A 4.90-g bullet moving at 578 m/s strikes a 885-g wooden block
A 4.90-g bullet moving at 578 m/s strikes a 885-g wooden block at rest on a frictionless surface. The bullet emerges, traveling in the same direction with its speed reduced to 379 m/s. (a) What is the resulting speed of the block? (b) What is the impulse transferred from the bullet to the block? ((a) 1.10 m/s,(b)0.975 N s)
Homework Answers
A 6.60 g bullet moving at 603 m/s strikes a 660 g wooden block at rest on a frictionless surface
A 6.60 g bullet moving at 603 m/s strikes a 660 g wooden block at rest on a frictionless surface. The bullet emerges, traveling in the same direction with its speed reduced to 457 m/s. (a) What is the resulting speed of the block? (b) What is the speed of the bullet-block center of mass?
A 5.20g bullet moving at 672 m/s strikes a 700g wooden block atrest on a frictionless...
A 5.20g bullet moving at 672 m/s strikes a 700g wooden block atrest on a frictionless surface. The bullet emerges, travelingin the same direction with its speed reduced to 428 m/s. a. What is the resulting speed of the block? b. What is the speed of the bullet-block center of mass?
A 4.25-g bullet traveling horizontally with a velocity of magnitude 375 m/s is fired into a...
A 4.25-g bullet traveling horizontally with a velocity of magnitude 375 m/s is fired into a wooden block with mass 1.10 kg, initially at rest on a level frictionless surface. The bullet passes through the block and emerges with its speed reduced to 126 m/s. Part A How fast is the block moving just after the bullet emerges from it? Express your answer in meters per second. IV A£¢ © 2 ? m/s Submit Request Answer Provide Feedback
A 3.00 g bullet moving at 115 m/s strikes a 50.0 g stationary wooden block and...
A 3.00 g bullet moving at 115 m/s strikes a 50.0 g stationary wooden block and embeds itself in the block. The bullet is made of lead, and the specific heat of lead is 128 J/(kg · °C). Assume the thermal energy generated in the collision is equally distributed in the bullet and the block. (a) Calculate the rise of temperature (T) of the bullet if block is clamped in place so that it cannot move. (b) Calculate the rise...
A 3.00 g bullet moving at 115 m/s strikes a 50.0 g stationary wooden block and...
A 3.00 g bullet moving at 115 m/s strikes a 50.0 g stationary wooden block and embeds itself in the block. The bullet is made of lead, and the specific heat of lead is 128 J/(kg · °C). Assume the thermal energy generated in the collision is equally distributed in the bullet and the block. (a) Calculate the rise of temperature (DeltaT) of the bullet if block is clamped in place so that it cannot move. (b) Calculate the rise...
2. A 35-g bullet moving at 450 m/s strikes a 2.5-kg wooden block that is at...
2. A 35-g bullet moving at 450 m/s strikes a 2.5-kg wooden block that is at rest. The bullet passes through the block, leaving at 250 m/s. How fast is the block moving when the bullet leaves?
A 15 gr bullet traveling at 500 m/s strikes the 5 kg wooden block and exists...
A 15 gr bullet traveling at 500 m/s strikes the 5 kg wooden block and exists the other side at 15 m/s as shown. The wooden block is initially at rest. Determine: a) The velocity of the wooden block just after the bullet exit it b) the average normal force on the wooden block if the bullets passes through it in 1.0 ms (millisecond) c) The time the block slides before it stops The coefficient of kinetic friction between the...
A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of...
A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 270 g. (a) (b) +m Figure 7.14 (a) Find the speed of the bullet/block combination immediately after the collision. m/s (b) How high does the combination rise above its initial position? m
A 7.30 g bullet traveling at 490 m/s embeds itself in a 1.65 kg wooden 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.
A 10 - g bullet moving directly upward at 1000 m/s strikes andpasses through the center...
A 10 - g bullet moving directly upward at 1000 m/s strikes
andpasses
through the center of mass of a 5-kg block initially at rest.
Thebullet
emerges from the block, moving directly upward at 400 m/s.
a) What is the speed of the box immediately after the collisionwith
the
bullet?
b) To what maximum height does the block then rise above
itsinitial
position?
c) How much energy is lost during the collision?
A 4.25-g bullet traveling horizontally with a velocity of magnitude 375 m/s is fired into a wooden block with mass 1.10 kg, initially at rest on a level frictionless surface. The bullet passes through the block and emerges with its speed reduced to 126 m/s. Part A How fast is the block moving just after the bullet emerges from it? Express your answer in meters per second. IV A£¢ © 2 ? m/s Submit Request Answer Provide Feedback
2. A 35-g bullet moving at 450 m/s strikes a 2.5-kg wooden block that is at rest. The bullet passes through the block, leaving at 250 m/s. How fast is the block moving when the bullet leaves?
A 2.50 q bullet, traveling at a speed of 480 m/s, strikes the wooden block of a ballistic pendulum, such as that in Figure 7.14. The block has a mass of 270 g. (a) (b) +m Figure 7.14 (a) Find the speed of the bullet/block combination immediately after the collision. m/s (b) How high does the combination rise above its initial position? m
A 10 - g bullet moving directly upward at 1000 m/s strikes
andpasses
through the center of mass of a 5-kg block initially at rest.
Thebullet
emerges from the block, moving directly upward at 400 m/s.
a) What is the speed of the box immediately after the collisionwith
the
bullet?
b) To what maximum height does the block then rise above
itsinitial
position?
c) How much energy is lost during the collision?
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