MAP
THE 102 PROJECTHolloway - Southeast Sheet
HOLLOWAY-MARRIOTT TOWNSHIPSLARDER LAKE MINING DIVISION
DISTRICT OF COCHRANE, ONTARIOScole M2500
DO m*T*ri O 100 190m
PERRONS'Kirklond Latt Canoao
2-40
V L
980262
La'
9802
67A
\ L'9
8O35
2 \
\
L 980258
TH
E
102
PR
OJE
CT
Mar
riott
- S
outh
east
S
heet
HO
LL
OW
AY
-MA
RR
IOT
T
TO
WN
SH
IPS
LA
RD
ER
LA
KE
M
ININ
G
DIV
ISIO
N
DIS
TR
ICT
OF
CO
CH
RA
NE
, O
NT
AR
IOS
ca
le
l 2500
rio m
.feu
D ' O
O
'SO
m
PE
RR
ON
SK
trkl
ond
L ate
C
anad
a
o
D.
Ma
/,
uitft
l ud
M
Ma.
J
6 e
l M
ac (
w
32
D1
SS
E0
70
1
2.1
217*
HO
LLO
WA
Y2
50
IND
UC
ED
P
OL
AR
IZA
TIO
N
SU
RV
EY
SU
RF
AC
E
PR
OJE
CT
ION
OF
AN
OM
AL
OU
S Z
ON
ES
;
50 M
ET
ER
S
SP
RE
AD
S
RE
SIS
TIV
ITY
N
:3
FR
EQ
UE
NC
Y
EFF
EC
T N
:3
DE
FIN
ITE
-~
P
RO
BA
BL
E ~
P
OS
SIB
LE
00
3
TH
E
102
PR
OJ
EC
TM
arrio
tt -
So
uth
tatt
S
httt
HO
LLO
WA
Y-M
AR
RIO
TT
T
OW
NS
HIP
SLA
RD
ER
L
AK
E
MIN
ING
D
IVIS
ION
D
IST
RIC
T O
F C
OC
HR
AN
E,
ON
TA
RIO
PE
RR
ON
SK
irkl
maa
L f t
t C
anad
a
32
Dia
SE
87
81
2.1
SI7
0
HO
LL
OW
AY
S6O
od
Moi
th
3*0 *
\ l
\Vi9
8027
l \
\ ~~
—
T
' -V
—
—
— —
\L 9
8035
4
\f--
-\-
-V-
21
70
IND
UC
ED
P
OL
AR
IZA
TIO
N
SU
RV
EY
SU
RFA
CE
P
RO
JEC
TIO
N O
F A
NO
MA
LOU
S Z
ON
ES
J50M
ETE
RS
S
PR
EA
DS
O R
ES
IST
IVIT
Y
N:3
OFR
EQ
UE
NC
Y
EFF
EC
T N
:3
DE
FIN
ITE
—
—*
PR
OB
AB
LE ™
P
OS
SIB
LE "
z^3
TH
E
102
PR
OJE
CT
Marr
iott -
South
east
S
heet
HO
LLO
WA
Y-M
AR
RIO
TT
TOW
NS
HIP
SLA
RD
ER
LA
KE
MIN
ING
D
IVIS
ION
D
ISTR
ICT
OF
CO
CH
RA
NE,
O
NTA
RIO
PE
RR
ON
SK
trkla
na
:. olie
C
an
ad
a
32D
J2S
E07
81
2.1
217*
HO
LLO
WA
Y
35* /W i 333 c?/? d*y*?
363 #7 33"?
RESISTIVITY (APR) IN OHM METER
N -
N ^
N -5
FREQUENCY EFFECT (APR) IN 7o
l J J .1 J J J
j J .y . j J J
J J J J .1 j
1 j j J j
j j -i J
J J j j j
j j J J j
.1 j J .x
j j J J ,/
N" l
N *2
N =3
N =4
N *5
METAL FACTOR (APR)
.3 .5
.V
.3
J
,t
.J
-J"
.3 V
N * l
N *2
N O
N =4
N -5
32D12SE0701 2.12178 HOLLOWAY S80
COMPANY : PERRQM'
PROPERTY
LINE
ELECTRODE CONFIGURATION *~-X-9~*———N X———*-*-X-*-
PLOTTING POINT X X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l l M l l
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
tip* i i. - 6-
OPERATOR^
FREQUENCIES^ -25 1 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS l ..IS^-.a-.S-./.S, 10.0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG.
APPROVED;
DATE ; - 8*
INDUCED POLARIZATION AND RESISTIVITY SURVEY
1'00'S J—————l
RESISTIVITY (APR) IN OHM METER
SU
N=2
N "3
N*4
N =5
FREQUENCY EFFECT (APR) IN "/o
; ,/
i .1
1 J .1 J
N' l
N *2
N *3
N*4
N =5
J_______L J_______l ^I
METAL FACTOR (APP
•V .5 .J N -l
N *2
N *3
N -4
N -5
J_________L J________L J_______l_______l_______L
32DI2SE0781 Z. 12170 HOLLOWAY SS0
COMPANY
PROPERTY'
LINE NO.-
ELECTRODE CONFIGURATION N x———*-*-X—*-
PLOTTINGPOINT
\ y\ ' X
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l t l l l l l l
POSSIBLE /S / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED'
tt - f- _____
FREQUENCIES-" -25^ 4.0 HZ
NOTE CONTOURS AT LOGARITHMIC INTERVALS l.,l.5 I E.,3.,5. t 7.5 1 IO.O
PHOENIX IPV-I IPT-I
REMY BELANGER ENRG.
APPROVED;
OPERATOR^ DATE- fi t/y
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
/0.0
O-S
L
——
——
lJ_
___1
1J______L
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
trr
rf/9
/v?y
//v/
S3
?
Mb
N * Z
N s 3
N=
4
N =5
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
7o
——
——
——
——
——
*-
--
* -
ir
r-
r*
-rr-
f
-*
" -
-rM
ET
AL
FAC
TOR
(A
PP
)
7 .1
'7
-7
.i -r
-*
7 ,3
.3
-3
,V
.3
.3
.6
.V
,3
.3"
.5"
.5"
3 .3
.a
.3
-S
.3
.A
.3
.V
.3
,?
.7
V
.V
.3V
,7 .y
.i
.v
.s
y
.5*
.5"
,3
.3
-V
.y
.6
N N N N N
J___
____
___l
____
____
__l—
——
——
——
——
—L
J__
__
__
__
Lj_
_______L
32D1
2SE8
791
2.12178 HOLLOWAY
30
0
PR
OP
ER
TY
HO
LL
O^
A/A
V "
MA
RR
IOT
T
LIN
E
NO.-
c?
V-
ELE
CTR
OD
E
CON
FIG
UR
ATIO
N
-^-X
-^*—
——
N X
——
—*-
*-X
—*-
PLO
TTIN
G
x P
OIN
T —
—-V
SUR
FAC
E PR
OJE
CTI
ON
O
F A
NO
MA
LOU
S
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l M
l
l l
i l
l
POSS
IBLE
// / /
7 X
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
/^ -
f-
9-
OP
ER
ATO
R-
FRE
QU
EN
CIE
S-'
-25^
4.0
H
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I., 1
5, 2
., 3.
, 5.
, 7.
5, 1
0.0
PH
OE
NIX
IP
V-!
IPT
-I
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
ED
^
—L
r^a
J^-v
-.—
—
DA
TE:
- 88
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
i *'*
J i **
iy*,
j y f
- j
j -i'*
7**
~
/J-
J_______L
J______L
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
X*"
Z-
/^?
S**
7?/
NO
N=4
N =5
J_______L
FREQ
UEN
CY
EFF
EC
T (A
PR
) IN
7
0
.x
.x
.x
.x-x
.x
-s
.x
--x
v•x
.x
.y
.x
.x
.x
,x
-7
-x -x
.x
-x -x
x .x
-x ^"-
^.7
-?
--7
.X
'-J
-O
-X
-X
-X
-X
-X
.X
-X
-X
-.6
-X
-X
-X *
-X
-X
-x-*
--
7 ~.
/ -.
j -s
-J
.x
-x
.x
.x
-x -X
,/
-x
.x -/
x -x
" -x
"X*
-X
X. 2
N *a
N '3
N =4
N '5
in/r"
*--
x-
ME
TA
L FA
CTO
R
(AP
R)
x.x
x.-z.
.7
^ .2
-X
•X -x
-j*
.X.j'
. fx
-/.e
-3.x
-X
N *
l
N=
2
N =3
N-4
N -5
32D12SEW81 2.12170 HOLLOWAY
310
COM
PANY
^ P
ER
RO
M'
PRO
PER
TY H
O L
LO
WA
V ^
MA
RR
IOT
T
KIR
KL
AN
D L
AK
E
QM
T
LIN
E
NO -
2
2-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
-*-\-
~*
——
—N
X—
——
*-*-
X-+
-
PLO
TTIN
G
\
//
PO
INT
——
*-V
X
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
l M
l
i l
i
POSS
IBLE
/X
X
X
X X
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D:
y- x
x-
y
FRE
QU
EN
CIE
S-'
-25^
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I., 1
5,2
., 3
., 5.
, 7.5
, 10
.0
PH
OE
NIX
IP
V-I
IPT
-I
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
E D
:
O P
FR
AT
OR
:'/)i*a*#i
DA
TE:
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
J______L
l______l_
_____l_
_____L
J_____IE
____IE
_____l
J_
__
__
__
l__
__
__
_l_
__
__
__
LJ_
__
__
__
_L
J_
__
__
__
LJ_
__
__
__
_L
/"/*
V./
JK
*M
JM
\.\Jjf
ftt \
?y 7
'*f
"*
S
?6
t*
J
tif
——
^^v
\~/
c—r^
^^^
jo?
S
w
jj^N
^s/v
v /x
/ /j?
j"**
^™*X
. -^
*^*^
^~
—
—
~
J39 S
JL
56
/6?
9
} V
// \\
/*T
9
/it J
/M
J&rt?
c?*^
3
13
4
73
rj
U5"
\ \
/W
75*7
/
a725
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N '
N -3
N =
J_
__
__
__
L
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
7o
,/
,/
,/
J
J
J
J
J
J
J
J
j
-.6
j j
j -.y
,/
j J
-.7
J
-.6
J
J
J
J
-.3
J
J
-1
N^
l
N -2
N *3
N =
4
N *5
J_________L
J______L
ME
TA
L FA
CTO
R
(AP
R)
.s .3
.t*.j
y4
/J^A
.^
.7
N '
l
N =
2
N *3
N '4
N -3
J_
__
__
__
L
32D12SE*70!
2.12178 HOLLOWAY
320
CO
MP
AN
Y1
PE
RR
ON
r
PR
OP
ER
TY
LIN
E
NO
.-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
-^
-X-^
*——
——
N X
——
—i*-
^-x—
*-
PLO
TTIN
G
PO
INT
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
l l
l l
M i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
L ~
9-
/X-
FRE
QU
EN
CIE
S'
-251 4
.0
HZ
,
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I.,1
5,
2.,
3.,
5., 7
.5,
10.0
PH
OE
NIX
IP
V-I
IPT
-I
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
ED
-
OP
ER
ATO
RD
ATE
:,
^a-
fts
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SUR
VEY
uses //OPS /f W l
l l
32D12SE07ei 2.12170 HOLLOWAY
W*
-Jfffttt
lWO 5 7*5 S
RESISTIVITY (APR) IN OHM METER
N =5
J___ l J______l
FREQUENCY EFFECT (APR) IN 7o
/-O J-* 3-0 . J V 3-S . 3D
J.O
s-o
N- l
N *2
N =3
N"4
N '5
l JO O S nrot w j f jo s rao i vs o s 700 s
METAL FACTOR (APR)
•l J
-) -i -i
N ' l
N *2
N*3
N "4
N "5
J_______L J______L J_______L
330
COMPANY 1
PROPERTY HO L LOW A V - MARRIOTT
LINE NO.
ELECTRODE CONFIGURATION N X———*-*-X—*-
PLOTTING POINT X X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l t M M i l l
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
FRECXJENCIES- 25 tt 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS I.,1.5, 2., 3., 5. .7.5, 10-0
PHOENIX IPV-l IPT-I
REMY BELANGER ENRG
APPROVED^
i\
OPERATOR:
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
J_______L
J__
__
__
_L
J_______L
y/*
ft.*
- ?f
*~j
j'—J_
__
__
__
LJ_
__
__
__
LJ_
__
__
U
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
N
sl
N=
2
N O
N=
4
N =5
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
N =
i
N *2
N =
3
N =
4
N *5
j-j-*y
J_
__
__
__
lx*
**-,
/j-*
*.r*
.—r*
""l _
_______ l
l ________
ME
TA
L FA
CTO
R
(AP
P
y- 3
/.
3.3
. Z-
-i
0
-i-3
.
N *
l
N =
2
N *3
N =
4
N -5
J__
__
__
__
LJ_
__
__
__
L
32D12SE*7*1
2.12170 HOLLOWAY
34
0
CO
MP
AN
Y^
PE
RR
OM
r
PR
OP
ER
TY^
KIR
KL
AN
D L
AK
E
OM
T
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
-^
-X-*
^*—
——
N X
——
—*-
*-X
—*-
PLO
TTIN
GP
OIN
TX
X=
50
M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
i i
i l
l l
i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D;
A/t
f/j.-
9-/
y-
OP
ER
ATO
R-
FRE
QU
EN
CIE
S^
25tt
4.0
NO
TE
CO
NTO
UR
S A
T
LOG
AR
ITH
MIC
IN
TE
RV
ALS
I.
,15
,2.,
3-,
5.,
7.5
, 10
.0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
ED
^
3^
88
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SUR
VEY
WOO*
32D12SE*7*1 2.12170 HOLLOWAY
1300'tl
a so s—l______L
l f SO S-J_____l
JOSOS ttOOSl J_______L
RESISTIVITY (APR) IN OHM METER
N=3
N=4
N =5
i i J_________L J___ l
FREQUENCY EFFECT (APR) IN 7o
N =2
N *3
N ^4
N *5
tt 06 *l
/ofO J /000S f So S 950 Sl l
METAL FACTOR (APP)
j .; .; -a -y
• j .a ,/ -i -;
-j 3 -; -;
N * l
N Z 2
N *3
N -4
N "5
J_______L J_______L
350
COMPANY- PERRON'PROPER!Y:
LINE NO-
ELECTRODE CONFIGURATION
PLOTTING POINT
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l l M l l
POSSIBLE // S / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED.
FREQUENCIES- -25 tt 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS t.,1.5,2.,3.,5.,7.5, 10.0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG.
APPROVE D:
.-M^H
OPERATOR^ MAALiL folfiUte DATE-
INDUCED POLARIZATION AND RESISTIVITY SURVEY
760
-S
J______U
_______l_
______L
J_______L
JS
O'A
I 30
6-J
J_
__
__
__
y**
T"
J_
__
__
__
LJ_______L
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N -l
N"Z
N =
3
N =
4
N *5
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
70
,/
'.A
-1.3
.7
-^
-.J
-.1
-/.o?
-7
--y
j
J
J
.7
.1
J
J
j \/
N =2
N =3
N *4
N *5
SJ_
__
__
__
__
L-A
) 3o
Q-*J
3S
o-#
•A*
S0O
-tJ_______L
ME
TA
L FA
CTO
R
(AP
R)
.3
J
J
J
JJ
.3-.
7 , 7
-/.f
7 .J
V
-5
.3
.; .1
j -x
/ j
j v
.o?
.1 J
.-3
.7
.o?
-V
-.r.
/ /J
.^
J
.1
.1
.J
.*?
.7
J
-J.J
7
-^J
-J
.3
-l
J
*t
.3
-3
-9.1
-6.6
-3
.?
.3
.J.1
.1
-3
/.J
,/
-rf.7
N ^
N =2
N*3
N '4
N -5
J_
__
__
__
_L
—T 7
J__
__
__
_L
32D
I2S
EW
81
2.1
21
7*
HOLL
OW
AY3
60
c tee
c
CO
MP
AN
Y'
PE
RR
ON
'
PRO
PER
TY H
OL
LQ
WA
V -
MA
RR
IOT
T
KIR
KL
AN
D L
AK
E
OM
T
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
—
X~-
~*—
——
N X—
——
*-^-
X—
*-
PLO
TTIN
G
NX
PO
INT
—
—-V
SUR
FAC
E PR
OJE
CTI
ON
O
F A
NO
MA
LOU
S
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
i l
l i
i l
i l
i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
FRE
QU
EN
CIE
S-
251 4
.0
HZ
.
NO
TE
CO
NTO
UR
S A
T
LOG
AR
ITH
MIC
IN
TE
RV
ALS
I.,
1.5
,2.,
3.,
5.,7.5
, 10
.0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
ED
OP
ER
AT
OR
: fi f M
f fA
u&
etZ
D
ATE
;"S
o-
IND
UC
ED
P
OLA
RIZ
ATI
ON
A
ND
^RE
SIS
TIV
ITY
SU
RVE
Y
32D12SE87ei 2. 1217* HOLLOIKAY
/35PSJ_______L l_______L
toot—L.
RESISTIVITY (APR) IN OHM METER
w* ... . .1/3* , , w^woyv,, noa ^ /aw . v jjw J6ow iaotr 3wyy \ 51W , wsw ytw
y/jw x Jio?/
j____ l
l l
VW/ w;// NO
N'4
N =5
i ______L l________i
FREQUENCY EFFECT (APR) IN "/o
N" l
N *2
N ^3
N^4
N =5
l l1S6S f'00 S
l
METAL FACTOR (APP)
370
COMPANY 1
PROPERTY'
LINE NO.-
ELECTRODE CONFIGURATION -^-X-^*———N X———*-*-X-*-
PLOTTING \ ,'POINT X X=50M
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l i l l l i
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED'
FREQUENCIES^ -25 tt 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS IJS^.^S../^, 10.0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG
APPROVED^
A A^MM M dA^MM &K49 V
t/U .
OPERATOR: DATE: /V- fiB
INDUCED POLARIZATION AND RESISTIVITY SURVEY
4 r- l_
____
____
___l
J______L
y f.
3"
-Ll
——
——
Ly*/
J—T
T"
" T
" T*
T
" J?
j__
__
i__
__
i__
__
Lj_
__
_L
j__
__
i__
__
i__
__
Ll_
______l
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
f****
ra*3
z
Xi'/
v
) ^3
Jty
z r/
vz.
N *3
N=
4
N S5
J__
__
__
_L
J_
__
__
__
LJ_______L
J_______L
J——
——
——
—L
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
/y/•
o
X o
X S
/-f
f
7.2
. f./
?.f
J
-)
J
.tN
" l
N '2
N '3
N =4
N -5
r*
--M
l".-
J3
J-*J
y
f *
S
ft'ai
-J_
__
__
__
__
__
__
__
l__
__
__
__
__
__
__
_I—
——
—J_____________lX
j.-*
— '
-J ̂
-*r*
*—J_
__
__
__
l__
__
__
_l_
__
__
__
LJ_______L
ME
TA
L FA
CTO
R
(AP
P)
32D12SE8701
2.12170
HOLLOWAY
COM
PANY
: P
ER
RO
M'
PR
OP
ER
TYJ
0
KIR
KL
AN
D L
AK
E
QM
T
LIN
E
NO
.-
/V-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
•*
-X-"
~*—
——
N X
——
—*~
*-X
-*-
PLO
TT-IN
G
\
PO
INT
——
-Y
SUR
FAC
E P
RO
JEC
TIO
N
OF
ANO
MAL
OU
S ZO
NE
S
DE
FIN
ITE
PR
OB
AB
LE
t l
l t
l l
M i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
FRE
QU
EN
CIE
S--
25
6 4
.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I.J.5
,2.,3.,5.,7.5
, 10
.0
PH
OE
NIX
IP
V-I
IPT
-IR
EM
Y
BE
LAN
GE
R
EN
RG
.
AP
PR
OV
ED
'
n
OP
ER
ATO
R:
DA
TE:
-Ti^
. "L
a-
S 8
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
J_______L
J__________L
32D12SE*7*1
2.12170
HOLLOWAY
J_______l
9 *
* f
i i'*j
tf *
* j
7 J*
" -1
7"
J_
__
__
_i_
__
__
_l_
__
__
_i_
__
__
_l_
__
__
_L
t**
iJ"
** J
J______L
J__
__
__
LJ_
__
__
__
L9
" J__
__
__
_L
J_____LJ.
l__
__
l
33
0
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N=
4
N '5
J_
__
__
__
L
FRE
QU
EN
CY
E
FFE
CT
(AP
F)
IN
7o
N =
2
N S
3
N S4
N =
5
J_
__
__
__
__
LJ________L
r--*
'c-
fr?
j'--
^
s**
ct^
/S "-
ME
TA
L FA
CTO
R
(AP
R)
.7
.jx
.y.7
. J
V
-J'
.7
-X
V
•s
-S
-J
.f
J
.3
.3
J
J
.S
J
.5
.3
.f
.1
.J
f/
.S
,/
,/
-^
7 -y
.z
.c.7
.2V
-6
y
Vy
-z-
J
-t
.y
.7-7
y -y
; -x
-r
J. f
I f
N M
N *2
N=
3
N *4
N -5
J——
——
——
——
—L
J_
__
__
__
_L
J__
__
__
__
LJ________L
J___
____
__l_
____
____
l___
____
__l—
——
——
——
——
l——
——
——
——
—L
J_______l_
______l_
______L
*p
COMP
ANY-
- P
ER
RO
N'
PR
OP
ER
TY
'
LIN
E
NO.
ELE
CTR
OD
E
CO
N F
IGU
RAT
ION
•*
-X-"
~*—
——
N X
——
—*~
4—X—
*-
PLO
TTIN
G \
,'
PO
INT
——
-Y
X^
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
i l l
l
l l
l
POSS
IBLE
/X
X / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
if-f
o-j
ei-j
&Jt-
J.
FRE
QU
EN
CIE
S:
-25
1 4
.0
NO
TE
CO
NTO
UR
S A
T
LOG
AR
ITH
MIC
IN
TE
RV
ALS
I.,
1.5,
2.,
3.,
5.,
7.5
, 10
-0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
ED
-
__
Lxttu
DA
TE
; ^T
xoK
^ 3
o-S
g
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
l——
——
——
—l_
__
__
__
lJ_
__
__
__
L7
**'
X-*"
*'J_
______L
l__
__
__
_l
y*--
' yy
-J_______L
XT*
7*"*
- 7?
**"
**J_
__
__
__
l__
__
__
_l_
__
__
__
Lx/*
*--J
i __
__
_ i _
____ i _
__
__
il _
__
__
i
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R NO
N *4
N ^5
J_________L
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
7o
x
• X
-XN
= l
N =2
N *3
N =4
N *5
32D
12S
ea7B
1 2
.12
17
* H
OLL
OW
AY
400
J____________L
t f l
J_
__
__
__
__
LA
-**
y*.
- wjr.
*-*'
J*-
- v
J*
1'//
j-..
J_
__
__
__
L
ME
TA
L FA
CTO
R
(AP
P)
-X
.X
.2
-s
Z
-2
.2.
-e
-2"
3
, j*
-2
.2
.
f-
XV,
N =
l
N *2
N*3
N =
4
N '5
-j \?
j j -
j j -
y?:
J_
__
__
__
L
-*-T
* i-'C
-
J_
__
__
__
_l
J_
__
__
__
l__
__
__
_l_
__
__
__
LJ_
__
__
_/l
Xrt
*T
g/ftj
fj f*
* o
—f?
c*
***/x
l
COM
PANY
' P
ER
RO
M'
PRO
PER
TY
HO
LL
OV
^A
V -M
AR
RIO
TT
KIR
KL
AN
D L
AK
E
ON
T
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
-^
-X-*
**—
——
N X
——
—**
-*-X
—*-
PLO
TTIN
G
PO
INT
X X
=5
0M
SUR
FAC
E PR
OJE
CTI
ON
O
F A
NO
MA
LOU
S
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
l l
i l
M l
POSS
IBLE
/X
X
X
X X
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
FRE
QU
EN
CIE
S'
25A
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
l..1
.5,8
., 3
.,5
.,7
.5,
10.0
PH
OE
NIX
IP
V-I
tPT
-lR
EM
Y
BE
LAN
GE
R
EN
RG
.
AP
PR
OV
ED
^
OP
ER
ATO
R-
DA
TE^
- flf
l(/
y
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
f***
J7-
1J_______L
j. -j
r s
-sj*
'j.
/t* j
f,s
-J_
__
__
__
l__
__
__
_L
-J_
__
__
__
LJ_
__
__
__
LJ_
__
__
__
L
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
j'j/
*e
Jj
Jjtj?
^
JsffS
\\J*^J
Jffrf
y/f/t
) s
*ff
J
jr*9
*S
JtS
w
/ftJj'
/fjS
f \ 3f f
*?
Jo
?S
o
N=
4
N ^5
J__
__
__
__
LJ_
__
__
__
L
FRE
QU
EN
CY
E
FF
EC
T
(AP
R)
IN
7o
j.
J. 7
3:
J*.9
/A
O?
i.
J
-J
-C
.fN
=2
N =3
N^4
N *5
J_
__
__
__
_L
//**J
*J* J
7
r~
Tffo
J O
mm
-w
ME
TA
L FA
CTO
R
(AP
R)
.t,.3
/
.1
J
J
J
.3
.J
.1 J
. v
.z
j
f J
. z.
. z.
N '
l
N *2
N=
3
N=
4
N -5
i i
32D12SE0781
2.12170 HOLLOWAY
•410
COMP
ANY'
P
ER
RO
N'
PRO
PER
TY H
OL
LO
W/A
V -
MA
RR
IOT
T
^J
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
A
nl A
^^
A ^
;VH
r-rr
PLO
TTIN
GP
OIN
TX
X=
50
M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l t
l l
i t
l l
i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
/f-*
*'-
xr-
y
FRE
QU
EN
CIE
S-'
25 ft
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I.,1.
5,2.
, 3.,5.,7.5
, 10
.0
PH
OE
NIX
IP
V-I
IPT
-IR
EM
Y
BE
LAN
GE
R
EN
RG
.
AP
PR
OV
ED
^
_L
OP
ER
ATO
R^
.-j ̂
DATE
; T
^w 3
o- a
a
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
J'mt
^•"v
jf
X
l l
/J'*—
//**
-
'.,
X^7
\V
\XJ
*' \
J J*RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N H
N =
3
N =
4
N =5
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
7o
J.
J. o
, J"
Z,
7
. z
. J
,/
. x
. y
\ /.
*
,/
,7
.C
.s J
.f
?.t
*-
/
/.y
X J
*./
r.~
?.y
*.t
j. o
Z
.J~
7.
*•r.
z.
y, j-
X
^. o
r.z.
*.
o
N*
l
N =
2
N '3
N *4
N '5
5-f
-jj",*
-**
f—
JV^
rX
V'f f
ME
TA
L FA
CTO
R
(AP
R)
.2.
- 7
. s
•Z. J
. z.
-j~r
, z
.2.
.Z-
. Z
~/
. o
. 3, a
7
N ^
l
N ^2
N ^3
^4
N -5
A /i
Jf it
32D1
2SE9
7ei
2.12178
HOLLOWAY
42
0
CO
MPA
NY'
PR
OP
ER
TY
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
•*
-X-*
^——
—N
X—
——
*-*-
X—
*-
PLO
TTIN
G
PO
INT
X = 5
0M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
PR
OB
AB
LE
l l
l l
l l
i l
i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D'
FRE
QU
EN
CIE
S;
-25
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I., 1
.5, 2
., 3.
, 5.
.7.5
, 10
.0
PH
OE
NIX
IP
V-I
IPT
-IR
EM
Y
BE
LAN
GE
R
EN
RG
.
AP
PR
OV
ED
'
OP
ER
ATO
R^
.TV
*^ 6
***
J?
R.
Afl
CiM
^
&M
.3+
M
, 3o-
fl8
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SUR
VEY
J__
__
__
__
L
J_
__
__
__
_L
J_
__
__
__
__
L
32D
I2S
E®
70t
2.J
21
7®
H
OLL
OW
AY
l___
__3
J. .j,
j?, -
j /y
. j
//*J
y*-f
^J_
______L
J_
__
__
__
l
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N *
N S
N =5
J_________L
J______L
FRE
QU
EN
CY
E
FFE
CT
{AP
P)
IN
0X0
/.O
/.o 1.3
V
/
.7 ,y
N =2
N =3
N *4
N *5
.l_
____
____
l___
____
__l—
——
——
——
——
—l
^t!i
-'-•
j*j*
-—a
—TL
——
!1
ME
TAL
FAC
TOR
{A
PP
)
.7
.f
.1
.f
.3-3
.J
V.3
X -7
,/
J
,/
,/
.7
-7
.7
.7
.7
,/
J
J
'l
.f
J
-7
-7
-7
.7
V
,/
-7
.7
.7 ,7
J
J
.7
V
.7
.1
,/
,/
v
.7
.'7
. 3
• z.
•43
0
N *l
N *2
N =
3
N =4
N -5
J_______L
J__
__
__
_L
COM
PANY
' R
ER
RO
M'
PR
OP
ER
TY H
QL
LO
WA
V
^ H
AR
RIO
TT
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
-^
-X-W
PN*—
——
N x—
——
^-*—
x—^
PLO
TTIN
G \
,'P
OIN
T —
V
X=5
0M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
l l
l l
l l
i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D:
*'-
X
7-
J 7-
S
3
FRE
QU
EN
CIE
S'
251 4
.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I.,1.
5,2.
, 3.
, 5.,7.5
, 10
-0
PH
OE
NIX
IP
V-I
IPT
-IR
EM
Y
BE
LAN
GE
R
EN
RG
.
AP
PR
OV
ED
^
O P
ER
ATO
R: r'*f
**s
: r?'
*fD
AT
E:
*n-
aa
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
r__iiRESISTIVITY (APR) IN OHM METER
N =3
N=4
N *5
FREQUENCY EFFECT (APR) IN 70
N =2
N -3
N =4
N =5
0V ^METAL FACTOR {APR
.1 J .1 .1 .f .1
f l .1 l .1
.3 ,3 .3
'3.
l -.z .3 , 3 .3 r
.z
y -z -3 . i .y -z.
• l J . x - -z-
N ^ l
N "2
N*3
N =4
N -5
32DI2SEe78I 2,12179 HOLLOWAY 440
COMPANY
PROPERTY'
LINE NO.- o/" LL/
ELECTRODE CONFIGURATION —X-^*———N X———*-*-X-*-
PLOTTING POINT X X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE t l t l l l l l i
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
FREQUENCIES^ -251 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS L.l.5,2., 3.,5.,7.5, 10-0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG.
APPROVED^
_______Pt tjyiliut l AAJ *j^Jt - - ._____ --—- - ~" n—————
OVA/rf-- /i- - /- 74'f
OPERATOR ; fi'**** DATE- 3 a-
INDUCED POLARIZATION AND RESISTIVITY SURVEY
5o J *6 *j oW**/ ja *o*J faL _______ I l ________ L J_______L
y f/f
J_______L J_______l_______l_______L
i .1 .i .j .5 ,3 -7,1
.z
.3 J
•i .1
i J -X .X
J_______L
RESISTIVITY (APR) IN OHM METER
N *l
N'2
N=3
N =4
N *5
FREQUENCY EFFECT (APR) IN 7o
N = l
N *2
N ^3
N *4
N *
METAL FACTOR (APR)
N * l
N =2
N =3
N =4
N -5
J_______l_______l_______L
320125E*7C1 S.12170 HOLLOWAY450
COMPANY 1
PROPERTY'
LINE NO.-_(L
ELECTRODE CONFIGURATION —x-^*———N X———*-*-X—*"
PLOTTING \ POINT ——"*Y
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l l l i l t
POSSIBLE // S / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
FREQUENCIES' -25^ 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS 1,15,2., 3.,5..7.S, 10-0
PHOENIX IPV-I IPT-I
REMY BELANGER ENRG.
APPROVED'
OPERATOR : DATE -
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
jF,r*~- j*.*xJ_______l_______l_______L J_______L
J______L J_______L J_______L
T*~__r ft ~
V V .z. t ,/
J .x ; v
, l
*. - , J
*?
Z f I /.7\ Y .J?
-^
J_______L
J_______L J_______l
RESISTIVITY (APR) IN OHM METER
N
N *
N *
J_______i
FREQUENCY EFFECT (APR) IN 7o
N = l
N *2
N '3
N *4
N =5
METAL FACTOR (APP)
N * l
N *2
N *3
N '4
N -5
33D12SE0701 2.1217* HOLLOWAY -460
COMPANY'
PROPERTY'
LINE NO.
ELECTRODE CONFIGURATION •"-X-*"*———N X———*^*-X—*"
PLOTTING N\ ,' POINT ——*y X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l t l l l l i l i
POSSIBLE //S / X X
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
- f f ___
FREQUENCIES' 25 tt 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS I.,15,2., 3., 5.,7.5, 10.0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG
APPROVED
; f-
OPERATOR: ^? '- DATE- T/—o ̂ *- e. ft
INDUCED POLARIZATION AND RESISTIVITY SURVEY
l______l
Mil
7*50
7/z
V.5 3.5
s. 7 s e, 7
/•t
J________L
J_______L
J________L J_______L
J________L
RESISTIVITY (APR) IN OHM METER
N-l
N=2
N *3
N=4
N S 5
FREQUENCY EFFECT ( APP) IN 7o
N ^
N ^
N *
N *
J______L
METAL FACTOR {APP
N * l
N *2
N*3
N ^4
N "5
32D12SE®7ei 2.1217* HOLLOWAY 470
COMPANY : PERRON '
PROPERTY'
LINE NO.-
ELECTRODE CONFIGURATION —X-"~*———N X———^*—x—^
PLOTTING POINT
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l l l i l t
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED'
FREQUENCIES' 251 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS l..15,2., 3.,5.,7.5, 10.0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG
APPROVED
- tt - /f- S* f f
OPERATOR- M aa
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
l ____ L
l L
J_______L J_______L J_______l_______l_______L J_______L/x**
RESISTIVITY (APR) IN OHM METER
?**/ N-l
N-3
N "5
i i i i
FREQUENCY EFFECT (APR) IN 0Xo
/X
A/ X/ N *2
N -3
N S 4
N =5
l________l________l________L
METAL FACTOR (APP
.3 .Z
.Z, . J'
.3 . 3
.3
N = l
N =2
N ^3
N =4
N -5
i i
32D12SE8761 2.12178 HOLLOWAY 480
COMPANY' PERRON '
PROPERTY :
LINE NO.-
ELECTRODE CONFIGURATION -*-X-*^———N X———*~*-X—*-
PLOTTING \ ,' POINT ——*-V X^
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l M l i l l
POSSIBLE /X X X X X
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
FREQUENCIES^ 25 tt 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS I.J.5,2., 3.,5.,7.5, 10.0
PHOENIX IPV-I IPT'I
REMY BELANGER ENRG.
APPROVED'
X
OPERATOR^ r; DATE;
INDUCED POLARIZATION AND RESISTIVITY SURVEY
J_______L
J________L
2/"f J t*
J________l________l________l________l________L J_______L
dtfjj
RESISTIVITY (APR) IN OHM METER
N-
NO
j r//
M =5
J________L J________l J________l________l________l
FREQUENCY EFFECT (APR) IN 7o
.5- //O y
^ l
N =^
N -3
N =4
N *5
'r~ rr~J_______l_______l_______L
METAL FACTOR {APR
' J
.1 V
.3
N E l
N =2
N -3
N *4
N -5
J_______l_______l_______L
32D12SE0781 2.12170 HOLLOWAY 490
COMPANY 1
PROPERTY HOLLOWAV - MARRIOTT
LINE NO.-
ELECTRODE CONFIGURATION —X-*-*———N X———••"•-X-*-
PLOTTING POINT X X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l M l l l i
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
FREQUENCIES- 25 1 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS I., 1.5,2., 3., 5. .7.5, 10.0
PHOENIX IPV-I IPT-I
REMY BELANGER ENRG.
APPROVED;
I*XA^*A.y 3-
OPERATOR: DATE' T*-
INDUCED POLARIZATION AND RESISTIVITY SURVEY
V'OO-3 3-50 l ____ l ____ \ --^-^ l V S*60-*l-J- l ____ l l ____ l
RESISTIVITY (APR) IN OHM METER
N
N=3
N *
J______l______l______L
FREQUENCY EFFECT (APR) IN 7o
r .3 • 7
.t +SI-0 f .i
N* l
N *2
N ^3
N *4
N "5
-S ^tffl-S 3*^0-5 JTOO-Sl_____l_____l J_______L J_______L
METAL FACTOR (APP)
32D12SE8791 2.12178 HOLLOWAY 500
COMPANY 1
PROPER!Y :
LINE NO.- i
ELECTRODE CONFIGURATION •*-X-^*———NX———*-*-X-^
PLOTTING \ ,'POINT X X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l l l l l i
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED;
FREQUENCIES- 25^ 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS I., 1.5,2., 3., 5.,7.5, 10.0
PHOENIX IPV-IIPT-I
REMY BELANGER ENRG
APPROVED^
OPERATOR^ DATE'
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
-s fi L-O ftso-d MCI-13____I
RESISTIVITY (APR) IN OHM METER
N'2
N "3
N=4
N *5
FREQUENCY EFFECT (APR) IN 7o
N *2
N =3
N *4
N =5
leo-1* V*b-*; r**-*' 7*a-A^l
floo-^* K* -A*
METAL FACTOR {APR
32D12SE3791 2.12170 HOLLOWAY 510
COMPANY 1
PROPERTY HOLLO WAV - MARRIOTT
LINE NO.- 12'
ELECTRODE CONFIGURATION -—X-*~*————N X———*~*—X—*-
PLOTTING POINT X X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l M l l l l
POSSIBLE // / / y /
INSTRUMENT
CONTRACTOR
DATE SURVEYED^
FREQUENCIES' 25 1 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS I.,15,2., 3., 5.,7.5, 10.0
PHOENIX IPV-I IPT-I
REMY BELANGER ENRG
APPROVED
OPERATOR^ pt t AM DATE
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
32D1
2SE0
781
3.12178
HOLLOWAY
520
S00V
-**
w*-
**/3
oo-*
JW
QO
-tf
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
5373
N *3
N-4
N S5
FRE
QU
EN
CY
E
FF
EC
T
(AP
R)
IN
"/,
J. t
N =2
N O
N =4
N S
5
ME
TA
L FA
CTO
R
(AP
R)
,t-a
.f.t
-t-f
-f
N *
l
N-2
J.7
,/
.7
f .t
.f -2
.7 J
.a
.3
-J
7 .a
j
N -5
s '
~
/
COM
PANY
' P
ER
RO
M'
PR
OP
ER
TY^
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RA
TIO
NA
.fN
A
^^^^
^™~A
:VH
KI:
PLO
TTIN
G \
,'P
OIN
TX
X^SO
IVI
SUR
FAC
E P
RO
JEC
TIO
N
OF
AN
OM
ALO
US
ZO
NE
S
DE
FIN
ITE
PR
OB
AB
LE
Ml
l M i
l i
POSS
IBLE
/X
X
X / X
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
FRE
QU
EN
CIE
S-'
-25
1 4
.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
I.,1
5,2
., 3
., 5.
.7.5
. 10
.0
PH
OE
NIX
iP
V-l
iPT
-l
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
ED
^
iO
PE
RA
TOR
^C
/&9A
S-
DA
TE:
un*
ft9-f
tfl
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
J__________li
j__
_l
wo-*
*J0
6-*'
g.
fo-w
jo
e-**
*too
-P50
0-™
fo-r
v to
eTf
*'**
t***
**
i*so
-**
1(00
-1*
as*-
**
J________L
32D1
2SE0
781
2.12178 HOLLOWAY
530
^ff-r
f X
7v*
w0/
/7
//V/
J .w
**v /**
*f y
y w**
///
\ ^^
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N-
N =3
N
J__
__
__
_L
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
7o
/v/.j
s.*
/.3
J.3
t.fl'7
l -i
j.
,/
/-f
'J
-as-
N*l
N =2
N =3
N*4
N '5
fa*
,7*0
-^
600-*
)
ME
TA
L FA
CTO
R
(AP
R)
y .J
.y
.JJ
-J
.J
J
.1
J
.3
.3 .3
.y,A
J
.y
,3
,J
,J
.J
.3
.A
.3
.J
.W
.y
j j
.f
X^J r
.A
.A
.A
.A
-l
't
-1
-l
-f -i
*'
-t
/ -l
.A
J
J.A
J
N
* l
N -2
N-3
N *4
N -5
J__
__
__
_L
COM
PANY
' P
ER
RO
N'
PR
OP
ER
TY
'
LIN
E
NO
.-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
+
-X-+
+—
——
N x—
——
^^x^
^
PLO
TTIN
G
\
,'
PO
INT
——
*"V
X
SUR
FAC
E PR
OJE
CTI
ON
O
F A
NO
MA
LOU
S
ZON
ES
FRE
QU
EN
CIE
S-'
251 4
.0
DE
FIN
ITE
—
——
— ̂—
PR
OB
AB
LE
l l
l l i
l i
l l
POSS
IBLE
NO
TE
CO
NTO
UR
S A
T
LOG
AR
ITH
MIC
IN
TE
RV
ALS
I.J5
,e.t
3.,5.,7.5
, 10
-0
INS
TR
UM
EN
T
: P
HO
EN
IX
IPV
-IIP
T-I
CO
NT
RA
CT
OR
:
RE
MY
B
ELA
NG
ER
E
NR
G
DAT
E S
UR
VE
YE
D:
AP
PR
OV
ED
:
r- os-
- //y
/
OP
ER
ATO
R:
1AM
* aa
tojtM
. S
O
DA
TE:
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SUR
VEY
J__
__
__
_L
St'
J__
__
__
_L
•y—
3*
~~
3*"*
y1*
.J_______l_
______l_
______L
J_
__
__
__
l__
__
__
_L
__
__
__
Ll
l_______l_
______L
J_
__
__
__
LJ_
__
__
__
l
J________L
32D12SEB7ai
2.12178 HOLLOWAY
J_
__
__
__
__
L
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
Su
rf
(r^^
\/y
*y? s/
fy/
N =l
N=2
N =3
N*4
N *5
J_______L
FRE
QU
EN
CY
E
FF
EC
T
(AP
R)
IN
70
.t-
. i-J
. f
.1 .c
z-.f
.J .1
. 7
-i.?
J
-J.1
l .1
• t
-.3
-.l
.1 -l
.1 -v
*.V
JL.S
Ji
.1
J
-l.t
.1
-1.0
.1 .1
.1
N *2
N *3
N*4
N =
5
J_________L
y**P
gr^
yr
jr^
/o'*
ME
TA
L FA
CTO
R
(AP
P)
. z.
. E
.
. Z
.
N *
l
N -2
N=3
N *4
N -5
J__
__
__
__
LJ_
__
__
__
_L
540
COM
PANY
' P
ER
RO
M'
PRO
PER
TY
KIR
KL
AN
D L
AK
E
OM
T
LIN
E
NO. -
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
•*
-X-*
*——
—N
X—
——
^*-X
—*-
PLO
TTIN
G
N^N
,'
PO
INT
——
^V
X-
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
M l
l
i l
i
POSS
IBLE
// /
y / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
FRE
QU
EN
CIE
S^
25
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
\.t\
5}2
.t^.
t5.,7
.5t
10.0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED Kt^nM
a/
MflL
.
OPE
RAT
OR
DA
TE'
***,
OQ-
Sfl
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
J_
__
__
__
__
_L
3aD
I2S
E87
(B1
3.1
21
70
HO
LLO
WAY
y*, j
•J
y f
/'"•/
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
\
N *l
N-2
N *3
N *4
N *5
FRE
QU
EN
CY
E
FF
EC
T
(AP
R)
IN
7o
f.
.9
.J. f
N =2
N *3
N S4
N ^5
•t j
*"j
ME
TA
L FA
CTO
R
(AP
P
.z.
.y.t
.f
7
. z.
•3
.2
-.7
. z.
.J J
, t.
. z.
S .1
.3
V
- 7
N -
l
N =2
N O
N '4
N *5
J_________l_
________!_
________l
i ___
l
550
COMP
ANY^
P
ER
RO
N'
PRO
PER
TY H
OL
LO
WA
Y -
MA
RR
IOT
T
LIN
E
NO
.-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
•v—^
J ___
*
PLO
TTIN
G
PO
INT
X X
^5
0M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
l l
l l
i l
l
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
FRE
QU
EN
CIE
S^
25tt 4
.0
NO
T-E
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INTE
RV
ALS
I.,1
5,2
, 3.,
5., 7
.5,
10-0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
tftW
4
OP
ER
ATO
RD
ATE
^T
ujr
g.c
n-
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SUR
VEY
IV
7OO
-Sj~
oo-S
f G
O'
J.Q
Q-*
*.Q
yo
o-1
/ tf
f6f
f
RE
SIS
TIV
ITY
(A
PP
) IN
O
HM
M
ETE
R
HH9B
10
710
f 89
00/f /w
N "
l
N=
2
N *3
N *5
FRE
QU
EN
CY
E
FF
EC
T
(AP
P)
IN
N *
l
N *2
N *3
N =4
N *5
too
-s
6*0-
5f s
o -s
l ——
——
——
——
— J
-s
te -S
3**
~*
J-f*
-s ,oo
-sif
o*f
*?o
o-*s
3
fo-*
tij _
__ ii
*'
re*-
*'
too-
**
Aft*
-**
ir _
__
_ i _
__
_ i
900-
^C
fQO
-As
yfff
.ns
jet*
ME
TA
L FA
CTO
R
(AP
P)
.9-
.3 .1
.f
.1
.1
-f .1
.l
•l .1
.1
.6
-7
.S
.8
.f
.Si
.6
-6
.*f
.9
-5"
3 .a
/.y
1. 1
.r
,/
.6
.f
J
.1
-S
J ,/
.; ,'
-f
.i .7
v
,/ -i
j -i
-i
.i i
.1 ,/
.; -i
N *
l
N =2
N *3
N *4
N '5
- *~
- ~
i-'--
.,1**
- ** *
•-^i—
— -
.— J
- ~
--*r '-
^^ ,
'
\~*'
'. . ,
x *,
,
_________L
32D1
2See
781
2.12170
HOLLOWAY
560
COM
PANY
' P
ER
RO
N'
PR
OP
ER
TY00
*)K
IRK
LA
ND
L
AK
E
OM
T
LIN
E
N0.-
a.3
-g
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
—
—\-
~*
——
——
N X—
——
***-
X—
*-
PLO
TTIN
G
PO
lNi
X X
=50M
FRE
QU
EN
CIE
S^
25
4.0
DE
FIN
ITE
PR
OB
AB
LE
l l
l M
M
M
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
l .1
5,2
., 3
,5.,
7.5
, 10
O
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
v
OP
ER
AT
OR
DA
TE ; -^i.
a
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
S
UR
VE
Y
32D
12S
E07
01
2.1
2178
HO
LLO
WA
Y
'* J
J
' .
D
J.
O/j'*
--
RE
SIS
TIV
ITY
{A
PF
) IN
O
HM
M
ET
ER
J/**
N ^
l
N =
2
N O
N =
4
N =
5
FRE
QU
EN
CY
E
FF
EC
T
(AP
R)
IN
.3
N =
2
N ^3
N =
4
N '5
ME
TA
L FA
CTO
R
(AP
P
.7
-7
-J
-3-y
-X
v
.2-z
:
.t.z
. . s
.
.y. 7
.2.3
.3
l -i
N =
l
N =
2
N =
3
N S
4
N *5
J_
__
__
__
__
LJ________l_
_______l_
_______L
-J,—
——
——
——
——
——
——
——
l-
5Z
0
CO
MP
AN
Y'
RE
RR
OM
*
PRO
PER
TY H
OL
LO
WA
V -
MA
RR
IOT
T
KIR
KL
AN
D L
AK
g
OM
T
LIN
E
NO
.- 2
^-^-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
—
—X-
*~"—
——
—N
X—
——
*~*~
x—-
PLO
TTIN
G \
7PO
INT
—-y
x:
SU
RFA
CE
P
RO
JEC
TIO
N
OF
AN
OM
ALO
US
ZO
NE
S
DE
FIN
ITE
PR
OB
AB
LE
l l
t l
l l
i l
l
PO
SS
IBLE
//S
/ /S
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
FRE
QU
EN
CIE
S-
25/f
4.0
NO
TE
CO
NTO
UR
S A
T
LOG
AR
ITH
MIC
IN
TE
RV
ALS
L
,15
,2.,
3 ,
5.,
7.5
, 10
-0
PH
OE
NIX
IP
V-I
IP
T-
l
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
OP
ER
AT
OR
DATE
- as
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
S
UR
VE
Y
?S6-
* 7
oo
-f
jfo-
* fO
O-3
yfo
~s
Vo
o-S
oo l-*
* if0
-r*J
J.
QO
-™Q l
700-
**
7^0-
**
&O
6-/V
r _
__
......L
. __
__
__
_ l
qco
-iv
c j
RE
SIS
TIV
ITY
(A
PP
) IN
O
HM
M
ETE
R N =
\
N ^
3
N *4
N =5
J_______________L
J_
__
__
__
__
L
.7
.1
,/
,/
J
-l
-l
,X
J
J
.1
J
J
J
l .1
J
.1
.1
-l
.1
-l
.X
J
J
.S
-l
J
.J
.1 .)
J J
J
.1 .1
J .i
.1.1
-i ,\
.1.x
.1
J_
__
__
__
_L
-S
goo
"J
7 f o -
J ?o
o -s
fr
o -
-yf^
o-*
f go
-- 3
V
tf "
A f O
-*
ISO
'S
100 -
S S
f-f
* to
o -/
ff f
-f*
toJ-
o ~
-sV
ISISO
-**
FRE
QU
EN
CY
E
FFE
CT
(AP
F)
IN
N *
l
N =^
N =3
N =4
N =
5
IOO
-AS
ME
TA
L F
AC
TO
R
(AP
P)
.W
-7
\ /.O
k
'f
7 *
3 .y
s .3
.s
.r
.3 -J"
,*
-v
.v
.J
.7.7
.y
.7-z.
7 .6
.5
-f
r ^
-3
./l
-5
-*
-3
-3
Z-
.2x
.s-
'l. t-•
z.. 2
-x
. x
N '
l
N ^Z
N=
3
N *4
N ^5
32D12SE0781 2.12170 HOLLOWAY
580
J_
__
__
__
__
L
FLfiT
COM
PANY
' P
ER
RO
N'
PRO
PER
TY
HQ
LL
QW
AV
-
MA
RR
IOT
T
KIR
KL
AN
D L
AK
E
OM
T
LIN
E
NO
.-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
•*
-X-*
~*-
——
—N
X—
——
9~^-
X—
*-
I
PLOT
TING
POIN
TX
^SO
M
SU
RFA
CE
P
RO
JEC
TIO
N
OF
AN
OM
ALO
US
ZO
NE
SF
RE
QU
EN
CIE
S
25^?
4.0
DE
FIN
ITE
PR
OB
AB
LE
l M
l
i l
l l
i
PO
SS
IBLE
NO
TE
C
ON
TOU
RS
AT
LO
GA
RIT
HM
IC
INT
ER
VA
LS
1,1
5,2
., i
.,5.,
7.5
, 10
.0
INS
TR
UM
EN
T
PH
OE
NIX
IP
V-I
IPT
-l
CO
NT
RA
CT
OR
R
EM
Y
BE
LA
NG
ER
E
NR
G
DA
TE
SU
RV
EY
ED
A
PP
RO
VE
D
^-
/w
OP
ER
ATO
Rli
^fo
/Alf
t D
ATE
J
1.^^
o -7
. ft
8
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
R
ES
ISTI
VIT
Y
SU
RV
EY
32D
12S
E87
ei
2.1
3179
HO
LLO
WA
Y
-*
*fO
-S-S
io
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ET
ER
Ut*
2 '3
* f y
N =
l
N *2
N ='
3
N =
4
N =
5
J——
——
——
——
——
——
——
—U
J__
__
__
__
L
FRE
QU
EN
CY
E
FF
EC
T
(AP
P)
IN
7o
x .x
.7
,/.y
,/
' .;
• y
.i j
,/ v
.x v
,x
-x -y
-x
-v
v
-' -t
'i J
-i -i
-( -i
j ,y
.x ,/
.s .x
v
-x j
.J
*' V
,/
-i ,'
.y ,/
.x . i
J -x
N *
l
N =
2
N
=3
N ^4
N =
5
-58L
ME
TA
L FA
CTO
R
(AP
P
. .t,
7-7
v
/. z.
2-7
.z-f
.3
N *
l
N S
2
N =
3
N =
4
N '5
J_________L
J_
__
__
__
_l_
__
__
__
_l_
__
__
__
_L
530
COM
PANY
' P
ER
RO
M'
PR
OP
ER
TYiV
-M
AR
RIO
TT
KIR
KL
AN
D L
AK
E
OM
T
LIN
E
NO
.-
2.1
-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
PLO
TTIN
G
^v
POINT
—
^ y
SU
RFA
CE
P
RO
JEC
TIO
N
OF
AN
OM
ALO
US
ZO
NE
SF
RE
QU
EN
CIE
S
25
4.0
DE
FIN
ITE
PR
OB
AB
LE
l l
i l
i l
i l
t
PO
SS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
NO
TE
C
ON
TOU
RS
A
T
LOG
AR
ITH
MIC
IN
TE
RV
ALS
l
, l 5
,2.,
3 ,
5.,
75
, 10
O
PH
OE
NIX
tP
V
li F
' T
i
RE
MY
B
ELA
NG
ER
AP
PR
OV
ED
nP
FR
AT
OR
.D
AT
E
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
S
UR
VE
Y
f ff"
't f
*'
j"".
'y*
*/
j/**-
' j*
- J
y/"*
x/'*
-' x*
*-*
J**-
* /J
/-*y*
**-"
y/
***-
yv*
j1/*
*-f t*
"i_
__
__
i
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ET
ER
\ g
r7?
\\
) 7
* f f
]s*
j
N "
t
N =
a
N s
3
N s 4
N =5
J_
__
__
__
_i_
__
__
__
_i_
__
__
__
_i
J_
__
__
l
FR
EQ
UE
NC
Y
EF
FE
CT
(A
PR
) IN
7o
f./
. X
/
N =
l
N *2
N -3
N =4
N ^5
J_
__
__
__
__
Lj'*
—'
J——
——
——
——
——
——
——
—L
ME
TA
L FA
CTO
R
(AP
P)
N =
l
N *2
N =
3
N *4
N -5
J__
__
__
__
LJ_________L
fi''S
M **
A y
"
' ''f
CO
MP
AN
Y
Th
e . \f
-1
^t -j
t e N
e
.25
N1..
U.
/
V
Od -
S* V
- y
? 8
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D
RE
SIS
TIV
ITY
S
UR
VE
Y
IOS
Q-5
10
-S
W-S
85
^'S
l-s
to
o -J
r^o-
s ^
ff-f
t&o-
s g
o-
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N *2
N =
3
N =
4
N "5
FRE
QU
EN
CY
E
FFE
CT
(AP
P)
IN
7o
i..1
. i -i
. i .1
.t•f
.f.t
.i ,i
.1 .1
-f
-i
-l
.t j
. j
,/ .y
. .
1 .t
-t
.1 .f
. i
.l -i
-i ,/
-'
.;
.;
. i
-t -i
-l
-j
. t
.1 .1
.f^ l
N =2
N =
3
N =
4
N =
5
J_
__
__
__
_L
00
0 -
5
75
0-5
o-.5
i6
O~S
-5fg
so"
v TM
-AS
75
ME
TA
L F
AC
TO
R
(AP
P
i .3
.1
32D1
2SE0
701
2.iai70 HOLLOWAY
61
0
COM
PANY
P
ER
RO
M'
PR
OP
ER
TY H
OL
LO
WA
V -
MA
RR
IOT
T (j
LIN
E
NO
.-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
•*
-X-"
~*—
——
—N
X—
——
*~*—
X—*~
PLO
TTIN
G
PO
INT
X X
^SO
M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
t l
i t
i l
i l
i
POSS
IBLE
//s /
7 /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D:
FRE
QU
EN
CIE
S-'
251 4
.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INTE
RV
ALS
l ,
I5,2
., 3
., 5.
, 7.
5, 1
0 O
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
OP
ER
ATO
R:
DA
TE
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y
IV-
e
170/
3
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R Ns
l
N-2
N "3
N =4
N -5
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
N N N N
- -
- -
--
- -
- -
--
--/
W
ME
TA
L FA
CTO
R
(AP
P
N * i
N 'Z
N -3
N *4
N S
5
CO
MP
AN
Y:-
PJ
PR
OP
ER
TY
LIN
E
NO
-
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
—
—X-
^*—
——
—N
X—
——
*-*-
X-*
PLO
TTIN
G
\
PO
INT
—
—*"
Y
SUR
FAC
E PR
OJE
CTI
ON
OF
ANO
MAL
OU
S ZO
NE
S
DE
FIN
ITE
PR
OB
AB
LE
l l
l i
i l
i l
i
POSS
IBLE
X
/ X
X
7 X
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D^
FRE
QU
EN
CIE
S^
.25
1 4
.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
l .1
5,2
., 3
-,5.,7.5
, 10
.0
PH
OE
NIX
iP
V-l
IPT
-IR
EM
Y
BE
LAN
GE
R
EN
RG
AP
PR
OV
ED
-t?
if
^yw 7
OP
ER
ATO
R^
DA
TE :
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SUR
VEY
(V
n
---
'f .
T-
r--
-r-
65*5
.i -r
-' -'
.1 -l
-y
- -
" -
---
-
7f9
-*l-*
*'
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R N *l
N^2
N '3
N ^4
N *5
l i
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
7o
N =
l
N *2
N S
3
N =
4
N ^5
ffoga
o
ME
TA
L FA
CTO
R
(AP
P
. l
N *
l
N -2
N =
3
N -4
N E
532
DiaS
E070
l 2.12170
HOLLOWAY
G30
•37J_
__
__
__
__
L
r/sf
it
PR
OP
ER
TY
LIN
E
NO
.- 3
6-B
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
-—
X™*~
*——
——
NX—
——
*-*—
X—*-
PLO
TTIN
G
PO
INT
y x=
5olvl
SU
RFA
CE
P
RO
JEC
TIO
NO
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
l l
i i
l l
M i
POSS
IBLE
// S
/ / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
FRE
QU
EN
CIE
S-
25It
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
l ,l5
,a., 3
,5.,
7.5
, 10
-0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
^
/S*^
**M
OP
ER
ATO
RD
ATE
-j fa
*J- b
uy
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
S
UR
VE
Y
32Di
aSE8
781
2.1217B
HOLLOWAY
s 7*
0-5
E_
__
__
_J
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
1033
**0
*A1
,2^
OA(
HOS
1SL?
N=^
NO
N*4
N =
5
J——
——
——
—k
FRE
QU
EN
CY
E
FF
EC
T
(AP
R)
IN
7o
.7
,/ ,/
-l
• l .1
,a
.3
J
.3
.3
-l .1
.1
.3
, i
.1
.1
t .1
.1
.1
.1
l -l
-.7
.s
-.y
. j .3
J
.3
. J
.t
-X
. l
.1
.1 .i
• J• i
N"
l
N =
2
N =
3
N S
4
N *5
s /O
f o -s
to
&o-
sqe
o ~s
gf o -
s-.y
7
o -
-j
top j
5*01
/s^
•O
CAM
/ A
M7J
&*
ME
TAL
FAC
TOR
(A
PR
)
8 .v
• V
-l
.5
-3
.2.
-3
N -
l
N *a
N *3
N *4
N '5
i i
64
0
COM
PANY
' P
ER
RO
N'
PR
OP
ER
TY
LIN
E
NO -
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
N
X—
——
"^—
X—
^
PLO
TTIN
G
N,
PO
INT
—
—^
X X
-50M
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
PR
OB
AB
LE
t l
l M
l
i l
i
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
FRE
QU
EN
CIE
S:
254.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INT
ER
VA
LS
l , 1
5,a
., 3
., 5.
, 7.
5, 1
0.0
PH
OE
NIX
IP
V-I
IP
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
OP
ER
ATO
Ro4
-
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
S
UR
VE
Y
J_______L
Joo-S
320i2SE67ei 2.l^^7^ HOLLOWAY
iff tu
RESISTIVITY (APR) IN OHM METER
N-l
N S 3
N *4
N '5
l l ii
FREQUENCY EFFECT (APR) IN 7o
/ J J
J
J .j
J ,/ J
J
J .3 ,/
J .f
J
N* l
N *2
N *3
N *4
N ^5
/5o-s /tf^-S QSo-SIIItso-*l j so- d loo -A)
METAL FACTOR (APP)
9 .9 ,S .7 .3
.S .3 .3 ,V J
.3 .3
J
N -5
650
COMPANY
PROPERTY^ - MARRIOTT
LINE NO.- 39
ELECTRODE CONFIGURATION —-X-***———NX———*-*—X—*-
PLOTTINGPOINT
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE 1 l l l l 1 i l i
FREQUENCIES: Z5& 4.0
NOTE CONTOURS AT
INSTRUMENT
CONTRACTOR
DATE SURVEYED
PHOENIX IPV-I IPT-I
REMY BELANGER ENRG
APPROVED ^
OPERATOR; DATE ^ - fiS
INDUCED POLARIZATION
AND RESISTIVITY SURVEY
32DiaSE0701 2.12170 HOLLOWAY
//0
D-S
-5
IODO
-S
yeo
-5-S
7S
"0-S
70
o-y
65
*-*
50-5
to
o-S
5-00
-3
yfo-
5 vo
o-fi
J*o-
* J^
*-*
3.^0
-S
/fo-5
____/*
*-S
5J
-Sf a
-t*
/ae-
*
tS*-
"*
-Zoo
-/*/a
e- *
tS
yoo-
**y*
*-*'
go
o-**
*0- ̂
GG
O
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ET
ER
UBS
Jit
N =
\
N=^
N =3
N =
4
N =5
FRE
OU
EN
CY
E
FF
EC
T
(AP
R)
IN
. l
.LN
* l
N =2
N "3
N S
4
N =5
7fO
-Sat
.5-
p-A
/ /o
o-tv
(S
O-n
t36
0 -
f Bo
-w
*o*
-/wZE
ME
TA
L FA
CTO
R
(AP
R)
y .3
.1/.o
.3
.4
.7
,/
,3
43,1
N s
l
N =2
N "3
N =4
N "5
CO
MP
AN
Y:
PE
RR
ON
'
PR
OP
ER
TY.V
- M
AR
RIO
TT
//*^
LIN
E
NO.
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
-—
X-*
"*—
——
—N
X—
——
*^~X
—*-
Ii ^
i
PLO
TTIN
G
PO
INT
X X
^SO
M
SU
RFA
CE
P
RO
JEC
TIO
N
OF
AN
OM
ALO
US
ZO
NE
S
DE
FIN
ITE
PR
OB
AB
LE
l M
i
M
i l
i
PO
SS
IBLE
/X
/ / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
-JO
-
FRE
QU
EN
CIE
S^
251 4
.0
NO
TE
C
ON
TOU
RS
AT
LO
GA
RIT
HM
IC
INT
ER
VA
LS
l J 5
, 3
, 3,
5.,
7.5,
IO
O
PH
OE
NiX
IP
V-I
IPT
- l
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
OP
ER
ATO
RD
ATE
o4-
88
IND
UC
ED
P
OLA
RIZ
ATI
ON
AN
D R
ES
ISTI
VIT
Y
SU
RV
EY
RESISTIVITY (APR) IN OHM METER
N *l
N-2
N=3
N=4
N -5
FREQUENCY EFFECT {APR} IN 70
N- l
N -2
N =3
N S 4
N -5
.7*0 j y**— X-J'
METAL FACTOR (APR
.3 . z
J. f
N - l
N "2
N *3
N "4
N -5
32D125E67*! 2.13l7e HOLLOWAY
COMPANY :
PROPERTY - MARRIOTT
LINE NO.
ELECTRODE CONFIGURATION —-X-"~*———N X———*-*-x—*-
PLOTTING \ ,'POINT X^SOM
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l l l i l i l
POSSIBLE // S / /
FREQUENCIES" 25J? 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS l..15,2., 3.,5.,7.5, 10.0
INSTRUMENT PHOENIX IPV-IIPT-I
CONTRACTOR : REMY BELANGER ENRG
DATE SURVEYED APPROVED
y ^^**..
OPERATOR DATE 1C-
INDUCED POLARIZATION AND RESISTIVITY SURVEY
T'
Ts
f 9
0-5
-S
gO
O -
3S
ISO
-S
/Oe-
S
S"0-
S Q
L/s
o-t*
APS-
'*y
00 -
SO
O'**
f So
-At
ISO
'
RE
SIS
TIV
ITY
(A
PP
) IN
O
HM
M
ETE
R
W*
70S
833
\ N
Y
f0
vvg
N =
3
N =
4
N *5
J——
——
——
——
——
——
L
FRE
QU
EN
CY
E
FF
EC
T
(AP
P)
IN
70
-l
J ,/
.;
. l
-l
.1
.f
J
.1
,/
1.6
\
-l
-l
.t
. l
J
-l
-f
- /
- l
.1
.1 J
.i
.1
.1
.j
-l
. l
.1
.t.1
.f
.f.f
.1
1.2
J
.H
.t .1
.7
1.3
N *2
N =
3
N *4
N =
5
tfeo
-fIW
-S6Q
Q-S
f f*
-*#
06
-3jf
o ~
S /O
e-5
J&O
-J
rfOO
-J
rfO
o-J
ffiL
-*'
Jfo
-*'
jao
-fr
jso
-*t
ye
o-*
* IS
O-*
* 5
00
-**
gio
-"*
6O6~
f*•7
00-*
j
ME
TA
L F
AC
TO
R
(AP
P)
.i
.1.7
.i .a
.t.t
.H
, J'
-S.3
.JL
.3•3
.VV
~?.5
.3
,3
,3•l
.3
.7 ^
i.*
-V
'.3
'.2
t.7
•*
N =
l
N *2
N *3
N =
4
N '5
J_
__
__
__
__
l__
__
__
__
_l_
__
__
__
__
LJ_
__
__
__
_l
J_
__
__
__
_L
32DiasE07B
l 2.
1217
0 HOLLOWAY
680
CO
MP
AN
Y^
PE
RR
ON
'
PR
OP
ER
TY
KIR
KL
AN
D L
AK
E
ON
T
LIN
E
NO
.-
ELE
CT
RO
DE
C
ON
FIG
UR
ATI
ON
+
-X-*
*——
——
NX—
— *
-*—
X—
^
PLO
TTIN
G
PO
INT
X X
-50
M
SU
RFA
CE
P
RO
JEC
TIO
N
OF
AN
OM
ALO
US
ZO
NE
S
DE
FIN
ITE
PR
OB
AB
LE
l l
l l
i l
i i
l
PO
SS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DA
TE
SU
RV
EY
ED
:
FRE
QU
EN
CIE
S^
25tt
4.0
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INTE
RV
ALS
l
, 15,
2.r 3
,5
.,7
.5,
10 O
PH
OE
NIX
IP
V-I
1P
T-I
RE
MY
B
ELA
NG
ER
E
NR
G
AP
PR
OV
ED
A^
OP
ER
AT
OR
DA
TE
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
S
UR
VE
Y
3o*
RESISTIVITY (APR) IN OHM METER
til
N *l
N=^N =3
N *4
N =5
FREQUENCY EFFECT (APF) IN
.s
N* l
N *2
N ^3
N *4
N *
r o
METAL FACTOR (APP)
N * l
N *2
N O
N =4
N *5
32D12SE*7ei 2.12170 HOLLOWAY 700
COMPANY : -PI
PROPERTY HOLLO WAV -
LINE NO.-
ELECTRODE CONFIGURATION -^-X"^* — — N X ——— *-*-X— *-
rn r
PLOTTING POINT
SURFACE PROJECTION OF ANOMALOUS ZONES
DEFINITE
PROBABLE l l i M i i i i
POSSIBLE // / / / /
INSTRUMENT
CONTRACTOR
DATE SURVEYED
MM: f L - Sfff
OPERATOR
FREQUENCIES: 25 1 4.0
NOTE CONTOURS AT LOGARITHMIC INTERVALS l , 15,2., 3., 5., 7.5, 10-0
PHOENIX IPV-I IPT-I
REMY BELANGER ENRG
APPROVED
DATE P g - g*
NDUCED POLARIZATIONAND RESISTIVITY SURVEY
J__
__
__
__
__
LJ____________l_
___________l_
___________L
J__________L
7*0-5
J_
__
__
__
__
_L
32Dt
aSEe
701
2.13170 HOLLOWAY
630
RE
SIS
TIV
ITY
(A
PR
) IN
O
HM
M
ETE
R
18*
N *l
N*2
N *3
N =4
N -5
CO
MP
AN
Y
PR
OP
ER
TY
0*3)
LIN
E
NO
.-
HH
FRE
QU
EN
CY
E
FFE
CT
(AP
R)
IN
0A
. l
ELE
CTR
OD
E
CO
NFI
GU
RAT
ION
•*
-X-*
*——
——
N X
——
—*-
*—X—
*-
PLO
TTIN
G
PO
INT
\ S
fc
X
8 .7
7
.9
.7
S -3L
-j
-Y
3 .y
.s
.r
.1 -5.
6
•*
3 -t
.j
.3
-l
-f
.f
.S
-VM
ET
AL
FAC
TOR
(A
PP
•3f
N *
l
N -Z
N *3
N *4
N =5
SUR
FAC
E PR
OJE
CTI
ON
O
F AN
OM
ALO
US
ZON
ES
DE
FIN
ITE
"
PR
OB
AB
LE
l l
l l
l l
l l
l
POSS
IBLE
// / / / /
INS
TR
UM
EN
T
CO
NT
RA
CT
OR
DAT
E S
UR
VE
YE
D
OP
ER
ATO
R-
FRE
QU
EN
CIE
S-
251
4.Q
NO
TE
CO
NTO
UR
S A
T LO
GA
RIT
HM
IC
INTE
RV
ALS
I.,
l 5,
2.,
3.,
5.,
7.5,
10.
0
PH
OE
NIX
IP
V-I
IP
T-!
RE
MY
B
ELA
NG
ER
E
NR
G.
AP
PR
OV
E D
:
IND
UC
ED
P
OLA
RIZ
ATI
ON
AND
RE
SIS
TIV
ITY
SU
RVE
Y