A 30.0 kg hammer strikes a steel spike 2.00 cm in diameter while moving with speed...

A 0.850 kg hammer is moving horizontally at 9.00 m/s when it strikes a nail and...

A 0.850 kg hammer is moving horizontally at 9.00 m/s when it strikes a nail and comes to rest after driving it 1.00 cm into a board. (a) Calculate the duration of the impact. (b) What was the average force exerted on the nail? N (downward)

A 1.11 kg hammer strikes a 26 g silver nail into a wood board. The nail...

A 1.11 kg hammer strikes a 26 g silver nail into a wood board. The nail is horizontally aligned and at the moment of impact with the nail, the hammer had a speed of 8.6 m/s. Assume both the hammer and the nail come to a stop and that all of the thermal energy generated goes into heating the nail. Determine how much the temperature of the nail will increase after one hit and how many hits it will take...

A 2.00×10−2-kg bullet strikes a 0.280-kg block attached to a fixed horizontal spring whose spring constant...

A 2.00×10−2-kg bullet strikes a 0.280-kg block attached to a fixed horizontal spring whose spring constant is 3000 N/m and sets it into oscillation with an amplitude of 17.0 cm . What was the initial speed of the bullet if the two objects move together after impact?

A 12-g bullet moving horizontally with speed of 350 m/s strikes and remains in a 4.0-kg...

A 12-g bullet moving horizontally with speed of 350 m/s strikes and remains in a 4.0-kg block initially at rest on the edge of a table. The block, which is initially 80 cm above the floor, strikes the floor a horizontal distance from the base of table. What is the horizontal distance on the floor?

A 0.270 kg rubber ball strikes a smooth floor moving at 8.70 m/s, 36.87 ∘ below...

A 0.270 kg rubber ball strikes a smooth floor moving at 8.70 m/s, 36.87 ∘ below the horizontal and rebounds at an angle of 22.62 ∘ above the horizontal. If the ball was in contact with the ground for 0.0400 s, then a) ..what was the rebound speed of the ball? b) ...what was the average normal force (magnitude) the floor exerts upwards on the ball, if we neglect gravity during the collision? c) ...what was the average normal force...

Example for perfectly inelastic collision A 2 kg ball which is moving at a speed of...

Example for perfectly inelastic collision A 2 kg ball which is moving at a speed of 10 m/s strikes a 2 kg ball which is at rest. What is the speed of the balls after the collision. What is the momentum. what is the center of mass. Example for totally elastic collision A 2 kg ball which is moving at a speed of 10 m/s strikes a 2 kg ball which is at rest. What is the speed of the...

A 2250 kg car traveling in the neagtive x direction at 8.5 m/s strikes a second...

A 2250 kg car traveling in the neagtive x direction at 8.5 m/s strikes a second car of mass 2830 kg which is moving. The first rebounds and moves off with a speed of 2.7 m/s. After the collision, the second car moves in the negative x direction at 3.2 m/s. What was the original speed and direction of the second car? Explain your reasoning. Then how much kinetic energy was lost in the collision?

A 0.005 kg bullet traveling horizontally with speed 1.00 x 103 m/s strikes an 18.0-kg door,...

A 0.005 kg bullet traveling horizontally with speed 1.00 x 103 m/s strikes an 18.0-kg door, embedding itself 10.0 cm from the side opposite the hinges. The 1.00 m wide door is free to swing on its frictionless hinges. A) What is the bullet’s initial angular momentum relative to the door’s axis of rotation? B)At what angular speed does the door swing open immediately after the collision?

A 50.0 gg marble moving at 2.00 m/sm/s strikes a 26.0 gg marble at rest. Note...

A 50.0 gg marble moving at 2.00 m/sm/s strikes a 26.0 gg marble at rest. Note that the collision is elastic and that it is a "head-on" collision so all motion is along a line. What is the speed of 50.0 gg marble immediately after the collision? What is the speed of 26.0 gg marble immediately after the collision?

A 50.0 g marble moving at 2.30 m/s strikes a 21.0 g marble at rest. Note...

A 50.0 g marble moving at 2.30 m/s strikes a 21.0 g marble at rest. Note that the collision is elastic and that it is a "head-on" collision so all motion is along a line. a. What is the speed of 50.0 g marble immediately after the collision? b. What is the speed of 21.0 g marble immediately after the collision?