Two balls collide in a totally inelastic collision. The first ball has twice the mass of the second. The first ball has velocity v (to the right), and the second has velocity −v (to the left). What is the final velocity of the two balls after they collide?
Two balls collide in a totally inelastic collision. The first ball has twice the mass of...
2. Two clay balls collide head-on in a perfectly inelastic collision. The first ball has a mass of 0.5 kg and an initial velocity of 4 m/s to the right. The second ball has a mass of 0.25 kg and an initial veiocity of 3 m/s to the left. Find the velocity of clay balls that stuck together.
consider the inelastic collision of two balls on the same line. we take the direction to the right as the positive direction. one ball on the left has mass 4kg and is initially traveling to the right with a velocity of 11m/s. The ball on the right has mass of 3kg and is traveling. the velocity of the balls when they are stuck together after collision is 6m/s. what is the initial velocity m/a of the 4kg ball?
Two balls collide head-on. The initial velocity of the first ball is 3 m/s, while that of the second is -0.45 m/s. The mass of the first ball is 33 kg and the mass of the second ball is 80 kg. If the collision is perfectly elastic, what is the final velocity (magnitude and direction) of each ball?
6. Two balls of different mass collide elasti cally and the first ball bounces back at a velocity of -3.0 m/s after striking the second ball at rest. Calculate the velocity of the second ball following an elastic collision, given that ml-0.500 kg, m2-3.50 kg, vi 4.00 m/s, vi-3.0 m/s, and v2i-0.
Imagine two billiard balls on a pool table. Ball A has a mass of 2 kilograms and ball B has a mass of 3 kilograms. The initial velocity of ball A is 9 meters per second to the right and the initial velocity of the ball B is 6 meters per second to the left. The final velocity of ball A is 9 meters per second to the left, while the final velocity of ball B is 6 meters to...
We observe a glancing collision between two billiard balls of the same mass. The first ball is incident at a speed of 5.72 m/s, strikes the second ball (initially at rest) and moves off with a speed of 5.03 m/s at an angle of 28.5° counterclockwise from the original line of motion. The second ball is initially at rest and after the collision moves off with a velocity which we wish to describe with respect to the first ball's original...
HW 5.5. The drawing shows a top-view of a collision between two balls. Ball A has a mass of 0.03 kg and is moving along the positive c-axis at 5.5 m/s. It makes a collision with ball B, which has a mass of 0.05 kg and is initially at rest. The collision is not head-on. After the collision, the two balls fly apart with the angles shown in the drawing below. + 5.5 m/s At rest a) What are the...
two balls that are set to be collide elastically, give these two balls specific masses and initial velocity. The balls cannot have the same mass, and they must be moving in both the x- and y-directions. These are the data: Mass for ball 1=3kg Mass for ball 2=5kg Initial velocity ball 1=1.50 Initial velocity ball 2=2.0 Use Conservation of Momentum in x and y, as well as Conservation of Energy, to determine the final velocities of the balls after the...
Ball A, of mass 0.6kg, is initially moving to the right at 4 m/s. Ball B, of mass 1.8kg, is initially to the right of ball A and moving to the right at 2 m/s. After the two balls collide, ball B is moving at 3 m/s in the same direction as before. What is the velocity of ball A after this collision. Is this collision elastic or inelastic? What is the fractional change in kinetic energy?
Problem 10: Two 1.0-kg balls, A and B, move as shown in the figure and collide. During the collision, half the kinetic energy A is lost. After the collision, ball A is going straight in the vA3m/s V- 2 m/s negative y direction. Find A and B's final velocities. Problem 10: Two 1.0-kg balls, A and B, move as shown in the figure and collide. During the collision, half the kinetic energy A is lost. After the collision, ball A...