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Exercise 1 Prove that AM = 2AK/ (2 for a completely inelastic collision, as stated.
Classify the three collision types as elastic, inelastic, or completely inelastic. Briefly explain your reasoning. i. Magnetic bumpers ii. Hook and pile bumpers iii. Hook and pile to magnetic bumpers (both)
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...
2. In a completely inelastic collision, a 500 traveling west at 10 m/s. kg car traveling east at 30 m's hit a 2000 kg truck a. At what speed and in what direction will the joined car/truck go after the collision? b. Calculate the kinetic energy of the car before the collision. c. Calculate the kinetic energy of the truck before the collision. d. Calculate the kinetic energy of the joined car and truck together after the collision. e. How...
Which of the following is the best example of a completely inelastic collision: a. a tennis ball being struck by a tennis racket. b. a cue ball rebounding off of the 8-ball in a game of billiards. c. a basketball being bounced on a court. d. a football being caught by a receiver.
13. Two spheres undergo a completely inelastic head-on collision. The first sphere is moving with a velocity of-9.0 m/s immediately before the collision. The second sphere, whose mass is four times that of the first sphere, is initially motionless. What will be the velocity of the second sphere immediately after the collision
After a completely inelastic collision, two objects of the same mass and same initial speed are found to move away together at 1/5 their initial speed. Find the angle between the initial velocities of the objects. PLEASE WORK OUT. THANKS.
Two blocks undergo a completely inelastic collision while sliding horizontally on a smooth surface. Before the collision, block A is sliding to the right at 6 m/s whereas block B is sliding to the left at 17 m/s. The mass of block A is 8 kg and the mass of block B is 7 kg, calculate their post-collision speed
A completely inelastic collision occurs between two balls of wet putty that move directly toward each other along a vertical axis. Just before the collision, one ball, of mass 3.0 kg, is moving upward at 20 m/s and the other ball, of mass 2.0 kg, is moving downward at 12 m/s. How high do the combined two balls of putty rise above the collision point? (Neglect air drag.)
A completely inelastic collision occurs between two balls of wet putty that move directly toward each other along a vertical axis. Just before the collision, one ball, of mass 3.9 kg, is moving upward at 22 m/s and the other ball, of mass 1.9 kg, is moving downward at 14 m/s. How high do the combined two balls of putty rise above the collision point? (Neglect air drag.)