need help with all portion in this prblem can i get all the steps 1. Consider...
Consider a completely inelastic collision in which a particle of mass with initial velocity collides head on with a particle of mass , initially at rest.(a) What fraction of the initial kinetic energy was lost? (b)View the collision from the center of mass frame and determine if the kinetic energy of the colliding particle remain conserved. Consider a completely inelastic collision in which a particle of mass with initial velocity collides head on with a particle of mass , initially...
Consider a completely inelastic collision in which a particle of mass m1 with initial velocity v collides head on with a particle of mass m2, initially at reat. (a) What fraction of the initial kinetic energy was lost? (b) View the collision from the center of mass frame and determine if the kinetic enegy of the colliding particle remain conserved. Consider a completely inelastic collision in which a particle of mass with initial velocity collides head on with a particle...
I need help with all of the questions! Thank you 1). Momentum (P) of an object is a vector quantity a) True b) False c) Can's say 5 m/s' is 2). Momentum of an object of mass 'm = 10 Kg' moving with a velocity v a) 50 Ns b) 50 Nm c) 50 N/s 3). How the force (F) and momentum (P) are related, do not forget to show the vector sign 4). For an isolated system, momentum is...
Mass m = 0.1 kg moves to the right with speed v = 0.52 m/s and collides with an equal mass initially at rest. After this inelastic collision the system retains a fraction=0.77 of its original kinetic energy. If the masses remain in contact for 0.01 secs while colliding, what is the magnitude of the average force in N between the masses during the collision? Hints: All motion is in 1D. Ignore friction between the masses and the horizontal surface....
Mass m = 0.1 kg moves to the right with speed v = 0.52 m/s and collides with an equal mass initially at rest. After this inelastic collision the system retains a fraction = 0.77 of its original kinetic energy. If the masses remain in contact for 0.01 secs while colliding, what is the magnitude of the average force in N between the masses during the collision? Hints: All motion is in 1D. Ignore friction between une masses and the...
Mass m = 0.1 kg moves to the right with speed v = 0.39 m/s and collides with an equal mass initially at rest. After this inelastic collision the system retains a fraction = 0.86 of its original kinetic energy. If the masses remain in contact for 0.01 secs while colliding, what is the average force in N between the masses during the collision? Hints: All motion is in 1D. Ignore friction between the masses and the horizontal surface. You...
Two equal mass object experience a totally inelastic collision. Case 1: Mass 1 has an initial velocity of 10.0 m/s in the negative y-direction, while mass 2 has an initial velocity of 5.00 m/s in the positive x-direction. (2-D collision) Case 2: Mass 1 has an initial velocity of 10.0 m/s in the positive x-direction, while mass 2 has an initial velocity of 10.0 m/s in the negative x-direction. (1-D collision) What was kinetic energy conserved in each of the...
Mass m = 0.1 kg moves to the right with speed v = 0.67 m/s and collides with an equal mass initially at rest. After this inelastic collision the system retains a fraction = 0.67 of its original kinetic energy If the masses remain in contact for 0.01 secs while colliding, what is the magnitude of the average force in N between the masses during the collision? Hints: All motion is in 1D. Ignore friction between the masses and the...
Here is the question. I cant get it right. please show steps A 0.30-kg puck, initially at rest on a frictionless horizontal surface, is struck by a 0.20-kg puck that is initially moving along the x-axis with a velocity of 4.3 m/s. After the collision, the 0.20-kg puck has a speed of 2.6 m/s at an angle of θ = 53° to the positive x-axis. (a) Determine the velocity of the 0.30-kg puck after the collision. magnitude direction (b) Find...
NUMBER 3 PLEASE!! I do not quite understand how to get to the final answer, if you can, please explain steps! Before the collision Cart A Cart B Cart A, with an inertia ma, and Cart B, with an inertia ma, are on a level track with negligible friction. In the Earth reference frame, Cart A, initially moving to the right with a velocity VEAj collides with Cart B, initially moving to the left with a velocity Vedi as shown...