At the center of a 50-mm-diameter circular ice rink, a 80 kg skater traveling in the...

Two ice skaters, with masses of 40 kg and 85 kg, are at the center of...

Two ice skaters, with masses of 40 kg and 85 kg, are at the center of a 60 m -diameter circular rink. The skaters push off against each other and glide to opposite edges of the rink. If the heavier skater reaches the edge in 40 s, how long does the lighter skater take to reach the edge? Express your answer in seconds.

A pair of figure skaters glide holding hands on a frictionless ice rink, at a speed...

A pair of figure skaters glide holding hands on a frictionless ice rink, at a speed of 3.0 m/s and heading due East in a straight line. They then push away from each other. Skater A, of mass 48 kg, glides off at a speed of 3.8 m/s and at angle of 29 degrees counterclockwise with respect to the original direction. Skater B has a mass of 72 kg. a. After they push off from each other, what is the...

Three ice skaters meet at the center of a rink and each stands at rest facing...

Three ice skaters meet at the center of a rink and each stands at rest facing the center, within arm's reach of the other two. On a signal, each skater pushes himself away from the other two across the frictionless ice. After the push, skater A with mass mA = 80.0 kg moves in the negative y-direction at 4.00 m/s and skater B with mass mB = 95.0 kg moves in the negative x-direction at 3.50 m/s. Find the x-...

Three ice skaters meet at the center of a rink and each stands at rest facing...

Three ice skaters meet at the center of a rink and each stands at rest facing the center, within arm's reach of the other two. On a signal, each skater pushes himself away from the other two across the frictionless ice. After the push, skater A with mass mA = 75.0 kg moves in the negative y-direction at 4.00 m/s and skater B with mass mB = 70.0 kg moves in the negative x-direction at 2.00 m/s. Find the x-...

This 80 kg ice skater moving at 2.5 m/s throws a 200 g puck in the...

This 80 kg ice skater moving at 2.5 m/s throws a 200 g puck in the direction he is moving at 15 m/s relative to the ice. a. Find the velocity of the ice skater after throwing the puck. (Ignore friction) b. A second skater who is 60 kg initially at rest catches the puck. Find the velocity of the second skater after catching the puck.

An 80 kg person is standing on the edge of a 50 kg disk whose radius...

An 80 kg person is standing on the edge of a 50 kg disk whose radius is 1.5 m that can rotate about a pivot in its center. The person starts walking clockwise around the disk and the disk acquires an angular velocity of 3.0 rad/s. Q1) What is the speed (m/s) at which the person is walking on the disk? Q2) What is the magnitude of the person’s angular velocity (rad/s) relative to the ground? Q3) what is the...

7. A 77.0 kg ice hockey goalie, originally at rest, catches a 0.150 kg hockey puck...

7. A 77.0 kg ice hockey goalie, originally at rest, catches a 0.150 kg hockey puck slapped at him at a velocity of 34.0 m/s. Suppose the goalie and the ice puck have an elastic collision and the puck is reflected back in the direction from which it came. What would their final velocities (in m/s) be in this case? (Assume the original direction of the ice puck toward the goalie is in the positive direction. Indicate the direction with...

Two ice skaters, Daniel (mass 69.0 kg) and Rebecca (mass 51.0 kg) are practicing. Daniel stops...

Two ice skaters, Daniel (mass 69.0 kg) and Rebecca (mass 51.0 kg) are practicing. Daniel stops to tie his shoelace and, while at rest, is struck by Rebecca, who is moving at 13.5 m/s before she collides with him. After the collision, Rebecca has a velocity of magnitude 6.3 m/s at an angle of 51.5° from her initial direction. Both skaters move on the frictionless, horizontal surface of the rink. (a) What are the magnitude and direction of Daniel's velocity...

Can you solve it please Question 1: A. A m1 = 80 kg ice skater moving...

Can you solve it please Question 1: A. A m1 = 80 kg ice skater moving at 50.4 km/h due North crashes into a stationary skater of equal mass. After the collision, the two skaters move as one body at 6 m/s due North. If the collision lasts for 2.0 milliseconds, use the impulse – momentum theorem to find: i. The impulse delivered to the m1 skater due to the collision. ii. The magnitude of the average force exerted on...

Two ice skaters, Daniel (mass = 65.0 kg) and Rebecca (mass = 45.0 kg) are practicing...

Two ice skaters, Daniel (mass = 65.0 kg) and Rebecca (mass = 45.0 kg) are practicing on the ice. Daniel stops to tie his lace, and while at rest he is struck by Rebecca, who is moving 12.0 m/s before she collides with him. After the collision, Rebecca is moving forward at 8.50 m/s at a 53 degree angle with respect to her initial direction. What is the velocity vector (magnitude and direction, or x- and y-components) of Daniel after...