Curated OER
Marbles and Momentum
Students explain the law of conservation of momentum. In this physics lesson, students test this concept by playing marbles. They discuss how mass and velocity affects momentum.
Curated OER
Activity Two Teacher Page: Explosions
High schoolers identify variables that affect the system, and specify which variables are independent and which are dependent.
Curated OER
Running with Momentum
Students discuss the conservation of momentum in a collision between two bumper cars and an explosion between a bullet and the rifle's kickback, as well as collisions occurring in 2 dimensions and how they are all expressed mathematically.
Curated OER
TE Activity: Super Spinners!
Students make spinners to investigate rotational inertia, rotational speed, angular momentum, and velocity. They make two sets of spinners that have different mass distributions and shapes. They complete a worksheet while experimenting...
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Physical Setting: Physics Exam 2004
Twelve pages of mostly multiple-choice questions comprise this comprehensive New York Regents physics exam. It covers an entire year's worth of physics curriculum and requires about three hours for completion. Review the questions to...
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Demonstrate the Law of Conservation of Linear Momentum
Students observe a demonstration of linear momentum. In this linear momentum lesson, students observe a series of demonstrations of linear momentum and qualitative observations.
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Cosmic Ray Momentum
Students describe how cosmic rays achieve high kinetic energy via conservation of momentum.
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Top Quark Lab
Students find the mass of the top quark. In this physics lesson, students create a vector diagram from a given set of data. They discuss their calculations and findings in class.
LABScI
Potential and Kinetic Energy: The Roller Coaster Lab
Ron Toomer, a famous roller coaster designer, suffered from motion sickness. Pupils design their own roller coasters, learning about potential and kinetic energy in the process. Labs focus on the importance of drop height, energy...
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Momentum
Students learn the concepts of momentum and its conservation, using the recoil of a cannon as an example. They examine how momentum is a vector, allowing its conservation to be applied to problems in 2 and 3 dimensions.
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The Spin Doctor Is In
Students are given the difintion of translational motion, which is the object in motion stays in motion. If you are in a car and the car stops, you keep moving. They then discuss rotational motion, which is a spinning object continues to...
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A Mysterious Roll-Back Can
Students explore Newton and his Second Law by observing a demonstration involving a can that rolls away, then rolls back to where it started. They construct their own Come Back Can and describe how the cans work.
Discovery Education
Cushion It!
Sugar cubes, collide! Groups design protection systems using bubble wrap to protect sugar cubes from being destroyed by falling batteries in the STEM instructional activity. They consider how the experiment relates to collisions in...
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Activity Three Teacher Page: Collisions
Students after completing this lesson, identify variables that affect the system, and specify which variables are independent; which are dependent. They represent data in a data table and a graph and analyze data and make predictions.
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Potato Launcher Energy Lab
Students investigate conservation laws using a potato launcher. In this physics lesson, students measure angles, time and distance of the potato. They discuss applications of experiments like this.
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Impulsive Force Model
In this impulsive force worksheet, students calculate speed, force, and velocity for several word problems as it relates to the concepts in physics. Students also apply the momentum conservation equation to each problem.
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Building a Roller Coaster
Students describe the law of conservation of energy. They identify the conversion between potential and kinetic energy. They investigate and describe the application of Newton's Laws of Motion.
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Bouncing Balls
Students work together to examine how different types of balls react to colliding with different surfaces. They discover the difference between elastic and inelastic collisions. They practice calculating momentum as well.
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Skateboard Science
Students investigate how skaters can turn in midair. In this physics lesson, students relate Newton's Laws to skateboarding. They carry out the maneuver with the help of their classmate.
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The Spin Doctor Is In
Students are introduced to rotational inertia with some example of objects that rotates: Throw a Frisbee acroos the field and it rotates as it moves. The same is true for a baseball and a football. The two motions, translational and...
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Ring Around the Rosie
Young scholars work together to discover the concept of angular momentum. They participate in experiments in which they test rotation and relate it to an object's mass. They participate in a literacy activity in which they compare...
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Ultimate Ride Coaster Deluxe
Eighth graders describe the energy transformations as cars travel over a roller coaster. They explain the principle of conservation of energy as it relates to a roller coaster ride. The integration of technology is done using educational...
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Automobile-Accident Reconstruction
Students investigate an accident and relate it to math. In this trigonometry instructional activity, students measure the accident scene, the friction produced, and the speed from the skid marks. They create a poster of their findings.
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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."