Curated OER
Weighing and Determining the Average Density of the Earth
Some background information about density and Newton's Laws of gravitation and motion assist pupils in the following experiment. The procedure will help them further their understanding of gravity, pendulums, and a drop-ball experiment....
Institute of Electrical and Electronics Engineers
Blast Off!
With the use of a model rocket kit, aspiring aerospace engineers work cooperatively to construct and launch a rocket. A preparatory reading assignment is included, covering Newton's laws of motion and information about the first...
Curated OER
Rocket to Success
Students investigate action and reaction. In this energy lesson, students use a balloon and string to create a simple rocket. The will collect quantitative data record their observations, and relate their observations to Newton's...
Curated OER
When Earth Fails: How Earth?s Physical Changes Cause Natural Disasters
Students examine natural disasters and some safety measures that should be followed. In this natural disaster activity students write a narrative, and research safety procedures.
Curated OER
The Legendary Raptors
How are raptors and airplanes alike? Combine science and language arts in this fun and interactive project. Young scientists research the animal in order to design their own aircraft, and compete in a contest for farthest, fastest, and...
Curated OER
America's Pastime
Students relate Newton's Laws of Motion to the game of baseball. They compare and contrast the materials used in baseballs that could affect their performance. They also determine how friction can be increased or decreased in a ballpark.
Curated OER
Physics Quiz
In this physics worksheet, students complete short answer questions about physics concepts such as electricity, space, light, and more. Students complete 20 short answer questions.
Curated OER
Newton's Third Law
Young scholars use inquiry and observation to explore Newton's third law of motion: for every action there is a reaction. For this physics lesson, students rotate through six stations set up with materials and picture directions...
Curated OER
Simple Machines
Students engage in a lesson that is concerned with the concept of a simple machine and uses the law of motion to justify why they operate. Students explore the laws by constructing some simple machines to illustrate the concepts.
Curated OER
Introduction to Forces and Inertia
Students 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
Newton's Third Law and Aircraft Propulsion
Students research propulsion, graph data, and interpret the results.
Institute of Electrical and Electronics Engineers
Fun with Speedboats!
After reading about marine engineers and naval architects, it's all hands on deck to design and test a speed boat. This lesson is designed for the Next Generation Science Standards in engineering and can be a centerpiece for a STEM...
Curated OER
Balloon Rocket
Students observe a balloon rocket and how it relates to Newton's Third Law of Motion. In this balloon rocket lesson plan, students make a balloon rocket out of balloons, clothespins, straw, fishing line, and duct tape.
Curated OER
Newton's Theory of Universal Gravitation
High schoolers explore how Newton tied together the gravity observed on Earth and the motion of the Moon. They apply an earlier lesson plan about centripetal forces.
Curated OER
Projectile Motion
Twelfth graders experiment with a projectile that is launched horizontally after a demonstration and small discussion about two pennies, one dropping from a table top and the other being slide off the top and hitting the ground at about...
Curated OER
Kepler's 3rd Law
Learners derive the velocity in a circular orbit of any radius. They derive the Earth escape velocity and prove Kepler's 3rd law for circular orbits # A simple formula for the orbital period in a circular Earth orbit of given radius.
Curated OER
Mathematical Modeling and Physics
Twelfth graders use a web site to investigate roller coaster physics. In this mathematical modeling lesson plan, 12th graders are grouped according to their performance on a test. Each group is given an activity to complete on a web site...
Curated OER
NEWTON'S 3RD LAW
Students examine the formal definition of Newton's 3rd law: "forces always originate in pairs, equal in magnitude and opposite in direction." --The informal, qualitative version: "Each action has an equal and opposite reaction."
Curated OER
Momentum
In this momentum worksheet, students review impulses, angular momentum, and the law of conservation of momentum. This worksheet has 30 fill in the blank statements.
Curated OER
Why Use Seat Belts?
Young scholars explore reasons why using a seat belt is a safe choice while riding in a car. In this physics/safety lesson, students set up and observe a doll with and without a seat belt moving down a ramp in a dynamics cart. Collision...
Bowels Physics
Direct and Inverse Relationships
Viewers learn to recognize direct and inverse relationships in the world of physics with a presentation that reveals how to recognize a direct versus an inverse relationship from a formula or graph. After showing basic examples, the...
Bowels Physics
Impulse and Momentum
Be impulsive with your high school physics class. Emerging physicists review the slide presentation and learn about impulse, momentum, collisions, and how each variable may be affected. They complete practice problems and conclude with a...
CPO Science
Potential and Kinetic Energy
Here's a resource ideal for independent learners who need extra reinforcement or would like to work ahead. These textbook chapters and practice problems cover many basic physics concepts, starting with potential and kinetic energy and...
American Museum of Natural History
Train of Thought
Hop aboard the train of thought. A remote learning resource has learners consider thought experiments to consider scientific theories. It provides two examples, one on orbiting bodies and the other on the speed of light, for them to work...