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Elementary

Angular Rotation Game

Submitted by PocketLab on Fri, 06/02/2017 - 18:43

Exploration

Angular velocity is the rate of rotation of an object along a specific axes. For example, the blades of a ceiling fan rotate around the fan’s central axis. Angular velocity is often measured in the number of degrees the object rotates every second (°/sec) or the number of complete revolutions every minute (RPM). The PocketLab’s gyroscope measures the angular velocity of the PocketLab about the x-, y-, and z-axis.

Objective

Ceiling Fan in Winter

Submitted by PocketLab on Fri, 06/02/2017 - 18:08

Exploration

When it is cold outside, it is often thought that fans aren’t needed. However, it may be that a fan can bring warm air near the ceiling down to floor level, increasing comfort without raising the thermostat. Energy could therefore be saved.

Objective

In this experiment, students will:
1) Determine how a ceiling fan affects the temperature in a room, both near the floor and near the ceiling.

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Saving Energy with Curtains

Submitted by PocketLab on Fri, 06/02/2017 - 18:04

Exploration

Does closing blinds or curtains save energy? Often the blinds or curtains in a room are left open when it is cold outside, even when no one is using the room. Would closing them save energy?

Objective

In this experiment, students will:
1. Determine how to use curtains to save energy when it is cold outside.

Download PDF for complete lab activity

What is temperature?

Submitted by PocketLab on Fri, 06/02/2017 - 18:02

Exploration

What does it mean to change temperature? What is temperature? We know what it means to be hot or cold, but what does it mean when you measure the temperature of an item?

Objective

In this experiment, students will:
1. Understand how the temperature of the water is related to the movement (kinetic energy) of the water molecules.
2. Use observations to describe the principle of thermal expansion.

Download PDF for complete lab activity 

Take a hike!

Submitted by PocketLab on Fri, 06/02/2017 - 17:51

Exploration 

As a hiker changes elevation during a hike, the atmospheric pressure will change. The air pressure at sea level, is vastly different than the air pressure at the top of a mountain. In some regions, it can be even be difficult for people who are not from that region to breathe, because they are not used to the changes in altitude. Using PocketLab, determine the relationship between elevation and air pressure.

Objective