National Energy Education Development Project
The Science of Energy
Did you know the word energy comes from energeia, a Greek word? Introduce learners to the four types of potential energy, five types of kinetic energy, and energy transformation with a presentation about where we get our energy and...
McGraw Hill
Gravity Variations Interactive
What would a baseball game look like on the moon? Probably a lot of home runs! A creative activity explores the motion of a projectile on the surface of different bodies in the solar system. Participants adjust the angle and...
PHET
Soda Bottle Magnetometer
Introduce learners to set of complete instructions that describe how to build a magnetometer that works just like the ones professional photographers use to predict auroras. The diagrams are wonderfully descriptive, and the written...
Institute of Electrical and Electronics Engineers
Trebuchet Toss
Young engineers work in teams to design and build their own trebuchets according to certain criteria; they must be able to launch a mini marshmallow accurately into a pie tin. Background reading material, a planning sheet for trebuchet...
Curated OER
Rock-A-Bye Pendulum
Third graders use the scientific process to explore the effects of force on an object in motion. They demonstrate that the greater the force applied to an object, the greater the change in speed or direction of the object. They...
Curated OER
The Science of Hurricanes
Students are introduced to the science of hurricanes in an effort to highlight how forces change the speed and direction of motion.
Curated OER
Look Ma! I'm a Rocket Scientist!
Students use a ball to push and pull to demonstrate the concept of force. In this force lesson plan, students talk about the importance of force in space and use balls to demonstrate this phenomena.
Curated OER
Measure for Measure: Weight and Energy
Students study the friction of a particular sport. In this weight and energy instructional activity students choose a sport and us the Internet to research it then present their findings to the class.
Curated OER
What Structural Challenges Do Bridge Builders Face Today?
Learners investigate the process of constructing a bridge. They study the meaning of structural force and draw pictures of examples. Students identify the types of building materials have been used in history to construct bridges and how...
Curated OER
Wind Power
What a wonderful way to explore wind power! Through this lesson plan, learners get a background in the history of wind power, create their own wind turbine, and the test their designs. This is a terrific way to tie scientific principles...
Curated OER
Wright Again: 100 Years of Flight
Aspiring aeronautical engineers demonstrate different forces as they construct and test paper airplanes. This lesson plan links you to a website that models the most effective paper airplane design, an animation describing the forces...
Curated OER
How Do Airplanes Get Off the Ground
Students construct various types of paper airplanes, exploring action and reaction forces by conducting a paper airplane rodeo. Students then discuss how Newton's Third Law of Motion affected their planes.
Curated OER
The Impact
Young scholars investigate the impact inventions have on people. In this technology activity, students explore inventions, such as the light bulb, and identify ways the invention impacted society. Young scholars design a simple project...
Curated OER
Gravity Launch
Young scholars examine how gravity affects launching rockets into space. In this physical science lesson, students review the concept of gravity and use an interactive online site, "Gravity Launch," to simulate a rocket launch.
Curated OER
Water and Ice
Learners explore the physical properties of water. In this water lesson, students observe, measure, and describe water as it changes state. There are 2 extensions for this lesson that one can access via the Internet links provided.
Curated OER
Hot Wheels
Students observe the action produced by toy cars. In this geometry lesson, students discuss motion and distance as they relate to the movement of a spherical object.They collect data and make conjectures based on their data.
Curated OER
Hooke's Law
Students explore the relationship between the force applied to a spring and its stretch. They design and conduct an experiment to determine the stretch of spring with 15N of force without having an actual 15N mass.
Curated OER
Building And Launching a Model Rocket
Students are introduced to the basic parts of rockets and the physical forces at work in the flight of rockets. They build and launch a model rocket and discuss the challenges of launching a real rocket.
Curated OER
Drop It!
Eighth graders explore Newton's Law of Motion that states that an object at rest stay at rest unless acted upon by an outside force and that an object in motion stay in motion unless acted upon by an outside force.
Curated OER
The Raw of Newton’s 3rd Law
Students identify the action and reaction forces acting on the CEENBoT. In this physics lesson plan, students describe everyday applications of Newton's 3rd Law. They create a cluster word web about this law.
Curated OER
Simple Machines on the Move
Third graders explore simple machines. In this simple machine lesson students experiment with motion and force. Students have hands on activities and resources are provided.
Curated OER
Friction
Students explore the force of friction between materials. In this physics lesson, students participate in an experiment using various materials such as wood, waxed paper, and aluminum foil and explore which item produced the most friction.
Curated OER
How Do Probes Get To Space
Students investigate how force works to propel rockets into outer space. In this physics instructional activity, students use a drinking straw, fishing line, a balloon, and tape to explore how force works in outer space. Students repeat...
Curated OER
Don’t Sit Under the Apple Tree…You Might Become Famous
Students explore Newton's laws using CEENBoTs. For this physics lesson, students collect data and create tables and graphs. They calculate speed, acceleration and forces using mathematical formulas.