# Kinetic Energy and Potential Energy Worksheet

How to use a Kinetic Energy and Potential Energy Worksheet is a common question by a student who desires to become an engineer. It is not a complicated science, but there are some basics that need to be covered for everyone to understand the subject. These Basic Concepts and Information will help to explain the Kinetic Energy and Potential Energy Worksheet.

Kinetic Energy: This is simply the kinetic energy of motion, the force that occurs as the object or material moves. This force is what drives the body to move. This kinetic energy is used to describe the transformation of the mechanical energy (calculated as physical force per mass) into potential energy. The word “Kinetic” refers to a change in motion or kinetic energy, which is being referred to in physics. The source of energy is known as the potential energy.

To calculate the Kinetic Energy and Potential Energy Worksheet can easily be done. The Kinetic Energy Scale is found in the equation and the potential energy scale is found in the equation. The formula for calculating Kinetic Energy and Potential Energy Worksheet is a ratio equation that uses the second derivative of the potential energy.

Example equation is: The use of this equation should be spelled out in a graph form on the worksheet. This applies the graph where the graph would be a vertical scale where the horizontal line goes from zero, where there is no energy or potential energy and reaches the maximum energy of all the symbols at infinity. This area should be plotted and scaled with the actual area of the circle where the work shows.

A graph where a percent-area energy is used is also found. This graph can also be used to show how the graph represents the work needed to produce the kinetic energy and the potential energy. In the example it would look like this:

The Kinetic Energy and Potential Energy Worksheet require the use of the two formulas for Energy and Newton’s second law of motion. The force to be created is calculated from the formula of the work. It also involves how the work is actually achieved.