Billiard ball A is half the mass as billiard ball B. Ball A is moving to...

A billiard ball with a mass of 4 g is moving east while a second ball...

A billiard ball with a mass of 4 g is moving east while a second ball with a mass of 3 g moves west. Positive x axis is due east. The two balls come into head on collision while moving in their respective velocities. Assume that the motion is one dimensional and the collision is perfectly elastic. If the initial velocities of the balls are 12 cm/s and 10 cm/s, what are the velocities of each ball after the collision?

Billiard ball collision in 2-D. Billiard ball A moving with speed vA= 6.9-m/s in the +x...

Billiard ball collision in 2-D. Billiard ball A moving with speed vA= 6.9-m/s in the +x direction strikes an equal-mass ball B initially at rest. The two balls are observed to move off at some unknown angle to the x-axis, ball A above the x-axis and ball B below. If v'A = 2.86-m/s at what angle did ball A go above the x-axis?

A white billiard ball with mass mw = 1.47 kg is moving directly to the right...

A white billiard ball with mass mw = 1.47 kg is moving directly to the right with a speed of v = 3.01 m/s and collides elastically with a black billiard ball with the same mass mb = 1.47 kg that is initially at rest. The two collide elastically and the white ball ends up moving at an angle above the horizontal of θw = 68° and the black ball ends up moving at an angle below the horizontal of...

A white billiard ball with mass mw = 1.6 kg is moving directly to the right...

A white billiard ball with mass mw = 1.6 kg is moving directly to the right with a speed of v = 2.98 m/s and collides elastically with a black billiard ball with the same mass mb = 1.6 kg that is initially at rest. The two collide elastically and the white ball ends up moving at an angle above the horizontal of θw = 48° and the black ball ends up moving at an angle below the horizontal of...

A hard ball (1.0 kg) is moving 5 m/s and collides with an identical ball at...

A hard ball (1.0 kg) is moving 5 m/s and collides with an identical ball at rest. The collision istotally elastic, and in the center‐of‐mass frame the balls each deflect by 45 degrees. Find the velocities after the collision in the lab frame.

Billiard ball A of mass mA = 0.130 kg moving with speed vA = 2.65 m/s...

Billiard ball A of mass mA = 0.130 kg moving with speed vA = 2.65 m/s strikes ball B, initially at rest, of mass mB = 0.140 kg . As a result of the collision, ball A is deflected off at an angle of 30.5 ∘ with a speed vA1 = 2.35 m/s . C.) Solve for the speed, vB1, of ball B. Do not assume the collision is elastic. D.) Solve for the angle, θB, of ball B. Do...

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.

Billiard ball A of mass mA = 0.125 kg moving with speed vA = 2.80 m/s...

Billiard ball A of mass mA = 0.125 kg moving with speed vA = 2.80 m/s strikes ball B, initially at rest, of mass mB = 0.138 kg . As a result of the collision, ball A is deflected off at an angle of θ′A = 30.0∘ with a speed v′A = 2.10 m/s, and ball B moves with a speed v′B at an angle of θ′B to original direction of motion of ball A. (a) Solve these equations for...

Two billiard balls of identical mass move toward eachother. Assume that the collision between them is...

Two billiard balls of identical mass move toward eachother. Assume that the collision between them is perfectly elastic. If the initial velocities of the balls are 30 cm/s and -20 cm/s, assume friction and rotation are unimportant. a) Derive an expression for the velocity and then calculate the velocities of the balls after the collision? b) Find the final velocity of the two balls if the initial velocity of -20 cm/s has a mass equal to one half of the...

A billiard ball moving at 5.80 m/s strikes a stationary ball of the same mass. After...

A billiard ball moving at 5.80 m/s strikes a stationary ball of the same mass. After the collision, the first ball moves at 4.97 m/s, at an angle of 31.0° with respect to the original line of motion. (a) Find the velocity (magnitude and direction) of the second ball after collision. ______ m/s ° (with respect to the original line of motion, include the sign of your answer; consider the sign of the first ball's angle)(b) Was the collision inelastic...