CK-12 Foundation
Orbital Motion
Why do planets orbit the sun in ellipses when moons orbit their planet in circles? Pupils control the semi-major axis, eccentricity of the orbit, and position angle. The resulting orbital appears with the related force vectors as...
Curated OER
Simple Machines
Students explore the concepts of force and effort by observing simple machines. In this physics lesson, students attempt to sharpen a pencil without any help, bite into an orange with their lips curled over their teeth, and other...
Scholastic
Study Jams! Newton's First Law: Inertia
Give your class some inertia with a far out video and multiple-choice questions about Newton's first law of motion. Several examples are given in an animated feature in a style that upper-elementary learners will enjoy.
Scholastic
Study Jams! Newton's Third Law: Action & Reaction
What happens when two teens collide? Find out when RJ runs into Chloe in the school hallway! After their collision, they discuss Newton's third law of motion. Their collision is replayed a few times to identify the action and reaction of...
Curated OER
Motion in the Ocean
How does the formation of currents and waves in the ocean happen? High schoolers will learn about the primary causes for ocean currents and waves by calculating a wave's amplitude and nautical mile speed. Then they will complete a...
Curated OER
Hooke's Law, Vibrations, Mechanical Waves, and Sound
Dangle a spring to experiment with vibration and discover if period is dependent on amplitude. Strum a guitar and adjust the strings to compare displacement and sound. Use a Slinky® and guitar strings on a ring stand to uncover the...
Curated OER
Action and Reaction
Students experiment with Newton's Third Law of Motion. In this physics and motion lesson, students complete two experiments to illustrate force and its equal and opposite reaction. Students first work in pairs to exert an equal force on...
Curated OER
Student Exploration: Force and Fan Carts
In this force and fan carts worksheet, students use the internet program Gizmo to explore force and fan carts. Students answer 28 questions.
Curated OER
Force & Acceleration
Students investigate the effects of weights on the motion of a toy car. In this force and acceleration lesson plan, students use different weights, a toy car, a paper clip and string to determine how a car will move as different weights...
Curated OER
Force and Motion
In this force and motion worksheet, students read six paragraphs with numbered sentences about force and the laws of motion and answer one question.
Hawaiʻi State Department of Education
Push and Pull
I love mixing arts lessons with core content! Here, the class will discuss energy, motion, and force (push/pull) as they review dance vocabulary and movements. They preview vocabulary for force and dance. Then they pair-up to dance a...
Teach Engineering
May the Force Be With You: Thrust
Force the plane through the air. The lesson introduces the force on an airplane that makes it go forward. Pupils learn how Newton's laws of motion apply to flight in the eighth segment of a 22-part unit on flight.
Curated OER
Circular Motion
A helpful physics presentation will have you talking in circles! The material covers circular motion, and includes diagrams, formulas, and example problems. When used in addition with directed instruction and a teacher-created form...
Henry Ford Museum
Physics, Technology and Engineering in Automobile Racing
Start your engines! This five-lesson unit introduces physics and Newton's laws through automobile racing. Each lesson includes background information, a student worksheet, and an answer key. There are also culminating...
CK-12 Foundation
Elevator
Do you weigh slightly less when an elevator first starts its descent? The simulation teaches the change in the force based on the acceleration, constant speed, or deceleration of an elevator. Scholars control the mass and acceleration...
Teach Engineering
Ramp and Review (for High School)
Rolling for momentum. As part of a study of mechanical energy, momentum, and friction, class members experiment rolling a ball down an incline and having it collide with a cup. Groups take multiple measurements and perform...
Bowels Physics
Newton's Third Law and Law of Gravitation
Why was Sir Newton so important to the field of science? Pupils discuss his contributions, specifically his Third Law, as they learn about gravity and the center of mass. They work multiple problems to ensure their understanding and...
Concord Consortium
Boiling Point
Is it getting hot in here? Observe boiling from inside a beaker in an engaging interactive. Chemistry scholars heat and cool polar and non-polar solids and observe how molecules react to temperature changes. Your class' misconceptions...
Bowels Physics
Waves and Sound
Explore how sound travels as waves with a straightforward lesson that explains the basics of waves in relation to sound. The presentation considers sound waves in both open and closed pipes and shows how to calculate wavelength and...
Curated OER
Introduction to Forces and Inertia
Learners explore the basic underlying concepts of Newton's first law of motion. They discuss forces and brainstorm different examples of force and what they act on. Students examine force by observing springs and gravity. They discuss...
Curated OER
Forces and Newton's Laws Unit
Young scholars participate in lessons on Forces and Newton's Laws by selecting activities and assignments to complete in a Layer Unit. Students select assignments and activities in the C Level, B Level, and A Level.
Curated OER
Isaac Newton's 3 Laws of Motion
In this laws of motion activity, students review Newton's 3 laws of motion and compare force and net force. 11 matching, 18 fill in the blank, 6 word problems.
Curated OER
Newton's Laws of Motion
Ninth graders utilize Newton's Laws of Motion to explain how things move, create poster illustrating each law of motion, and present and explain their poster to classmates.
Mr. E. Science
Forces
May the mass times acceleration be with you. The presentation covers forces, Newton's three Laws of Motion, momentum, and vectors.