Step 1 A tennis ball weighing 56 grams is let go on a ramp that is 2 ft long (or .6096 meters) and on a 45-degree angle. The Velocity of the ball before hitting the ramp is 3.97 m/s.

Step 2 The tennis ball hits the first book tipping the book. The book weighs 12 ounces. The book falls onto a golf ball.

The final velocity of the book after the collision .655 m/s

Transfer of energy from the tennis ball to the book .074 J

Step 3 The pushed golf ball weighs 45.9 grams and rolls down the ramp that is 1 foot long at a 45-degree angle and falls into a bucket ending the motion.

For Step two:

Calculate the initial velocity of the book in the second step. Explain what the object's initial velocity tells you about the object's behavior.

Calculate the change in velocity that would be observed based on kinematics and force principles. Then use Newton's Second Law to calculate the force acting on the object.

Provide the equations that can be used to describe the change in kind and amount of energy across the second step.

Calculate the amount of energy that is converted from one form to another, using the changes in mass and height. For example, if appropriate for your selected step, you could calculate the transformation of potential energy to kinetic energy.

Please: Explain all calculations and where you got the numbers from.

2 f+ (.6006 m) @ Tennis hall 56g 12 02 Book Let go - 450 .4311 45