A 3.15-g bullet embeds itself in a 1.17-kg block, which is attached to a spring of force constant 805 N/m.
a) If the maximum compression of the spring is 5.88 cm, find the initial speed of the bullet.
b) Find the time for the bullet-block system to come to rest.
A 3.15-g bullet embeds itself in a 1.17-kg block, which is attached to a spring of...
A 2.40-g bullet embeds itself in a 1.10-kg block, which is
attached to a spring of force constant 760 N/m .
A 2.40-g bullet embeds itself in a 1.10-kg block, which is attached to a spring of force constant 760 N/m. If the maximum compression of the spring is 5.40 cm, find the initial speed of the bullet. v_0 = m/s Find the time for the bullet-block system to come to rest. t = s
A 2.40-g bullet embeds itself in a 1.20-kg block which is attached to a spring of force constant 760 N/m Part A If the maximum compression of the spring is 5.80 cm, find the initial speed of the bullet να ΑΣφ m/s Previous Answers Request Answer Submit X Incorrect; Try Again; 2 attempts remaining Part B Find the time for the bullet-block system to come to rest. ΑΣφ t = Request Answer Submit
A 2.20-g bullet embeds itself in a 1.50-kg block, which is attached to a spring of force constant 750 N/m . If the maximum compression of the spring is 5.50 cm , find the initial speed of the bullet.
A 10.0-g bullet is fired into, and embeds itself in, a 1.95-kg block attached to a spring with a force constant of 20.0 N/m and whose mass is negligible. How far is the spring compressed if the bullet has a speed of 300 m/s just before it strikes the block and the block slides on a frictionless surface? Note: You must use conservation of momentum in this problem because of the inelastic collision between the bullet and block.
A 10.0-g bullet is fired into, and embeds itself in, a 1.80-kg block attached to a spring with a force constant of 22.3 N/m and whose mass is negligible. How far is the spring compressed if the bullet has a speed of 300 m/s just before it strikes the block and the block slides on a frictionless surface? Note: You must use conservation of momentum in this problem because of the inelastic collision between the bullet and block.
2) A 10.0-g bullet is fired into, and embeds itself in, a 1.80-kg block attached to a spring with a force constant of 22.4 N/m and whose mass is negligible. How far is the spring compressed if the bullet has a speed of 300 m/s just before it strikes the block and the block slides on a frictionless surface? Note: You must use conservation of momentum in this problem because of the inelastic collision between the bullet and block. ___...
A 7.30 g bullet traveling at 490 m/s embeds itself in a 1.65 kg wooden block at rest on a frictionless surface. . The block is attached to a spring with k = 90.0 N/mFind the period.Find the amplitude of the subsequent simple harmonic motion.Find the total energy of the bullet+block+spring system before the bullet enters the block.Find the total energy of the bullet+block+spring system after the bullet enters the block.
1) A block of mass m = 0.52 kg is attached to a spring with
force constant 119 N/m is free to move on a frictionless,
horizontal surface as in the figure below. The block is released
from rest after the spring is stretched a distance A = 0.13 m.
(Indicate the direction with the sign of your answer. Assume that
the positive direction is to the right.)
(a) At that instant, find the force on the block. N
(b)...
A block of mass M = 0.400 kg is attached to a spring that initially rests on a frictionless, horizontal surface. A moving rifle bullet with mass m = 16.0 g strikes and embeds itself in the block. The impact compresses the spring by 28.0 cm. The spring constant of the spring is k = 455 N/m. What was the initial speed of the bullet?
A 6.85 g bullet traveling at 520 m/s embeds itself in a 1.79 kg wooden block at rest on a frictionless surface. The block is attached to a spring with k = 82.0 N/m. A. Find the period. Express your answer with the appropriate units. B. Find the amplitude of the subsequent simple harmonic motion. Express your answer with the appropriate units.