3. A particle of mass m moves vertically downward with velocity vi and strikes a smooth...
1. Non-Linear Collisioin A particle A which has a mass m and travels with a speed vo along some direction i collides with a stationary particle B having mass 2m. As indicated in the figure, after the collision A moves in a direction at an angle of 30° from i and B moves in a direction at angle 50° from i . The only forces acting on the particles are those which they exert on each other. a) Apply the...
dynamics, use a free body diagram to solve. please solve correctly Problem 3: Two smooth billiard balls A and B each have a mass of 500 g. If A strikes B with a velocity (VA)1 - 1.5 m/s as shown, determine their final velocities just after collision. Ball B is originally at rest and the coefficient of restitution is e0.75. Neglect the size of each ball. Use conservation of linear momentum in x-direction, equation of restitution and conservation of momentum...
Please draw any relevant free body diagrams. Question 6 Two smooth billiard balls A and B have an equal mass of m-200g. If A strikes B with a velocity of vAI 2m/s as shown, determine the final velocities just after the collision. The coefficient of restitution is e 0.75 (vA 40°
az (25) Consider two billiard bails of equal mass m and radius which is at rest Determine the velocities of the balls after impaet if d-07r and the coefficient of restitution is e -0.6 Neglect friction Hint Apply coefficient of restitution equation in the direction of the impact Hall A moves at velocity VA and strikes ball az (25) Consider two billiard bails of equal mass m and radius which is at rest Determine the velocities of the balls after...
A block of mass m 2.20 kg slides down an incline which is 3.60 m high. At the bottom, it strikes block mass M 7.00 kg which at rest on a horizontal surface, as 3.60 m shown (assume a smooth transition to the bottom of the incline). If the collision is elastic, and friction can of mass m 2.20 kg just before its strikes the block be ignored, determine (a) the speed of the block of mass M-7.00 kg. (b)...
Block A, having a mass m, is released from rest falls a distance h and strikes the plate B having a mass 2m. If the coefficient of restitution between A and B is e, determine the velocity of the plate just after collision. The spring has a stiffness k.
Two smooth disks A and Beach have a mass of 0.5 kg. Both disks are moving with the velocities shown when they collide. The coefficient of restitution is e = 0.7. Suppose that (vA)1 = 7 m/s, (vB)1 = 3 m/s.(Figure 1) Part A Determine the magnitude of the final velocity of A just after collision. Part B Determine the angle between the x axis and the final velocity of A just after the collision measured counterclockwise from the positive r axis.Part C Determine the magnitude...
Problem (1) (40 points) A pendulum consisting of a ball of mass m and a massless string of length L 5.00 m is released from an angle of a 69 88 shown in the figure and strikes a block of mass M 2m. The block slides a distance D before stopping under the action of a constant friction force with the frio- tion constant μ": 0.50. The ball rebounds to an angle of Hints: Take g= 10 m/?. sin 16"...
The sphere A of mass m, = 1 kg moves with an initial velocity of v2 = 5 m/s → as shown and strikes the stationary sphere B. The coefficient of restitution is e=0.8. Calculate (a) the mas my, if the velocity of B after impact is v' = 5 m/s ; (b) the percentage loss of energy due to the impact. - -
A block with mass M = 5.95 kg is sliding in the positive x-direction at Vi = 8.90 m/s on a frictionless surface when it collides elastically in one dimension with a stationary block with mass m = 1.30 kg. Determine the velocities, Vf and vf, of the objects after the collision.