Curated OER
Origami Flight: The Physical Setting
Sixth graders investigate the forces that move certain objects. In this physics lesson, 6th graders design and create paper flying objects using origami methods, which they practice flying in different conditions. Students...
Curated OER
Making Life Easier
Students use a chart of the six simple machines and become aware of how the machines improve our ability to meet the following needs: shelter, food, water, and transportation. Students use model cars to experiment with force. They divide...
Curated OER
Race the Track! Design Challenge
Students use the design process to investigate physical science. In this force and motion lesson, design a track to achieve a specified outcome. Students complete additional experiments with speed and distance. Students...
Curated OER
Conditions at Sea
Students examine wave formation. In this wave lesson plan, students discover how waves are formed and how the weather at sea is predicted. Students study ocean vocabulary and understand the Beaufort Wind Force Scale.
Mr. E. Science
Electric Charges and Current
Resistance is not futile, it is voltage divided by current. The presentation goes in depth covering electric charges, conductors, insulators, electric fields, static charges, and circuits. The lesson is the 12th in a series of 26.
Purdue University
Exploring Whirligigs
What's that silly thing spinning in the wind? It's a whirligig! Explore wonderful windy whirligigs with a STEM-based unit that teaches the science and concepts behind these gigs. Scholars discover how gravity and air resistance...
Southwest Educational Development Laboratory
Simple Machines
Simple doesn't mean useless. Individuals learn how simple machines benefit the user by changing the amount of effort. A seven-lesson unit begins with an overview of simple machines and then incorporates activities that allow the user to...
Purdue University
Designing Safer Roadways
Be careful on curvy roads. An interesting STEM activity challenges scholars to design a safe road system. The goal is to help ensure that cars coming down a hill will be able to make a right turn without sliding off the road. Pupils test...
Curated OER
Sliding and Stuttering
Ninth graders use a spring scale to drag an object such as a ceramic coffee cup along a table top or the floor. The spring scale allows them to measure the frictional force that exists between the moving cup and the surface it slides on....
Curated OER
Simple Machines III - Pulleys
Fourth graders are introduced to a spring scale to show that the forces on both sides of the pulley are the same. They break into groups to lift objects with fixed pulleys and with multiple looped pulleys and then measure the force...
Curated OER
Building the Car (Mechanics and Motion)
Students design and begin building a car out of K'NEX parts after a class discussion on the components of the car, the constraints and goals of the design, the type of testing that will be performed, and a demonstration of a basic...
Curated OER
Newton's Earthquake
Students discuss Newton's 2nd and 3rd laws using the example of a football linebacker and a small child pushing against each other on an ice rink. Students are able to visualize the results of the push and link it to the laws. Discussion...
Curated OER
Egyptians as Engineers
Student design and build Lego vehicles that drag given amount of weight up an incline. They show how this demonstrates Egyptian methods of pyramid construction.
Curated OER
Newton's Laws of Motion
In this physics worksheet, students identify and locate vocabulary terms related to Newton's Laws of Motion. There are 16 words located in the puzzle.
Curated OER
Watch It Slide!
Students work together to examine inclined planes. They create a plan to raise rocks to build pyramids. They discover the changes that occur when the angle is increased or decreased.
Curated OER
Simple Harmonic Motion
Young scholars study harmonic motion and its oscillation. In this simple harmonic motion instructional activity students demonstrate a series of regular oscillations and explain the theory behind the experiment.
Curated OER
Newton's Laws
Students give examples of each of Newton's three laws as they occur in everyday experiences. They visually represent and differentiate the difference between a direct proportion and an inverse proportion. Students explain how the...
Curated OER
Paper Gliders
Sixth graders study friction and drag. In this science lesson, 6th graders use different models of gliders and test to see which of the gliders fly the farthest. Students analyze their data and construct a graph.
Curated OER
Simple Machines IV - Wheels and Axles
Fourth graders study everyday examples of simple machines. They examine how the combination of a wheel and axle works more efficiently than either in isolation. In a demonstration instructional activity, they see how a spring scale shows...
Curated OER
Aerodynamics
Students discover the basic principles of aerodynamics, including the roles and identity of natural forces involved. They examine how the force of gravity is overcome by the curved shape of an airplane wing and air pressure.
Curated OER
Don’t Sit Under the Apple Tree…You Might Become Famous
Students explore Newton's laws using CEENBoTs. In this physics lesson, students collect data and create tables and graphs. They calculate speed, acceleration and forces using mathematical formulas.
Curated OER
Waterskiing in Circles
Students discuss and give examples of Newton's three laws. They then answer questions in reference to Newton's three laws. One example of the questions that students answer is: A water-skier typically uses a 75 foot tow rope. The skier...
Curated OER
Space Ship Pilot
Students visualize the relation between acceleration and velocity in 2 dimensions. They are introduced to Newton's first law,and Newton's second law. Students work on an exploration activity where they condsider an example of a...
Curated OER
Machines Use Energy
Third graders observe and discuss examples of friction. They discuss what experimentally increases and decreases friction. They then predict which surface will produce the most friction and verify the prediction.