Part A) With what minimum speed must you toss a 170 g ball straight up to...

With what minimum speed must you toss a 200 g ball straight up to hit the...

With what minimum speed must you toss a 200 g ball straight up to hit the 15-m-high roof of the gymnasium if you release the ball 1.1 m above the ground? Solve this problem using energy. With what speed does the ball hit the ground?

A ball is thrown straight up from the edge of the roof of a building. A...

A ball is thrown straight up from the edge of the roof of a building. A second ball is dropped from the roof a time of 1.17 s later. You may ignore air resistance A. If the height of the building is 20.3 m, what must the initial speed be of the first ball if both are to hit the ground at the same time? Express your answer in meters per second. B. Consider the same situation, but now let...

A golf ball (m = 50 g) is hit from ground level with an initial speed...

A golf ball (m = 50 g) is hit from ground level with an initial speed of 50 m/s and reaches a maximum height of 25 m. Neglect air drag. a. What is the ball’s total mechanical energy just after it has been hit? b. What is the ball’s potential energy at the maximum height? c. What is the ball’s kinetic energy at the maximum height? d. What is the ball’s speed at the maximum height?

A basketball referee tosses the ball straight up for the starting tip-off. At what velocity must...

A basketball referee tosses the ball straight up for the starting tip-off. At what velocity must a basketball player leave the ground to rise 1.25 m above the floor in an attempt to get the ball?

A boy uses a slingshot to launch a pebble straight up into the air. The pebble...

A boy uses a slingshot to launch a pebble straight up into the air. The pebble reaches a height of 38.0 m above the launch point 1.0 seconds later. Assume air resistance is negligible. (a) What was the pebble's initial speed (just after leaving the slingshot)? 42.9 m/s (b) How much time did it take for the pebble to first reach a height of 19.0 m above its launch point? ? s You toss a tennis ball straight upward. At...

You are lawn bowling and bowl a 350 g ball with a speed of 5.94 m/s....

You are lawn bowling and bowl a 350 g ball with a speed of 5.94 m/s. Unfortunately, your ball hits a large rock, resulting in a perfectly elastic collision. If the final velocity of the rock after the collision is 3.69 m/s, what must the mass of the rock be? * 0.350 kg * 0.0683 kg * 0.777 kg * 0.160 kg ****I tried this using conservation of kinetic energy because it says the collision is perfectly elastic, and ended...

Consider two projectiles that can be shot upward by spring guns. Object A is made of...

Consider two projectiles that can be shot upward by spring guns. Object A is made of solid aluminum and has a mass of 50 grams. Object B is made of cast iron and has a mass of 200 grams. For this problem, you may take the gravitational field strength to be g = 10 N/kg. i. Masses A and B are both shot straight upward at the same time. Mass A is shot with a speed of 2 m/s and...

Problem 6.53, Ball 1 is moving toward you at 12 m/s , and you decide to...

Problem 6.53, Ball 1 is moving toward you at 12 m/s , and you decide to throw ball 2 at it to make it reverse its velocity. The balls collide head-on, and the coefficient of restitution for the collision is 0.90. Ball 1 has an inertia of 0.500 kg and ball 2 has an inertia of 0.650 kg . Call the direction of motion in which we throw ball 2 the +x direction.Part A How fast must ball 2 be...

When jumping straight down, you can be seriously injured if you land stiff-legged. One way to...

When jumping straight down, you can be seriously injured if you land stiff-legged. One way to avoid injury is to bend your knees upon landing to reduce the force of the impact. A 73.2-kg man just before contact with the ground has a speed of 3.19 m/s. (a) In a stiff-legged landing he comes to a halt in 4.74 ms. Find the magnitude of the average net force that acts on him during this time. (b) When he bends his...

The hill is covered in gravel so that the truck's wheels will slide up the hill...

The hill is covered in gravel so that the truck's wheels will slide up the hill instead of rolling up the hill. The coefficient of kinetic friction between the tires and the gravel is ?k. This design has a spring at the top of the ramp that will help to stop the trucks. This spring is located at height h. The spring will compress until the truck stops, and then a latch will keep the spring from decompressing (stretching back...