In a ballistics test, a 30 g bullet traveling horizontally at 1400 m/s goes through a 28-cm-thick 330 kg stationary target and emerges with a speed of 930 m/s . The target is free to slide on a smooth horizontal surface. What is the target’s speed just after the bullet emerges?

In a ballistics test, a 30 g bullet traveling horizontally at 1400 m/s goes through a...
In a ballistics test, a 29 g bullet traveling horizontally at
1200 m/s goes through a 27-cm-thick 340 kg stationary target and
emerges with a speed of 900 m/s . The target is free to slide on a
smooth horizontal surface.
<CH 11 HW Problem 11.53 Review Part A In a ballistics test, a 29 bullet traveling horizontally goes through a 27-Cm-thick 340 kg stationary target and emerges with a speed of 900 m/s. The target is free to slide...
In a ballistics test, a 25 g bullet traveling horizontally at 1200 m/s goes through a 45 cm thick 350 kg stationary target and emerges with a speed of 1000 m/s. The target is free to slide on a smooth horizontal surface. (a) How long is the bullet in the target (assume constant acceleration)? s What average force does it exert on the target? N (magnitude only) (b) What is the target's speed just after the bullet emerges?
In a ballistics test, a 25g bullet traveling horizontally at 1200m/s goes through a 30-cm-thick 350kg stationary target and emerges with a speed of 900m/s. The target is free to slide on a smooth horizontal surface. What is the target's speed just after the bullet emerges? Prove that this collision is inelastic, describe what happens to this lost kinetic energy.
Item 6 Constants Part A In a ballistics test, a 26 g bullet traveling horizontally at 1200 m/s goes through a 34-cm-thick 400 kg stationary target and emerges with a speed of 860 m/s . The target is free to slide on a smooth horizontal surface What is the target's speed just after the bullet emerges? Express your answer to two significant figures and include the appropriate units. Value Units Submit Request Answer
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
Constants A 14.7 g bullet traveling horizontally at 866 m/s passes through a tank containing 14.5 kg of water and emerges with a speed of 544 m/s Part A What is the maximum temperature increase that the water could have as a result of this event? AT 3337.047 C Submit Request Answer
1. A 23-g bullet traveling 230 m/sm/s penetrates a 4.9 kg block of wood and emerges cleanly at 175 m/s. If the block is stationary on a frictionless surface when hit, how fast does it move after the bullet emerges? 2. A 11800 kg railroad car travels alone on a level frictionless track with a constant speed of 24.5 m/s. A 6800 kg load, initially at rest, is dropped onto the car. What will be the car's new speed?
A 22-g bullet traveling 255 m/s penetrates a 1.9 kg block of wood and emerges going 130 m/s . If the block is stationary on a frictionless surface when hit, how fast does it move after the bullet emerges?
A 0.00600-kg bullet traveling horizontally with a speed of 1.00 103 m/s enters a 17.5-kg door, embedding itself 20.0 cm from the side opposite the hinges as in the figure below. The 1.00-m-wide door is free to swing on its hinges. A) At what angular speed does the door swing open immediately after the collision? (The door has the same moment of inertia as a rod with axis at one end.) B) Calculate the energy of the door-bullet system and...
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A 10-gm bullet traveling at 500 m/s passes through a 1-kg block and emerges with a speed of 100 m/s. The block is initially at rest on horizontal surface. a) The block slides 2.00 m before coming to rest. Find mu_k for this surface. b) If the block is on a frictionless surface, and attached to a spring with k = 400 N/m, find the distance, d, that the spring is compressed.