dp=? de - newton.uor.edunewton.uor.edu/facultyfolder/eric_hill/phys231/lecture/lect 27...
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![Page 1: Dp=? DE - newton.uor.edunewton.uor.edu/facultyfolder/eric_hill/Phys231/Lecture/Lect 27 ppt.pdfassociated with the center of mass motion was KK trans F hand ' r cm N m ' 0.035transNm](https://reader031.vdocument.in/reader031/viewer/2022020206/5cf6a58088c99387248b8671/html5/thumbnails/1.jpg)
Mon. Tues. Wed. Lab Fri.11
9.4-.5 (.9) The “Point Particle” approximation 10.1-.4 Introducing Collisions Quiz 9 L8 Multi-particle Systems 10.6-.8 Scattering
RE 9.c EP8, HW9: Ch 9 Pr’s 34, 40, 43 RE 10.a RE 10.b
Center of Mass
Center of Mass
Dp=? DE =?
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Work and Translational Kinetic Energy
What is the net work done on a multi-particle system?
A
C
B
AnetF .
BnetF .
CnetF .
C B
A
Br
D
Cr
D
Ar
D
CCnetBBnetAAnetCnetBnetAnetnet rdFrdFrdFWWWW
......
Each integral for each external force over the displacement of it’s point of application.
systemEWnet D
internalnaltranslatio EKWnet DD
internal
2
21 EMvW cmnet DD
particles
particleparticlenetnet rdFW
.
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Over what distance was the force applied?
a) 0.03 m b) 0.04 m c) 0.07 m d) 0.08 m e) 0.10 m
Assume no friction; say you pulled horizontally with a constant 0.5N force, then the total work done on the system / total change in energy of the system was
netWE D system
D handhandsystem rdFE
handhandsystem rFE DD
mNEsystem 08.05.0D Nm04.0
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A
C
B
Work and Translational Kinetic Energy
How is that split between translational and internal energy?
dt
vdM
dt
pdF cmtotal
net
cmcm
cmnet rddt
vdMrdF
dt
rdvMdrdF cm
cmcmnet
cmcmcmnet vdvMrdF
cmcmcmnet vdvMrdF
2
21
cmcmnet MvrdF D
Just like for a point particle
C B
A
c.m.
c.m.
systemEWnet D
internalnaltranslatio EKWnet DD
internal
2
21 EMvW cmnet DD
naltranslatiocm KW D""
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a) 0.03 m b) 0.04 m c) 0.07 m d) 0.08 m e) 0.10 m
Assume no friction; say both blocks have the same mass, 0.1 kg (and the spring is much less massive), and you pulled horizontally with a constant 0.5N force, then the change in translational kinetic energy associated with the center of mass motion was
cmhandtrans rFK DD
mNKtrans 07.05.0D Nm035.0
D cmnettrans rdFK What is the center of mass’s final speed?
2
.212
.21
icmsystemfcmsystemtrans vmvmK D
system
transfcm
m
Kv
D
2.
s
m59.01.0*2
035.02
kg
J
If both blocks have the same mass, then through what distance did the center of mass travel while the force acted?
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Work and Translational Kinetic Energy
CnetF .
Br
D
Cr
D
Ar
D
internal
2
21 EMvW cmnet DD 2
21"" cmcmnetcm MvrdFW D
and
so
internal"" EWW cmnet D or internal"" EWW cmnet D
A
C
B
c.m.
AnetF .
BnetF .
C B
A
c.m.
If we can independently calculate the net work and the work of translating the center of mass, the difference is change in internal energy.
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a) 0 J b) 0.005 J c) 0.035 J d) 0.040 J e) 0.075 J
If both blocks have the same mass, by how much did the internal (vibrational kinetic + spring potential) change?
netWE D system
D handhandsystem rdFE
handhandsystem rFE DD
mNEsystem 08.05.0D Nm04.0
cmhandtrans rFK DD
mNKtrans 07.05.0D Nm035.0
D cmnettrans rdFK
internaltranssystem EKE DDD
mr 07.0cm D
mr 08.0hand D
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Work and Translational Kinetic Energy
internalErdF cmnet D
Example systemEWnet D
Earthfloorwallextnet FFFF
.
System: skater
Active surroundings: wall, floor, Earth
EarthF
floorF
wallF
internalEKrdF naltranslatio
i
iinet DD
internalEKrdF naltranslatiohandwall DD
Stationary on wall While force applied
internalEK naltranslatio DD
internalErdF cmwall D
Drcm
Say an average force of 10 N applied as her center of mass moves 0.3 m. What change in internal energy?
internal
internal
3
3.010
EJ
EmN
D
D If she was initially at rest, and her mass is 50 kg, with what speed does she (her c.m.) leave the wall?
naltranslatioKD
2
.
2
.21
int icmfcm vvmE D
smvkg
Jfcm /35.0
50
6.
fcmv
m
E.
int2
D
0
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Example: Pulling spinning puck
If it started from rest, how fast was it going at the end? What was its rotational kinetic energy? If a uniform disc of radius r, what was its angular speed?
System: Puck Active surroundings: Hand
Fhand Fhand
07_twodiscs.py
Drhand = d + L
Drcm =d
Lstring
m
r
puckEWnet D
ernalnaltranslatiohandhand EKrdF intDD
transcmhand KrdF D
2
.
2
.21
icmfcmhand vvmdF
m
dFv hand
fcm
2.
irothandhand EdFLdF D
irothand ELF D
22
21
ifdischand ILF
2
21 mrIdisc
disc
handf
I
LF2
2
4
mr
LFhand
transhand KdF D
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You pull up with constant force F What is the change in translational kinetic energy of the box? 1) F*b – mg*b 2) F*a – mg*b 3) F*(a+b) – mg*(b) 4) F*(a+b) – mg*(a+b)
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You pull up with constant force F What was the net work done on the box? 1) F*b – mg*b 2) F*a – mg*b 3) F*(a+b) – mg*(b) 4) F*(a+b) – mg*(a+b)
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You pull up with constant force F
So the change in internal energy is
internalnaltranslatio EKWnet DD
internalEmgbFbmgbabF D
internalEFa D
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Exercise: You have a box containing a squishy mass on a spring (initially at its equilibrium length); when you pull it sideways, the spring extends until the mass squashes against the far wall of the box. In terms of the labeled properties, if the ball is much more massive than the box or spring, A) What’s the center of mass’s speed? B) What’s the increase in the ball’s internal energy?
ks
m
Drhand = d
s
Fhand Fhand
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Friction
Fhand Fhand
Ffloor.friction Ffloor.friction
Drcm = d
transcmnet KrdF D
Center of Mass Motion
2
21
. cmfrictionflhand MvdFF DIf forces are equal, no change in kinetic – constant speed.
Total Work and Energy
systemEWnet D
inttrans EKrdFi
ii DD
frictionfrictionflhand rdFdF
.
Over what distance is friction applied?
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Friction
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Mon. Tues. Wed. Lab Fri.
9.4-.5 (.9) The “Point Particle” approximation 10.1-.4 Introducing Collisions Quiz 9 L8 Multi-particle Systems 10.6-.8 Scattering
RE 9.c EP8, HW9: Ch 9 Pr’s 34, 40, 43 RE 10.a RE 10.b
Center of Mass
Center of Mass
Dp=? DE =?