Curated OER
On The Go! Forces and Motion
Students create a car using physics. In this forces and motion lesson, students create a car and test which changes in design change the performance of the car. Students complete a graphic organizer with the different changes they see.
Curated OER
Science in Focus: Force and Motion
Students explore force and motion through a series of experiments. In this physics lesson plan, students create and interpret speed graphs. They build an electromagnet and explain the factors affecting its strength.
Alabama Learning Exchange
Straight Line Motion
Students examine gravity, mass, and friction. In this speed and motion instructional activity, students investigate how straight line motion is impacted by gravity, mass, and fiction as they participate in a hands-on activity.
Teach Engineering
May the Force Be With You: Drag
Do not let friction drag you down! The 11th segment in a series of 22 focuses on the fourth force acting upon an airplane—drag. Pupils learn about the effects and causes of drag.
Curated OER
2D Motion
Students examine the motion of objects in two dimensions. In this dimensional lesson students view several demonstrations, complete a worksheet and a lab activity.
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.
Kenan Fellows
The Newton Challenge
Make Newton proud. Scholars apply their understanding of forces and energy to an engineering design challenge. They learn about simple machines, create a presentation on Newton's laws, and develop a balloon-powered car.
Curated OER
Rockets Away with Newton's Laws of Motion
Eighth graders comprehend Newton's Laws of Motion and to use the scientific method in rocketry sub-unit. They work through the scientific method. Students illustrate how science and Newton's Laws can be used in everyday situations and...
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
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 lesson students calculate the speed of waves, wavelength and the period.
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
Simple Harmonic Motion
Students study harmonic motion and its oscillation. In this simple harmonic motion lesson 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
Physics and Me
Sixth graders compare and contrast mass and weight. In this physics instructional activity, 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
Race the Track! The Time Challenge (lesson 2)
Students design a track that keeps a ball in motion for 5 seconds or longer. In this designing lesson plan, students explore force, gravity, and cause and effect when it comes to science and building before building their own track.
Curated OER
Helium Balloon Race
Students determine the force of a helium balloon that allows it to rise a specific distance. In this helium lesson plan students calculate the amount of paper needed to construct a weight and determine the density of a piece of paper.
Curated OER
Friction Restriction: Creating a Design Plan to Redesign the Tread of Tennis Sneakers to Increase Friction
Students evaluate the friction of tennis sneakers and redesign them to increase friction. In this physics lesson, students calculate starting, sideways and forward stopping friction. Using quantitative data, they prove that redesigning...
Curated OER
Let's Get Moving
Young scholars participate in sports activities that relate to motion, velocity and momentum. They produce a PowerPoint presentation after researching the activities.
Curated OER
Crash! Bang!
Students study the physical force of linear momentum by investigating collisions. They analyze the difference between elastic and inelastic collisions. They calculate linear momentum.
Kenan Fellows
Analyzing Speed from Different Modalities
Show us your moves. Using sensor equipment, scholars track the motion of different movements, such as jogging, skipping, or jump roping. They analyze velocity and acceleration and create graphs representing each movement.
Teach Engineering
Just Plane Simple
It is plane to see that simple machines help reduce the force needed to perform a task. This resource introduces three of the simple machines--the inclined plane, the wedge, and the screw, and the formulas in order to be able to...