Particle A and particle B are held together with a compressed spring between them. When they...
Particle A and particle B are held together with a compressed spring between them. When they are released, the spring pushes them apart, and they then fly off in opposite directions, free of the spring. The mass of A is 4.00 times the mass of B, and the energy stored in the spring was 41 J. Assume that the spring has negligible mass and that all its stored energy is transferred to the particles. Once that transfer is complete, what are the kinetic energies of each particle?
Particle A: _____________J
Particle B: _____________J
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Particle A and particle B are held together with a compressed
spring between them. When they...
Particle A and particle B are held together with a compressed spring between them. When they...
Particle A and particle B are held together with a compressed spring between them. When they are released, the spring pushes them apart, and they then fly off in opposite directions, free of the spring. The mass of A is 3.00 times the mass of B, and the energy stored in the spring was 90 J. Assume that the spring has negligible mass and that all its stored energy is transferred to the particles. Once that transfer is complete, what...
Chapter 09, Problem 048 Your answer is partially correct. Try again Particle A and particle are...
Chapter 09, Problem 048 Your answer is partially correct. Try again Particle A and particle are held together with a compressed spring between them. When they are released, the spring pushes them apart and they then fly off in opposite directions, free of the spring. The mass of A is 2.00 times the mass of , and the energy stored in the spring was 80 ). Assume that the spring has negligible mass and that all its stored energy is...
Two blocks on a frictionless table are held at rest with a compressed spring between them....
Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring has a spring constant of 215N / m and was compressed by 0.20 m. If one of the blocks moves at 1.50 m/s and the other moves away at 3.00 m/s , what is the mass of the heavier block in kg? (Hint: mechanical energy in...
Two blocks on a friction less table are held at rest with a compressed spring between...
Two blocks on a friction less table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring has a spring constant of 215 N/m. One of the blocks moves away at 0.45 m/s while the other moves away at 0.90 m/s. The heavier of the two blocks has a mass of 1.4 kg. How far was the spring compressed in m?
Two blocks, A and B, are initially held together by a string as shown in the...
Two blocks, A and B, are initially held together by a string as
shown in the figure; the mass of block A is of 2 kg and the mass of
block B is 4 kg. The massless spring in-between the two blocks has
a spring constant of k = 655 N/m and is initially compressed by 45
cm. The two blocks are initially moving together with a speed of 1
m/s. When the string is cut (i.e., when the blocks...
O Question 10 Two blocks on a frictionless table are held at rest with a compressed...
O Question 10 Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in agaosite directions. The spring was compressed by 0.05 m. One of the blocks moves away at 0.28 m/s while the other moves away at 0.56 m/s. The heavier of the two blocks has a mass of 0.75kg. What is the spring constant in N/m?/Hint mechanical energy in...
70.6 319 12.7 56.7 220 44.5 Two blocks on a frictionless table are held at rest...
70.6
319
12.7
56.7
220
44.5
Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring was compressed by 0.05 m. One of the blocks moves away at 0.28 m/s while the other moves away at 0.56 m/s. The heavier of the two blocks has a mass of 0.75 kg. What is the spring constant in...
Question 10 1 pts Two blocks on a frictionless table are held at rest with a...
Question 10 1 pts Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring has a spring constant of 215 N/m and was compressed by 0.20 m. If one of the blocks moves at 1.50 m/s and the other moves away at 3.00 m/s, what is the mass of the heavier block in kg? (Hint: mechanical...
Suppose that two carts, with a compressed spring between them (but not attached to either cart),...
Suppose that two carts, with a compressed spring between them (but not attached to either cart), are free to roll on a level table. The carts have very different masses and are initially stationary. Consider frictional losses to be negligible. The spring is released and the carts move apart. Are the final kinetic energies of the two carts equal, or is one greater than the other (if so, specify which is greater)? Explain your reasoning using fundamental physics principles, laws,...
A 220 B 70.6 C 319 D 12.7 E 44.6 F 56.7 Two blocks on a...
A 220
B 70.6
C 319
D 12.7
E 44.6
F 56.7
Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring was compressed by 0.05 m. One of the blocks moves away at 0.28 m/s while the other moves away at 0.56 m/s. The heavier of the two blocks has a mass of 0.75 kg....
Chapter 09, Problem 048 Your answer is partially correct. Try again Particle A and particle are held together with a compressed spring between them. When they are released, the spring pushes them apart and they then fly off in opposite directions, free of the spring. The mass of A is 2.00 times the mass of , and the energy stored in the spring was 80 ). Assume that the spring has negligible mass and that all its stored energy is...
Two blocks, A and B, are initially held together by a string as
shown in the figure; the mass of block A is of 2 kg and the mass of
block B is 4 kg. The massless spring in-between the two blocks has
a spring constant of k = 655 N/m and is initially compressed by 45
cm. The two blocks are initially moving together with a speed of 1
m/s. When the string is cut (i.e., when the blocks...
O Question 10 Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in agaosite directions. The spring was compressed by 0.05 m. One of the blocks moves away at 0.28 m/s while the other moves away at 0.56 m/s. The heavier of the two blocks has a mass of 0.75kg. What is the spring constant in N/m?/Hint mechanical energy in...
70.6
319
12.7
56.7
220
44.5
Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring was compressed by 0.05 m. One of the blocks moves away at 0.28 m/s while the other moves away at 0.56 m/s. The heavier of the two blocks has a mass of 0.75 kg. What is the spring constant in...
Question 10 1 pts Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring has a spring constant of 215 N/m and was compressed by 0.20 m. If one of the blocks moves at 1.50 m/s and the other moves away at 3.00 m/s, what is the mass of the heavier block in kg? (Hint: mechanical...
A 220
B 70.6
C 319
D 12.7
E 44.6
F 56.7
Two blocks on a frictionless table are held at rest with a compressed spring between them. When the blocks are released, the spring pushes them apart and they move in opposite directions. The spring was compressed by 0.05 m. One of the blocks moves away at 0.28 m/s while the other moves away at 0.56 m/s. The heavier of the two blocks has a mass of 0.75 kg....
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