Blocks A (mass 2.50 kg) and B (mass 8.00 kg) move on a frictionless, horizontal surface. Initially, block B is at rest and block A is moving toward it at 4.00 m/s. The blocks are equipped with ideal spring bumpers. The collision is head-on, so all motion before and after the collision is along a straight line. Let + be the direction of the initial motion of block A. Show Transcribed Text Part A Umax = Find the maximum energy stored in the spring bumpers. Express your answer with the appropriate units. Show Transcribed Text Part B 16.0 0 VA = Submit Submit Previous Answers Request Answer X Incorrect; Try Again; 6 attempts remaining LON 3 μА HÅ C Value J 3 Find the velocity of block A when the energy stored in the spring bumpers is maximum. Express your answer with the appropriate units. Ć Units 590 B ? Previous Answers Request Answer ? Units input for part B X Incorrect; Try Again; 6 attempts remaining

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▾ Part C
Find the velocity of block B when the energy stored in the spring bumpers is maximum.
Express your answer with the appropriate units.
Y
UB=0.80
Show Transcribed Text
0
Part D
VA =
μА 1
Submit Previous Answers Request Answer
Submit
X Incorrect; Try Again; 6 attempts remaining
Part E
Find the velocity of block A after they have moved apart.
Express your answer with the appropriate units.
μА
Value
Request Answer
→
4
μÁ
m
UB= Value
S
3
SE ?
Find the velocity of B after they have moved apart.
Express your answer with the appropriate units.
Units
Units
?
?
Transcribed Image Text:▾ Part C Find the velocity of block B when the energy stored in the spring bumpers is maximum. Express your answer with the appropriate units. Y UB=0.80 Show Transcribed Text 0 Part D VA = μА 1 Submit Previous Answers Request Answer Submit X Incorrect; Try Again; 6 attempts remaining Part E Find the velocity of block A after they have moved apart. Express your answer with the appropriate units. μА Value Request Answer → 4 μÁ m UB= Value S 3 SE ? Find the velocity of B after they have moved apart. Express your answer with the appropriate units. Units Units ? ?
Blocks A (mass 2.50 kg) and B (mass 8.00 kg)
move on a frictionless, horizontal surface. Initially,
block B is at rest and block A is moving toward it
at 4.00 m/s. The blocks are equipped with ideal
spring bumpers. The collision is head-on, so all
motion before and after the collision is along a
straight line. Let +x be the direction of the initial
motion of block A.
Show Transcribed Text
Part A
Umax =
Find the maximum energy stored in the spring bumpers.
Express your answer with the appropriate units.
2
Part B
16.0
Show Transcribed Text
VA =
Submit Previous Answers Request Answer
Submit
μA
X Incorrect; Try Again; 6 attempts remaining
ÿ
Ć
HÅ 1
Value
Find the velocity of block A when the energy stored in the spring bumpers is maximum.
Express your answer with the appropriate units.
|J
→
Units
w
?
Previous Answers Request Answer
?
Units input for part B
X Incorrect; Try Again; 6 attempts remaining
Transcribed Image Text:Blocks A (mass 2.50 kg) and B (mass 8.00 kg) move on a frictionless, horizontal surface. Initially, block B is at rest and block A is moving toward it at 4.00 m/s. The blocks are equipped with ideal spring bumpers. The collision is head-on, so all motion before and after the collision is along a straight line. Let +x be the direction of the initial motion of block A. Show Transcribed Text Part A Umax = Find the maximum energy stored in the spring bumpers. Express your answer with the appropriate units. 2 Part B 16.0 Show Transcribed Text VA = Submit Previous Answers Request Answer Submit μA X Incorrect; Try Again; 6 attempts remaining ÿ Ć HÅ 1 Value Find the velocity of block A when the energy stored in the spring bumpers is maximum. Express your answer with the appropriate units. |J → Units w ? Previous Answers Request Answer ? Units input for part B X Incorrect; Try Again; 6 attempts remaining
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