Part C: Linear Momentum Problem Cl: (Elastic Collision) A billiard ball moving at 3m/s collides elastically...
1. A billiard ball traveling at 3.00 m/s collides perfectly elastically with an identical billiard ball initially at rest on the level table. The initially moving billiard ball deflects 30.0e from its original direction. What is the speed of the initially stationary billiard ball after the collision?
A billiard ball moves at a speed of 4.00m/s and collides elastically with an identical stationary ball. As a result, the stationary ball flies away at a speed of 1.69m/s, as shown in Figure A2.12. Determine the final speed and direction of the incoming ball after the collision. the direction of the stationary ball after the collision. A billiard ball moves at a speed of 4.00 m/s and collides elastically with an identical stationary ball. As a result, the stationary...
1- Billiard ball A with mass 0.81 kg collides head on and elastically with billiard ball B (same mass) at rest. Knowing that Ball A moved at 3.41 m/s before collision, what is the speed of Ball B after the collision? 2- A 4.78 kg cube sits on a frictionless surface. A 11.99 gram bullet traveling at 388.07 m/s is shot into the brick and they move together at a certain speed. What is the speed in m/s? 3- What is...
A billiards ball moving at speed v collides elastically with an identical, stationary ball. Kinetic energy is conserved in the collision. After the collision, the first ball heads off at an angle theta relative to its original direction and at a speed v/2 . What is the speed of the second ball?
A cue ball moving at 2.8 m/s collides elastically with a stationary 8 ball of identical mass. The 8 ball then moves away at an angle of 28 degrees from the direction of the incoming cue ball. What is the speed of the cue ball after the elastic collision?
A billiard ball collides in an elastic head-on collision with a second stationary identical ball. After the collision which of the following conditions applies to the first ball? A) maintains the same velocity as before B)has one half its initial velocity C)comes to rest D)moves in the opposite direction E)doubles its initial velocity
A ball of momentum p_1 collides with an identical stationary ball. The first ball deflects by an angle theta_1 from its original direction with a momentum p'_1 while the second ball deflects by an angle theta_2 from the original direction of the first ball with a momentum p'_2 If the two balls have an elastic collision, then use the conservation of momentum vector diagram of Fig. 7.38 and conservation of kinetic energy to show that the two balls will always...
A 2.0kg ball, initially moving to the right at a speed of 3m/s, collides head-on with another ball of mass 3.0kg, initially moving to the left at 4m/s. The collision was elastic. Find the velocities of both balls after the collision.
Solution please A red billiard ball moving to the left -22 cm/s collides head on with a green ball moving to the right at 18 cm/s. The masses of the balls are identical. If the collision is perfectly elastic, what is the velocity of each ball after impact? Velocity of the green ball after impact - Velocity of the red ball after impact cm/s
A billiard ball moving at a speed of 7.95 m/s strikes an identical stationary ball a glancing blow. After the collision, one ball is found to be moving at a speed of 1.80 m/s in a direction making a 59.5 ° with the original line of motion. What is the speed of the other ball? At what angle is it moving? Give your answer in degrees. (Hint: use conservation of linear momentum)