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Consider a frictionless track ABC as shown in the Fig. Below. A block of mass m1 = 5.001 kg is released from A. It makes a head–on elastic collision with a block of mass m2 = 10.0kg at B, initially at rest. Calculate the maximum height to which m1 rises after the collision.
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- Consider a one-dimensional elastic collision between a moving object A and an object B initially at rest. How would you choose the mass of B, in comparison to the mass of A, in order that B should recoil with the greatest speed? Explain.A system consists of two carts that are traveling toward each other so that they will collide. Three different outcomes are shown in the figure below: elastic collision, inelastic collision, and completely (or purely) inelastic collision. Answer yes or no to the following questions: For an elastic collision, is total linear momentum conserved? For an elastic collision, is total kinetic energy conserved? For an inelastic collision, is total linear momentum conserved? For an inelastic collision, is total kinetic energy conserved? For a completely (or purely) inelastic collision, is total linear momentum conserved? For a completely (or purely) inelastic collision, is total kinetic energy conserved?Consider an elastic collision in one dimension that involves objects of mass m1=6.8 kg and m2=10.4 kg. The larger mass is initially at rest, and the smaller one has an initial velocity of 24 m/s. Find the final velocities of the two objects after the collision.
- two blocks (m1 and m2) are each released from rest at a height of h = 3.98 m on a frictionless track and when they meet on the horizontal section of the track they undergo an elastic collision. If m1 = 2.50 kg and m2 = 4.25 kg, determine the maximum heights (in m) to which they rise after the collision.the right. They undergo a head-on elastic collision and each returns, retracing its original path. Find the final speeds of the particles. (Enter your answers in terms of v;, the initial speed of each mass.) Two blocks with masses 6m and 9m are on a collision course with the same initial speeds v;. The block with mass 6m is traveling to the left, and the 9m block is traveling to V6m,f - V; V9m,f V; %3D Need Help? Read ItA cart of mass 33 is moving at a velocity of 16 in the positive directions when it collides with a cart of mass 13.0 moving at a velocity of 6.8 in the opposite direction. If the carts experience a perfectly elastic collision, calculate the speed of the combined mass after the collision.
- Consider a frictionless track as shown in the figure below. A block of mass m1 = 4.85 kg is released from . It makes a head-on elastic collision at with a block of mass m2 = 15.0 kg that is initially at rest. Calculate the maximum height to which m1 rises after the collision. Answer should be in meters.Two blocks of masses m, = 2.30 kg and m, = 4.60 kg are each released from rest at a height of h = 4.20 m on a frictionless track, as shown in the figure below, and undergo an elastic head-on collision. (Let the positive direction point to the right. Indicate the direction with the sign of your answer.) (a) Determine the velocity of each block just before the collision. V = m/s m/s (b) Determine the velocity of each block immediately after the collision. m/s V2 = m/s (c) Determine the maximum heights to which m, and m, rise after the collision. Yıf = m Y2f = mplease help me solve this problem
- Two objects of masses m1 = 2.0 kg and m2 = 1.3 kg moving towards each other with speeds of 2.2 m/s and 3.1 m/s, respectively, collide inelastically. Calculate the amount of kinetic energy lost in this collision, in joules.() THE FOLLOWING QUESTIONS ARE BASED ON THE INFORMATION GIVEN BELOW. Block m, of mass 15 kg moving with velocity v = 33 m/s on a frictionless plane collides block mg which is connected to block m3 by a long. massless spring with spring constant k = 7000 N/m: see the figure. Each of blocks mą and mg has a mass of 5 kg. Before the collision, blocks mą and mg are stationary and the spring is relaxed. m2 Frictionless - For parts A. B and Cassume that the collision of blocks m, and ma is completely inelastic. (Because the spring is relaxed before the collision. block mạ does not move at the instant of impact therefore (m, +m2) must move through a finite displacement before any force acts on mg and cause it to move) • For parts D and Eassume that the collision of blocks m, and m, is elastic. (Because the spring is relaxed before the collision. block my does not move at the instant of impact therefore mạ must move through a finite displacement before any force acts on mg and cause it to move)…A particle of mass m1 undergoes a one-dimensional elastic collision with a particle of mass m2 = 2m1 that is initially at rest. If particle 2 recoils at speed v2 = 1200 m/s, what is the speed of particle 1 before the collision?