Vernier Software and Technology
Vernier Software & Technology

Introduction to the Vernier Energy Sensor

Figure from experiment 3 from Investigating Wind Energy


When wind pushes against the blades of a turbine, the blades spin, and the generator inside the turbine causes electrons to move through the wires connected to the turbine. In this experiment, you will use a Vernier Energy Sensor to measure the electrons as they move. There are three values you will use to measure the movement of the electrons: current, potential difference, and power.

Current is the measure of the flow of electrons through the wires. When there is a high current, the electrons are flowing quickly through the wire. When the current is low, the electrons are moving more slowly. Current is measured in units of milliamperes, often called milliamps for short. The symbol used to represent miliamps is mA.

To make the electrons move through the wire, they need to be "pushed." The amount of push is called the potential difference. Potential difference is measured in units of volts. The letter V is used to represent a volt. If you use a AA battery in a flashlight, the battery outputs 1.5 V. It pushes enough electrons to light up the small light bulb in the flashlight. Car batteries are usually 12 V. They push more electrons–enough to play music on the car stereo or defrost the windows on a cold day.

Power is the measure of how quickly energy is generated or used. In this experiment, power is measured in units of milliwatts. The symbol used for miliwatts is mW.

Power is a value that is calculated by multiplying the current and the potential difference

power = current Ă— potential difference

The data-collection software that you use in this experiment will do the calculation for you.

The following table summarizes the different measurements and units you will use in this experiment.

Measurement Unit Symbol
current milliamp mA
potential difference volt V
power milliwatt mW


  • Set up data-collection equipment.
  • Measure current, potential difference (voltage), and power output of a wind turbine with a Vernier Energy Sensor.
  • Use data-collection software to calculate mean (average) values.

Sensors and Equipment

This experiment features the following Vernier sensors and equipment.

Additional Requirements

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

Investigating Wind Energy

See other experiments from the lab book.

1Introduction to Wind Turbines
2Exploring Wind Energy
3Introduction to the Vernier Energy Sensor
4Wind Turbine Output: The Effect of Load
5Exploring Wind Turbine Blades
6Blade Design: Pitch
7Blade Design: Area
8Blade Design: Quantity
9Blade Design: Mass
10Blade Design: Material
11Project: Power Up!

Experiment 3 from Investigating Wind Energy Lab Book

<i>Investigating Wind Energy</i> book cover

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.

Buy the Book

Go to top