assuming the mass of the hockey puck =169.7 g the surface has a coefficient of friction...

assuming the

mass of the hockey puck =169.7 g

the surface has a coefficient of friction = 0.1

puck's time on the hockey stick = 0.0375s

the puck travelled 0.85m while on the hockey stick

Draw a free body diagram of the puck while it is on the stick
What acceleration does the puck experience?
What net force does the puck experience?
What applied force does the stick provide?
Draw another free body diagram of the puck once it has left the stick
How long does it take for the puck to come to a stop?
How far will the puck travel before it comes to a stop?

Solutions

Expert Solution

the given question can be solved using conservation law or using kinematics equation I have solve the given question by kinetics equation

genius_generous answered 1 year ago

Next > < Previous

Related Solutions

Two pucks collide on an air hockey table. Puck A has a mass of 17.0 g...

Two pucks collide on an air hockey table. Puck A has a mass of 17.0 g and is initially traveling in the +x direction at 7.30 m/s. Puck B has a mass of 51.0 g and is initially at rest. After the pucks collide, puck A moves away at an angle of 42.0 degrees above the +x axis, while puck B travels at an angle of 38.0 degrees below the +x axis. 1. Calculate puck A's final speed. 2. Calculate...

Suppose a hockey player sees a puck sliding on level ice (neglect friction on the puck)...

Suppose a hockey player sees a puck sliding on level ice (neglect friction on the puck) to the left. The player decides to gently push the puck up the ice (so perpendicular to the puck's initial velocity), and continues to push the puck in the same direction for 10 seconds. Afterward, the puck just continues to slide across the ice without the player nearby. Select ALL that are true. A. The puck's speed stays the same after 10 seconds for...

The coefficient of friction between the block of mass m1 = 3.00 kg and the surface...

The coefficient of friction between the block of mass m1 = 3.00 kg and the surface in the figure below is μk = 0.455. The system starts from rest. What is the speed of the ball of mass m2 = 5.00 kg when it has fallen a distance h = 1.10 m?

Hockey puck B rests on a smooth ice surface and is struck by a second puck...

Hockey puck B rests on a smooth ice surface and is struck by a second puck A, which has the same mass. Puck A is initially traveling at 16.0m/s and is deflected 22.0 degrees from its initial direction. Assume that the collision is perfectly elastic. a) Find the final speed of puck b after the collision. b) Find the final speed of puck a after the collision. c) Find the direction of b's velocity after the collision

A hockey puck of mass m1=155 g slides from left to right with an initial velocity...

A hockey puck of mass m1=155 g slides from left to right with an initial velocity of 21.5 m/s. It collides head on with a second puck of the same mass, m2=m1, moving in the opposite direction with velocity -25.5 m/s. They collide elastically head-on. After the collision, the velocity of m2 is:

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 block with the mass M slides with no friction on a horizontal surface (no friction)...

A block with the mass M slides with no friction on a horizontal surface (no friction) with speed x when it collides and sticks to the second block with also mass M that is attached to a third block with mass M via an ideal spring with spring constant k. Before collision, spring has its natural length and the blocks attached to it are at rest. Find an expression for the maximum kinetic energy of the third block post collision...

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...

A 0.18 kg puck is initially stationary on an ice surface with negligible friction. At time...

A 0.18 kg puck is initially stationary on an ice surface with negligible friction. At time t = 0, a horizontal force begins to move the puck. The force is given by F→=(15.0-3.94t2)î, with F→ in newtons and t in seconds, and it acts until its magnitude is zero. (a) What is the magnitude of the impulse on the puck from the force between t = 0.560 s and t = 1.79 s? (b) What is the change in momentum...

A 200 g hockey puck is launched up a metal ramp that is inclined at a...

A 200 g hockey puck is launched up a metal ramp that is inclined at a 30° angle. The coefficients of static and kinetic friction between the puck and the ramp are μs = 0.40 and μk = 0.30, and the puck's initial velocity at the base is 3.8 m/s parallel to the sloping surface of the ramp. What speed does the puck have when it slides back down to its starting point? I know that the answer is 2.1...

Subjects