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A 92 g red superball traveling 6 m/s EAST has an elastic collision with a 48...
In an elastic collision two cars are traveling toward one another and crash head-on. The first...
In an elastic collision two cars are traveling toward one another and crash head-on. The first car (A) has a mass of 700 kg and is traveling 20 m/s East and the second car (B) has a mass of 800 kg and is traveling 5 m/s West. After they collide, the first car (A) bounces backward at a rate of 15 m/s, what is the velocity of car (B) traveling at? A.0.625 m/s West B. 25.6 m/s East C. 25.6...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10 m/s, on a...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10
m/s, on a level, frictionless air table when it collides with puck
B of mass 160 g traveling at 40° south of west with a speed,
v_Bi=15 m/s, on the same table. (See the diagram below.) When the
pucks collide, they stick together via Velcro surfaces that line
the circular boundaries of both pucks. Find the magnitude and
direction of the momentum of the tandem of pucks...
A ball of mass 2.00 kg is traveling east at 5.00 m/s. Another ball of mass...
A ball of mass 2.00 kg is traveling east at 5.00 m/s. Another ball of mass 4.00kg is traveling west at 2.00 m/s. The two balls meet in a head-on-perfectly elastic collision. If the collision is perfectly (completely) elastic, what is the velocity (magnitude and direction) of each ball after the collision?
A 2.0-g particle moving at 7.0 m/s makes a perfectly elastic head-on collision with a resting...
A 2.0-g particle moving at 7.0
m/s makes a perfectly elastic head-on collision with a resting
1.0-g object. (a) Find the speed of each particle after the
collision.
A 2.0-g particle moving at 7.0 m/s makes a perfectly elastic head-on collision with a resting 1.0-g object. (a) Find the speed of each particle after the collision. 2.0 g particle 2.33 m/s 1.0 g particle 9.33 m/s (b) Find the speed of each particle after the collision if the stationary particle...
A 2.0-g particle moving at 5.2 m/s makes a perfectly elastic head-on collision with a resting...
A 2.0-g particle moving at 5.2 m/s makes a perfectly elastic head-on collision with a resting 1.0-g object. (a) Find the speed of each particle after the collision 2.0g particle: 1.0g particle: (b) Find the speed of each particle after the collision if the stationary particle has a mass of 10 g. 2.0g particle: 10.0g particle: (c) Find the final kinetic energy of the incident 2.0-g particle in the situations described in parts (a) and (b). KE in part a:...
Part 1:A 20.0 g ball of clay traveling east at 3.00 m/s collides with a 30.0...
Part 1:A 20.0 g ball of clay traveling east at 3.00 m/s collides with a 30.0 g ball of clay traveling north at 4.00 m/s. To find the total momentum of this system before the collision, we must determine the momentum of each piece of clay and then sum the two momenta vectorially. The 20.0 g piece has a momentum 0.06 kgm/s east, and the 30.0 g has a momentum 0.12 kgm/s north. What is the magnitude of the vector...
A red stunt car of mass 800 kg moves at 25 m/s east. A green stunt...
A red stunt car of mass 800 kg moves at 25 m/s east. A green stunt car of mass 1200 kg moves at 15 m/s west. In a movie stunt, the car’s collide and stick together. What is the initial momentum of each car? What is the initial total momentum of the system? What is the total momentum of the system after the collision? What is the velocity of the cars immediately after the collision? ...
Puck A of mass 240-g is traveling due east with a speed, , on a level,...
Puck A of mass 240-g is traveling due east
with a speed, , on a level, frictionless air table when it collides
with puck B of mass 160 g traveling at 40° south of west with a
speed, , on the same table. (See the diagram below.) When the pucks
collide, they stick together via Velcro surfaces that line the
circular boundaries of both pucks. Find the magnitude and direction
of the momentum of the tandem of pucks after the...
Ball 1, with a mass of 114 g and traveling at 11.6 m/s , collides head...
Ball 1, with a mass of 114 g and traveling at 11.6 m/s , collides head on with ball 2, which has a mass of 319 g and is initially at rest. Assume that ball 1 is traveling to the right before the collision and that the collision is one dimensional.(2 questions thank you) What is the final velocity of ball 1 if the collision is perfectly elastic? What is the final velocity of ball 2 if the collision is...
A 2.0 g particle moving at 5.6 m/s makes a perfectly elastic head-on collision with a...
A 2.0 g particle moving at 5.6 m/s makes a perfectly elastic head-on collision with a resting 1.0 g object. (a) Find the speed of each after the collision. 2.0 g particle ____m/s 1.0 g particle ____m/s (b) Find the speed of each particle after the collision if the stationary particle has a mass of 10 g. 2.0 g particle ______ m/s 1.0 g particle _______m/s (c) Find the final kinetic energy of the incident 2.0 g particle in the...
In an elastic collision two cars are traveling toward one another and crash head-on. The first car (A) has a mass of 700 kg and is traveling 20 m/s East and the second car (B) has a mass of 800 kg and is traveling 5 m/s West. After they collide, the first car (A) bounces backward at a rate of 15 m/s, what is the velocity of car (B) traveling at? A.0.625 m/s West B. 25.6 m/s East C. 25.6...
Puck A of mass 240-g is traveling due east with a speed, v_Ai=10
m/s, on a level, frictionless air table when it collides with puck
B of mass 160 g traveling at 40° south of west with a speed,
v_Bi=15 m/s, on the same table. (See the diagram below.) When the
pucks collide, they stick together via Velcro surfaces that line
the circular boundaries of both pucks. Find the magnitude and
direction of the momentum of the tandem of pucks...
A 2.0-g particle moving at 7.0
m/s makes a perfectly elastic head-on collision with a resting
1.0-g object. (a) Find the speed of each particle after the
collision.
A 2.0-g particle moving at 7.0 m/s makes a perfectly elastic head-on collision with a resting 1.0-g object. (a) Find the speed of each particle after the collision. 2.0 g particle 2.33 m/s 1.0 g particle 9.33 m/s (b) Find the speed of each particle after the collision if the stationary particle...
Puck A of mass 240-g is traveling due east
with a speed, , on a level, frictionless air table when it collides
with puck B of mass 160 g traveling at 40° south of west with a
speed, , on the same table. (See the diagram below.) When the pucks
collide, they stick together via Velcro surfaces that line the
circular boundaries of both pucks. Find the magnitude and direction
of the momentum of the tandem of pucks after the...
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