Two balls collide elastically. Ball A has a mass of 3.00 kg and moves to the...

A ball with a mass of 2 kg is initially moving to the right with a...

A ball with a mass of 2 kg is initially moving to the right with a speed of 3 m/s. It collides with a 5 kg ball moving to the left with a speed of 1 m/s. The balls collide partially elastically: 70% of the initial kinetic energy of the system is conserved in the collision. Find the final velocity of each ball. The balls move only along the x-axis. Show your work.

A 0.10 kg ball A moves to the right at 0.35 m/s and collides elastically and...

A 0.10 kg ball A moves to the right at 0.35 m/s and collides elastically and perfectly head on with the 0.30 kg ball B that moves to the rigth at 0.050 m/s. The velocity of ball A after the callision is?

Two metal balls of equal mass collide elastically (what does this mean in terms of conservation?),...

Two metal balls of equal mass collide elastically (what does this mean in terms of conservation?), with the collision happening at the origin. The second ball starts out at rest at the origin, and the first ball starts out approaching the origin with some velocity, moving entirely in the positive x direction. The second ball ends up traveling at 12 m/s, moving in a direction that is 60 degrees above the positive x axis. Find the final velocity (magnitude and...

Two balls, ball -1 and ball – 2 are about to collide hands on a frictionless...

Two balls, ball -1 and ball – 2 are about to collide hands on a frictionless linear track. Ball – 1is traveling east with a speed 8 m/s toward ball-2. Ball-2 has a speed -2 m/s. if the mass of ball -2 is 6 times the mass of ball-1, what is the speed of ball -2 after the collision? We assume that collision is perfectly elastic.

Two balls are set to collide on a single track. Ball1 has a mass of 2.90-kg...

Two balls are set to collide on a single track. Ball1 has a mass of 2.90-kg and a velocity of 3.27-m/s Ball2 has a mass of 2.67-kg and a velocity of 1.27-m/s (NOT HEAD ON) After their elastic collision Ball1 is moving at 2.25-m/s in the opposite direction. How fast is Ball2 Moving?

Three billiard balls, all having a mass of 0.170 kg, collide on a horizontal, table. Prior...

Three billiard balls, all having a mass of 0.170 kg, collide on a horizontal, table. Prior to the collision the red ball is traveling to the right at 1.50 m/s, the green ball is traveling ‘upwards and left’ (45o) at 1.20 m/s, and the yellow ball is traveling ‘downwards’ (90o) towards the crash site at 2.0 m/s. After the collision, both the red and yellow balls are stopped, and the green ball goes off at some velocity. Draw the before...

Two balls moving with the same speed of v = 0.48 m/s but in opposite directions...

Two balls moving with the same speed of v = 0.48 m/s but in opposite directions undergo a head-on collision. Ball A has mass mA = 2.6 kg and is traveling to the left, while ball B has mass mB = 1.3 kg and is traveling to the right. The balls are shown just before the collision in the figure below. (a) Which ball has the larger momentum (in magnitude) before the collision? Ball A Ball B Both balls have...

A 6.00 kg ball, A, moving at velocity 3.00 m/s due east collides with a 6.00...

A 6.00 kg ball, A, moving at velocity 3.00 m/s due east collides with a 6.00 kg ball, B, at rest. After the collision, A moves off at 40.0° N of E and ball B moves off at 50.0° S of E. What is the speed of the balls after the collision?

Two balls traveling in opposite directions collide head on. Ball1 is traveling in the positive x...

Two balls traveling in opposite directions collide head on. Ball1 is traveling in the positive x direction at a speed of v1 = 4.50 m/s and mass of m1 = 2.0 Kg. Ball2 is traveling in the negative x direction at a speed of v2 = -6.50 m/s and a mass of m2 = 4.0 Kg. a) If we assume that the two balls are made of clay and become one mass during the collision what is their combined final...

Protons of mass m and speed 1.50 x 107 m/s collide elastically with nuclei of mass...

Protons of mass m and speed 1.50 x 107 m/s collide elastically with nuclei of mass M at rest. After the collision, some of the protons bounce back with a speed of 1.2 x 107 m/s. a) Find the ratio M/m. b) Calculate the speed of the nuclei after the collision.