Vernier Software & Technology

# Energy Storage and Transfer: Elastic Energy

## Introduction

As Richard Feynman described it, energy is the currency of the universe. If you want to speed it up, slow it down, change its position, make it hotter or colder, bend it, break it, whatever, you’ll have to pay for it (or be paid to do it). This is the first of a series of experiments in which you will investigate the role of energy in changes in a system.

If you grasp one end of a rubber band and pull on the other, you realize that the stretched rubber band differs from the same band when it is relaxed. Similarly, if you compress the spring in a toy dart gun by exerting a force on it, you know that the state of the compressed spring is different from that of the relaxed spring. By exerting a force on the object through some distance you have changed the energy state of the object. We say that the stretched rubber band or compressed spring stores elastic energy – the energy account used to describe how an object stores energy when it undergoes a reversible deformation. This energy can be transferred to another object to produce a change – for example, when the spring is released, it can launch a dart. It seems reasonable that the more the spring is compressed, the greater the change in speed it can impart to the toy dart.

If we want to quantify the amount of energy stored by a spring when it is deformed, we must first study the relationship between the force applied and the extent to which the length of the spring is changed.

## Objectives

• Determine the relationship between the applied force and the deformation of an elastic object (spring or rubber band).
• Determine an expression for the elastic energy stored in spring or rubber band that has been compressed or stretched.

## Sensors and Equipment

This experiment features the following Vernier sensors and equipment.

You may also need an interface and software for data collection. What do I need for data collection?

## Advanced Physics with Vernier — Mechanics

See other experiments from the lab book.

 1 Motion on an Incline 2 Error Analysis 3 Newton's First Law 4 Newton's Second Law 5 Newton's Third Law 6 Projectile Motion 7 Energy Storage and Transfer: Elastic Energy 8 Energy Storage and Transfer: Kinetic Energy 9 Energy Storage and Transfer: Gravitational Energy 10A Impulse and Momentum (Motion Detector) 10B Impulse and Momentum (Photogate) 11A Momentum and Collisions (Motion Detectors) 11B Momentum and Collisions (Photogates) 12A Centripetal Acceleration 12B Centripetal Acceleration 13 Rotational Dynamics 14 Conservation of Angular Momentum 15 Simple Harmonic Motion: Mathematical Model 16 Simple Harmonic Motion: Kinematics and Dynamics 17 Pendulum Periods 18 Physical Pendulum 19 Center of Mass

### Experiment 7 from Advanced Physics with Vernier — Mechanics Lab Book

#### Included in the Lab Book

Vernier lab books include word-processing files of the student instructions, essential teacher information, suggested answers, sample data and graphs, and more.