Teach Engineering
Equal and Opposite Thrust in Aircraft: You're a Pushover!
It's the law—every action requires a reaction, no matter how small. Pupils experience two demonstrations of Newton's third law of motion as it relates to thrust in the 10th segment of a 22-part unit on flight. Using their mathematical...
101 Questions
Blob Jump
For every action, there is an equal and opposite reaction. In the case of the blob, that reaction is a trip several feet in the air! Learners begin by watching the world-record blob jump. They then analyze the flight of the person using...
Curated OER
Laws of Motion
Do you need some new ideas for teaching Newton's Laws of Motion? This series of activities will spring your curriculum to life! Choose from five activities to demonstrate or have your science stars perform. As a result, they will have...
Curated OER
Law of Conservation of Momentum
A suggested sequence of events lays out five hands-on activities and four creative assessments on the conservation of momentum. Using spring scales and mail scales, junior physicists examine Newton's Third Law. After you have taught the...
Curated OER
Action and Reaction
Students experiment with Newton's Third Law of Motion. For 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...
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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."
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Rocket Science
Students conduct an experiment. In this physical science lesson, students learn about Isaac Newton's theory that for every action there is an equal but opposite reaction. Students show this theory by looking at how a rocket is propelled...
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Newton in Motion-Project
Students investigate Newton's Third Law of Motion. In this Newton's Third Law of Motion lesson, students explore the law in the real world. Students break down the definition for understanding and do an experiment using a balloon.
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Squid Races
Students imitate squid propulsion using a balloon and experience Newton's third law: for every action there is an equal and opposite reaction. Various anatomical designs are tested and analyzed. They calculate the speed of each squid...
Curated OER
The Building Blocks
This PowerPoint is a comprehensive review of all the facts related to an atom's basic structure and function. What makes this unique is that it is geared toward an audience of junior geologists. After introducing the periodic table of...
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Newton's 3rd Law
Students examine how the formal definition of Newton's 3rd law: forces always originate in pairs, equal in magnitude and opposite in direction. They also examine how the informal, qualitative version: Each action has an equal and...
Curated OER
Brief Encounters (Building Bridges)
Students participate in a simulation that explores how groups of two radically different cultures might interact. They, in groups, represent the different cultures and, after interacting, describe the opposite group's cultural norms and...
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Newton's Third Law
Students describe an everyday situation which demonstrates Newton's Third Law. They state Newton's Third Law;"Every action has an equal and opposite re-action, or every force has an equal and opposite force" in their own words. ...
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Newton's Third Law
Students use inquiry and observation to explore Newton's third law of motion: for every action there is a reaction. In this physics lesson, students rotate through six stations set up with materials and picture directions illustrating an...
National Research Center for Career and Technical Education
Lou-Vee-Air Car
Who said teaching a STEM lesson had to be challenging? Incorporate a career and technology-centered car build into your upcoming force lesson plan, and your class will be moving down the road in no time! Pupils practice...
Curated OER
Rocket Pinwheel
Students explore the action-reaction principle of Newton's Third Law of Motion. In this rocketry instructional activity, students construct a pinwheel using a balloon, soda straw, and wooden pencil. Students investigate the results.
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Newton's Third Law
In this Newton's Third Law worksheet, students complete a table identifying the action force and reaction force of several examples. Students demonstrate a basic understanding of Newton's Third Law by filling in missing blanks and...
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Balloon Rockets
In this balloon rocket worksheet, students experiment with a balloon, clothespin, straw, string and tape to observe Newton's Third Law of Motion in action. Students explain the action force and reaction force acting in the investigation.
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Isaac Newton’s Three Laws of Motion
Explore the laws of motion though a window book activity. Learners use the provided templates to put together a book that includes Isaac Newton's three laws. Behind the window flaps, they can place images, graphic, experiment results,...
Physics LAB
Distinguishing 2nd and 3rd Law Forces
For this laws of forces instructional activity, students are given 27 problems to solve given diagrams showing forces acting upon objects. Students find the forces acting upon the objects, the determine the opposing forces acting upon...
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May the Force Be With You
Students work in groups, they investigate how different forces act upon objects and how this information can be used in their day-to-day lives. They wrap the rubber band around the book. Students place the bo.ok and ruler on top of a...
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Rocket Science 101
Students explore the aspects of Newton's First and Third Laws of Motion as they conduct controlled rocketry experiments and analyze the Mars Mission in terms of the principles of rocketry.
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Rocketry in Motion
Students investigate why a balloon flies in one direction as air escapes in the opposite direction, which helps them understand the nature of rockets and fireworks. Individually and in teams, students conduct research to create a...
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.