Question

In: Physics

A hockey puck sliding on a frictionless surface strikes a box at rest. After the collision,...


A hockey puck sliding on a frictionless surface strikes a box at rest. After the collision, the two objects stick together and move at some final speed. Which of the following describes the change in momentum and energy of the puck during the collision? 

 The puck loses some, but not all, of its original momentum and mechanical energy. 

 One cannot determine if the momentum or energy of the puck is conserved without knowing the final velocities and masses two objects. 

 The puck conserves its original momentum, but loses some, but not all, of its mechanical energy. 

 The puck loses some momentum in the collision, but conserves its mechanical energy. 

 The puck conserves its original momentum and mechanical energy. 

 The puck conserves its original momentum, but loses all of is mechanical energy. 


 Which of the following describe the change in momentum and energy of the combined puck and box during the collision? 

 One cannot determine if momentum or energy of the system is conserved without knowing final velocities masses of the two objects. 

 The system conserves its original momentum, but loses all of its mechanical energy. 

 The system conserves its original momentum and mechanical energy. 

 The system locos some, but not all, of its momentum and mechanical energy. 

 The system loses some momentum in the collision, but conserves its mechanical energy. 

 The system conserves its original momentum, but loses some, but not all, of its mechanical energy.

Solutions

Expert Solution

1)

m = mass of the puck

M = mass of the box

v = initial velocity of puck before collision

V = final velocity of the puck-box combination after collision

using conservation of momentum

mv = (m + M) V

V = mv/(m+ M)

clearly, V < v

multiplying both side by "m"

mV < mv

final momentum of puck after collision < initial momentum of puck before collision

hence the puck lose sum of its momentum.

Since the speed of puck after collision is smaller, hence the mechanical energy after collision is smaller as compared to mechanical energy before collision. hence puck lose some of its mechanical energy too

hence correct choice is A)

2)

in inelastic collision,

final total momentum = initial total momentum

hence change in momentum = final total momentum - initial total momentum

change in momentum = 0

hence the momentum of the system remains conserved.

in inelastic collision , there is loss of energy . hence system lose some of its mechanical energy

hence the correct choice is

genius_generous answered 2 years ago
Next > < Previous

Related Solutions

2. a) A 0.20 kg hockey puck on a frictionless surface is hit with a stick....
2. a) A 0.20 kg hockey puck on a frictionless surface is hit with a stick. The force of the stick on the puck, during the 0.4 seconds while they are in contact, causes the puck to go from rest to 36 meters per second east. What was the magnitude of the average force of the stick on the puck while they were in contact? b) A 3-kg block is placed on a frictionless ramp-incline, where it slides from rest,...
A 0.320 kg puck at rest on a horizontal frictionless surface is struck by a 0.220...
A 0.320 kg puck at rest on a horizontal frictionless surface is struck by a 0.220 kg puck moving in the positive x direction with a speed of 4.05 m/s. After the collision, the 0.220 kg puck has a speed of 1.29 m/s at an angle of ? = 60.0° counterclockwise from the positive x axis. (a) Determine the velocity of the 0.320 kg puck after the collision. Express your answer in vector form. vf = ___m/s (b) Find the...
A 0.255kg puck, initially at rest on a frictionless horizontal surface, is struck by a 0.215kg...
A 0.255kg puck, initially at rest on a frictionless horizontal surface, is struck by a 0.215kg puck that is initially moving along the x axis with a velocity of 2.15m/s. After the collision, the 0.215kg puck has a speed of 1.14m/s at an angle of θ = 57.8° to the positive x axis. (a) Determine the speed of the 0.255kg puck after the collsion. b) Determine the angle of the puck with respect to the x-axis. c) Find the percentage...
A 0.478 kg puck, initially at rest on a horizontal, frictionless surface, is struck by a...
A 0.478 kg puck, initially at rest on a horizontal, frictionless surface, is struck by a 0.129 kg puck moving initially along the x axis with a speed of 2.19 m/s. After the collision, the 0.129 kg puck has a speed of 1.19 m/s at an angle of 29◦ to the positive x axis. Determine the magnitude of the velocity of the 0.478 kg puck after the collision. Answer in units of m/s.
A 0.30 kg puck, initially at rest on a frictionless horizontal surface, is struck by a...
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 2.4 m/s. After the collision, the 0.20 kg puck has a speed of 0.8 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. _ at _ ° from +x axis (b) This was...
Two pucks are sliding across a frictionless surface. Puck A has a mass of .330 kg...
Two pucks are sliding across a frictionless surface. Puck A has a mass of .330 kg and a velocity of 5.50 m/s in the x direction. puck be has a mss of .440 kg and a velocity of 6.60 m/s in the negative x direction. the pucks collide an bounce of each other. after the collision puck a has a velocity of 1.10 m/s in the positive y-direction. What are the x and y components of the velocity of puck...
A 2 kg puck, initaly at rest on a horizonta, frictionless surface is struck by another...
A 2 kg puck, initaly at rest on a horizonta, frictionless surface is struck by another 2 kg puck moving at a velocity of 2 m/s along the x-axis. After the collision, one puck is moving at a speed of 1 m/s at an angle 53 degrees to the positive x-axis. A. What is the velocity of the other puck? B. How much energy is lost in the collision? C. At what angle, does the other puck make?
A 0.300-kg puck, initially at rest on a horizontal, frictionless surface, is struck by a 0.200-kg...
A 0.300-kg puck, initially at rest on a horizontal, frictionless surface, is struck by a 0.200-kg puck moving initially along the x axis with a speed of 2.00 m/s. After the collision, the 0.200- kg puck has a speed of 1.00 m/s at an angle of θ = 53.0° to the positive x axis. (a) Determine the velocity of the 0.300-kg puck after the collision. (b) Find the fraction of kinetic energy lost in the collision. and please explain
A 0.300-kg puck, initially at rest on a horizontal, frictionless surface, is struck by a 0.200-kg...
A 0.300-kg puck, initially at rest on a horizontal, frictionless surface, is struck by a 0.200-kg puck moving initially along the x axis with a speed of 2.00 m/s. After the collision, the 0.200- kg puck has a speed of 1.00 m/s at an angle of θ = 53.0° to the positive x axis. (a) Determine the velocity of the 0.300-kg puck after the collision. (b) Find the fraction of kinetic energy lost in the collision. (4 points)
A 0.30-kg puck, initially at rest on a frictionless horizontal surface, is struck by a 0.20-kg...
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 9.0 m/s. After the collision, the 0.20-kg puck has a speed of 5.4 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-? (from the positive X-axis) (b) Find the fraction of kinetic energy lost in the collision.
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT