Texas State Energy Conservation Office
Investigation: Making a PV Cell
Rise and shine! Class members collaborate to construct a photovoltaic solar cell with two semiconductor layers, as guided by this fabulous lab sheet. They test its output with an ammeter or galvanometer.
Curated OER
Solar Kit Lesson #3 Parts of a Solar Panel - Part I
A solar cell is similar to a rechargeable battery in many ways. Science lab groups connect each in a series circuit to run a mini motor and then compare and contrast them by answering questions and completing a Venn diagram. This is an...
Rochester Institute of Technology
Solar Energy
Warm up to the idea of solar energy. A lesson includes three activities that challenge scholars to apply knowledge in new ways. First, they learn to run an alarm clock without a battery by using solar energy. Next, they complete an...
Curated OER
Solar Kit Lesson #1 - Solar Cell Inquiry
Give youngsters the components of a solar-powered electric circuit and turn them loose to figure out how to connect them in order for a light to shine or motor to turn. They compare energy output of a solar panel to that of a battery. On...
Bonneville
Copper Oxide Solar Cell Construction and Testing
Who knew some pieces of copper and some saltwater would be enough to generate electricity? The fifth of 14 lessons in the Cost Effective Solar Cells unit challenges scholars to create a solar cell. They take two copper sheets, use a hot...
Bonneville
Researching Chemicals and Materials for Solar Cell Construction
Revolutionize the solar cell industry with a new design. The 10th of 14 lessons in the Cost Effective Solar Cells unit has pupils start a project in which they design a unique solar cell. They receive an introduction to the project,...
Bonneville
Titanium Dioxide Raspberry Solar Cell Data Sharing
Concerned about how well others did on the experiment? Scholars share results from the titanium dioxide raspberry solar cell test they performed in the previous lesson. After analyzing the data, they come up with a claim about the...
Cornell University
Solar Cells: Juice From Juice
Unleash the power of ... blackberries! Science superstars create solar cells using the juice of berries or leaves of a citrus tree in an engaging lab. In addition to offering a plethora of resources, the teacher's guide gives background...
Curated OER
Solar Electricity ~ The Colour Sensitivity of a Photovoltaic Cell
Teacher's notes, a materials list, detailed procedure, tips, and extension ideas are all included to make teaching this lesson plan on photovoltaic cells a sunny spot in your day! After some brief background reading, physical science...
Science Matters
Solar Energy
The solar energy industry in the United States added more jobs in 2015 than the oil and gas extraction and pipeline industries combined. With the field growing so rapidly, it's essential to understand what solar energy is and how it...
Curated OER
Solar Kit Lesson #7 - Positioning Solar Panels I: Explorations with Tracking
In this first part of a two-part lesson, learners track and record the sun's azimuth using a solar panel. They graph and analyze the data to identify relationships among the time of day, the altitude and azimuth of the sun, and the...
Curated OER
Solar Kit Lesson #6: Solar-Powered Battery Charger
In a previous instructional activity, learners build an ammeter. That ammeter, or a pre-made one, is required in order to carry out this instructional activity. The objective is for lab groups to design a way to connect solar cells that...
Curated OER
The Photoelectric Effect in Photocells
Illuminate your physics class with this examination of a photovoltaic cell. Teach the structure and operation of the device using a diagram. Then make a human-powered, larger-than-life sized model of a PV cell. Learners become electrons...
Curated OER
Solar Kit Lesson #11 - Power Maximum: An Electrical Determination
Collaborative groups connect resistors and solar panels in series and measure electrical resistance, voltage, and current. The objective is to order 16 solar panels from strongest to weakest. They graph current-voltage and power curves...
Bonneville
Copper Oxide Cell Data Sharing
Sharing is caring—and good for learning, too. Learners share data from the experiment in the previous lesson by engaging in a gallery walk. They then consider and discuss the conditions under which a solar cell will have its maximum...
Bonneville
Solar Panel Basics
Going outside is a logical step when dealing with solar panels. Future scientists learn about the n-type and p-type layers of solar cells in the third of 14 lessons in the Cost Effective Solar Cells unit. They go outside to model the...
Bonneville
Designing a Solar Charger
The sun can even charge batteries. The fourth of five lessons in the Solar Transportation unit has pupils design a charger that uses solar modules to charge a 12-volt lead-acid battery. They estimate the charge that accumulates and...
Bonneville
Simple Solar Tracker
Let the solar cells fight each other for supremacy! Given a functional solar tracker that moves toward light, groups copy the design to build their own devices. They use two sets of solar cells that have reverse polarization, so that the...
Bonneville
Solar Tracker Challenge
Follow the light—not with one's eyes—but with a special solar tracker. Future engineers design and build a device that tracks light. They must build circuits in which solar cells rotate to receive equal amounts of light.
Bonneville
Introduction to the Photovoltaic Effect
Let a video light the way to a better understanding of solar energy. Scholars first learn vocabulary terms related to the photovoltaic effect, solar cells, and electricity. They then watch a video to learn why silicon is often used as a...
Bonneville
Engaging with Solar Panels
Build a fan and become a fan of solar power. The second of 14 lessons in the Cost Effective Solar Cells unit has learners first construct circuits with solar cells to power a fan, a motor, and an LED. They then test their circuits both...
Bonneville
Photovoltaic Solutions "Shark-Tank Style"
Come up with a great idea and change the world for the better. Working in groups of three, learners apply their knowledge of photovoltaic systems to design a battery-powered electric vehicle capable of replacing gas-powered cars. They...
Bonneville
Electrical Energy and Solar Module Efficiency
It's much more efficient if everyone knows the relevant terms. Pupils research vocabulary terms related to electric currents to start a unit on solar energy. They then use a multimeter to measure the voltage and current for a solar...
PBS
Real-World Ratio and Rate Reasoning: How to Power the Skate Park
Bring on the lights! Using an interactive, characters try to figure out how to light a skate park by examining area and ratios to determine the number of solar panels needed to power them. Pupils design a house with a roof to hold solar...