An 82 kg player moving at 8.3 m/s (N) and a 95 kg player moving at 6.7 m/s (N 30 degrees W) collide and remain together after the collision. What is their common velocity? Please show all your work.
An 82 kg player moving at 8.3 m/s (N) and a 95 kg player moving at...
An 82 kg player moving at 8.3 m/s (N) and a 95 kg player moving at 6.7 m/s (N 30 degrees W) collide and remain together after the collision. What is their common velocity?
A(n) 5 kg object moving with a speed of 6.8 m/s collides with a(n) 19 kg object moving with a velocity of 9.1 m/s in a direction 18 degree from the initial direction of motion of the 5 kg object. What is the speed of the two objects after the collision if they remain stuck together? Answer in units of m/s. What is the change in direction experienced by the lighter of the two objects? Answer in units of degree.
A 1200-kg car is moving at 16.0 m/s due north. A 1500-kg car is moving at 20.0 m/s due east. The two cars simultaneously approach an icy intersection where, with no brakes or steering, they collide and stick together. 1) Determine the speed of the combined two-car wreck immediately after the collision. (Express your answer to two significant figures.) m/sm/s 2) Determine the direction of the combined two-car wreck immediately after the collision. (Express your answer to two significant figures.)
A 1570 kg car moving south at 10.6 m/s collides with a 2640 kg car moving north. The cars stick together and move as a unit after the collision at a velocity of 5.60 m/s to the north. Find the velocity of the 2640 kg car before the collision. Assume that North is positive.
5. A pile-driver of mass 380.0 kg moving at 20.0 m/s hits a stationary stake of mass 20.0 kg. If the two move off together, calculate their common velocity. 6. Show that the collision in questions 1 is elastic; that is find total KE before collision and total KE after collision. If they are equal, then collision is elastic.
An object (A) of mass mA = 29.5 kg is moving in a direction that makes angle of 30° north of east with a speed vA = 5.20 m/s, while object (B) of mass mB = 18.0 kg is moving due south with a speed vB = 8.00 m/s. The two objects collide and stick together in a completely inelastic collision. Find the magnitude of the final velocity of the two-object system after the collision.
A 1100-kg car is moving at 20 m/s due north. A 1600-kg car is moving at 19 m/s due east. The two cars simultaneously approach an icy intersection where, with no brakes or steering, they collide and stick together. Determine the speed and direction of the combined two-car wreck immediately after the collision. magnitude=? direction=?
A 1200-kg car is moving at 19 m/s due north. A 1500-kg car is moving at 18 m/s due east. The two cars simultaneously approach an icy intersection where, with no brakes or steering, they collide and stick together. Determine the speed and direction of the combined two-car wreck immediately after the collision. direction North of East
An object (A) of mass m A = 29.0 kg is moving in a direction that makes angle of 40° north of east with a speed v A = 5.10 m/s, while object (B) of mass m B = 17.5 kg is moving due north with a speed v B = 7.85 m/s. The two objects collide and stick together in a completely inelastic collision. Find the magnitude of the final velocity of the two-object system after the collision. An...
. Two ice skaters collide on the ice. A 39.6-kg skater moving South at 6.21 m/s collides with a 52.1-kg skater moving East at 4.33 m/s. The two skaters entangle and move together across the ice. Determine the magnitude and direction of their post-collision velocity