Curated OER
Battery Charger
High schoolers explain how battery chargers work. In this physics lesson, students discuss the two main ways that vehicles get charged. They build their own battery charger.
Curated OER
Build Your Own Submarine
High schoolers construct their own submarine following a certain procedure. In this physics activity, students calculate the density of objects using a mathematical formula. They explain why some object floats in water while some do not.
Curated OER
Motion: Speed, Velocity, Acceleration and Networking
Students interpret a variety of motion graphs. In this physics lesson, students calculate the speed and acceleration of objects using numerical data from graphs. They apply what they have learned to solve real world problems.
Curated OER
Stepper Motor
High schoolers compare a stepper motor from a traditional motor. In this physics lesson, students summarize how it works. They build their own stepper motor and explore its uses.
Curated OER
Resistor and Resistance
Students explore electrical resistance through various experiments. For this physics lesson, students calculate resistance using a mathematical formula. They explain how colors identify the resistance value of a resistor.
Curated OER
Rechargeable Batteries
High schoolers explore how rechargeable batteries work by conducting a series of experiments. In this physics lesson, students discuss the benefits of using rechargeable batteries over disposable ones. They build their own battery...
Curated OER
Thermoelectricity
Students conduct a series of experiments on thermoelectricity. In this physics lesson, students investigate how thermocouple works. They determine the voltage generated when different conductive materials are held at different temperatures.
Curated OER
Build Your Own Hovercraft
Students construct a hovercraft following specific procedures. In this technology lesson plan, students explain the physics principles behind hovercraft. They compare and contrast this machine with the aircraft.
Texas State Energy Conservation Office
Nuts! Calculating Thermal Efficiency
Oh nuts! Do macadamias or almonds produce more thermal energy? Energy enthusiasts find out with this experiment. The objective is to demonstrate to your class how the chemical energy contained in foods can be converted into useable...
Curated OER
TECH: Geneticist
A brief PowerPoint is used to introduce the class to the field of genetics by explaining the fields of work, the education required, and the job prospects. A trait inventory worksheet is completed by individuals, and then they gather...
Rochester Institute of Technology
Biomechanical Joint
Discuss mechanical advantage and how the human body moves/works. Learners focus on bioengineering, working together to build a functioning mechanical arm. Additionally, they analyze an air muscle, discussing its appropriate use in humans.
Curated OER
Elements of Physics: Energy And Work
Students examine the difference between potential and kinetic energy. In this energy lesson students view a video and apply these energies to real world situations.
Curated OER
The Blossoming of Flower Power
Learners explore the reproductive functions of flowers by participating in a flower dissection lab.
Rochester Institute of Technology
Solar Energy
Warm up to the idea of solar energy. A instructional activity 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...
Curated OER
Spark of Imagination
High schoolers consider the power of physics. In this current events lesson, students listen to a lecture that explores the power garnered by iPod batteries and how they work.
Curated OER
Atmospheric Pressure
Push the envelope with this lesson on atmospheric pressure! Your physics or geology juniors will be amazed at your super-human ability as you demonstrate the breaking of a stick using a newspaper! They also work with peers to construct a...
Curated OER
Solar Kit Lesson #13 - Solarize a Toy
Physical science or technology classes will be invigorated by this challenge: to convert a toy, game, or other device to run on solar power. In doing so, they will design the appropriate solar arrays. This is an A+ lesson, complete with...
Curated OER
Using Waves on the Job!
A colorful and comprehensive PowerPoint highlights this lesson on waves. Junior geophysicists pretend that they are hired to analyze seismic waves. A worksheet is provided to go along with an online article about how compact discs work...
Institute of Electrical and Electronics Engineers
Solar Structures
It's time to soak up the sun! Youngsters read about active and passive solar heating systems, then they collaborate to create a miniature solar-heated building. Provide a variety of materials for them to incorporate and watch their...
Curated OER
Voyage: A Journey Through Our Solar System
Thoroughly written, this plan walks you through every detail of having your high school astronomers design scale models of the solar system. Complete instructions on building to scale, lesson procedures, and associated worksheets are all...
Carnegie Mellon University
Consumer Preferences in Lighting
What is a watt? This tongue-twisting, mind-bending question and others are answered through this instructional activity on the different lighting options available. With the support of a PowerPoint, teach your physical science class...
Curated OER
The Math of Light
Investigate light intensity, illuminance, and power consumption of different light source.Compare the efficiency of light bulbs then create a persuasive advertisement about it.
Curated OER
Spin Your Turbines
Students relate electrical power and how it works to math. In this geometry instructional activity, students analyze how a hydroelectric plant works and calculate the amount of electricity that is produced by a typical generator. This...
Curated OER
Resistors and Scientific Notation
Students explain the importance of scientific notation. In this physics lesson plan, students determine the resistance of resistors using the colored bands. They compare and contrast scientific notation and resistor band notation.