Curated OER
Newton's Second Law of Motion with Balance Toys
Students discuss acceleration and deceleration and participate in brief demonstrations of the Second Law of Motion. They apply the law to a metal balance toy and a plastic balance toy by applying the same force then with different forces.
Curated OER
Speedy Spaghetti
Students explore the principles of motion by constructing a car out of pasta that will carry a large marshmallow and travel down a ramp. They discuss the formula for calculating speed, design and build their cars, and calculate their...
Curated OER
Move It!!!
Students explore motion by observing the movement of people and duplicating those movements. They compare and contrast various kinds of movements and identify different types of movements in pictures. They build an object that can be...
Kenan Fellows
Impacting the Risk of Falling: How Do Accelerometers Work?
Young engineers consider how to apply accelerometers and sensors to help prevent falls in elderly people. They consider forces of motion and gravity as part of the engineering design process.
Curated OER
Wind Effects on Model Building: Pre-Lab for Truss Design and Testing
Emerging engineers perform pre-lab calculations in this first of a three-part lesson plan on model building. They determine the forces of tension and compression in a truss. After completion of the worksheet, pupils will draw a draft of...
Curated OER
Isaac Newton's Third Law of Motion
Ninth graders experiment with Isaac Newton's Third Law of Motion. In this Third Law of Motion lesson, 9th graders develop an experiment that shows their understanding of this theorem. They work in small groups to read an article at a...
Curated OER
Motion Concentration Game
Young scholars play a memory game that asks them to correctly match a vocabulary word about motion or force with a picture.
Teach Engineering
Projectile Magic
What do the movies October Key and Harry Potter and the Sorcerer's Stone have in common? The fourth installment of a five-part module presents equations regarding projectile motion and how to rearrange them. Scholars view video clips...
Virginia Department of Education
Work and Power
Assist your class with correctly calculating the values for force, work, and power as they determine the amount various activities require. They gather data and participate in a group discussion to compare results upon conclusion of the...
Curated OER
Balloon-Powered Car
Attractive and logical instructions are provided for constructing a balloon-powered car. Young physical scientists measure the distance their car travels and record it on a pre-printed data sheet. The make alterations to improve the...
Curated OER
Seeing Mathematics in the Forces of Nature
Students study waves and their characteristics. In this wave activity students calculate the speed of waves, wavelength and the period.
Curated OER
Matter in Motion
Second graders examine matter, what it is and what the different states are. In this matter lesson students view The Magic School Bus Meets Molly Cule and answer questions.
Curated OER
"Measurement in Motion"
Ninth graders examine the rate of motion and changes in motion using a ramp and a rolling object. They conduct the demonstration, determine the average speed, and describe how a moving object can have zero acceleration and deceleration.
Curated OER
May The Force Be With You
Eighth graders investigate Newton's Laws of Motion. They use the example of a roller coaster for illustration purposes. A force associated with a roller coaster is tested, data graphed, and a conclusion is drawn. They use excel in order...
Curated OER
What Does Motion Have to do with Sound?
Second graders investigate and explore sound energy. They investigate how the vibrational motion moves through matter in waves. Students describe sounds and vibrations. They observe that vibrational motion creates sounds. Students record...
Curated OER
Simple Harmonic Motion
Students 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
Forces and Newton's Laws Unit
Students 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
Forces and Acceleration Unit
Students investigate that an unbalanced force, acting on an object, changes it speed or path of motion or both, and know that if the force always acts toward the same center as the object moves, the objects path may curve into an orbit...
Curated OER
Buoyant Force
Students investigate the scientific concept of why some objects float when put in a liquid solution. They apply the laws of motion and force while conducting classroom activities. Students also take notes and answer target questions to...
Curated OER
Crash Test Dummies
Fifth graders are introduced to Newton's First Law of Motion. In groups, they describe the differences between balanced and unbalanced forces. They participate in experiments that demonstrate how equal and opposite forces act upon...
Curated OER
Angular Momentum (Automaticity)
Second graders experience practicing with a wide variety of vocabulary terms that relate to the Vista/Module "Angular Momentum:" momentum, inertia, force; motion, direction, centripetal force; angular momentum, gyroscope, resist. They...
Curated OER
Physics and Me
Sixth graders compare and contrast mass and weight. In this physics lesson plan, 6th graders calculate speed given distance and time information. They construct a rocket and relate this to Newton's 3rd Law of motion.
Curated OER
Acceleration, Drag, Gravity, Motion, Forces, and Friction
Eighth graders build and run mousetrap cars in order to measure distance, time, and mass for their cars. They use these measurements to calculate average speed and kinetic energy, then create a slide show to visually explain how the car...
Curated OER
Newton's Second Law
Three memorable activities build on each other to give physics masters a firm grasp of Newton's Second Law. Pupils play with a lab cart on a flat surface and on an incline to confirm that force is equal to mass times acceleration. In the...