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.
Curated OER
Forces and Motion-The Downhill Racer
Learners calculate a toy car's velocity and acceleration. In this force and motion lesson, students build ramps and attach a dropper to a toy car, which is released down the ramp. Learners calculate and graph velocity and acceleration...
NASA
Newton Car
If a car gets heavier, it goes farther? By running an activity several times, teams experience Newton's Second Law of Motion. The teams vary the amount of weight they catapult off a wooden block car and record the distance the car...
Curated OER
Investigating Newton's Second Law Of Motion
Students participate in a instructional activity that investigates Newton's Second Law of Motion. They conduct an experiment of observing balls that are rolled down a ramp. The instructional activity includes background information for...
Curated OER
Force & Acceleration
Students investigate the effects of weights on the motion of a toy car. In this force and acceleration lesson plan, students use different weights, a toy car, a paper clip and string to determine how a car will move as different weights...
Curated OER
Forces and Motion -- The Downhill Racer
Students examine the movement of a car on an inclined plane and on a flat surface. Using the amount of drops the car releases, they determine if it was traveling at a constant speed or not. They graph the velocity and acceleration rates...
K20 LEARN
Ace in the Hole
How does inertia affect an object's trajectory? After watching a video on safety belt use, pupils discuss the notions of inertia. Using their knowledge, individuals try to drop a ball on a target while running, and classmates observe the...
Curated OER
Forces on an Airplane and Resulting Motion
Young scholars read from a NASA Web-based textbook, then students demonstrate an understanding of the text by answering questions about the forces on an airplane and their resulting motions.
Curated OER
Describing the Motion of a Battery Powered Cars
Middle schoolers explore distance a toy car travels by changing the amount of batteries used to power the toy car. In this force and motion lesson, students calculate the average speed of a car while investigating the power from various...
Curated OER
Motions and Forces
Students explore motions, forces and magnetism. They investigate magnetism as a force and examine the construction of a magnet. Students examine the force that magnetism produces.
Curated OER
Speed
Fifth and sixth graders practice working in pairs to determine whether they can walk with constant speed. They test themselves, collect their data, draw graphs with their data collected, manipulate the data, and then draw conclusions...
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
Laws of Motions
Seventh graders explore the Laws of Motion. They define friction and explain the concept of inertia. Students explain what happens when a force is exerted on an object that is in equilibrium. They state the second and third laws of motion.
Curated OER
Circular Motion
Students investigate circular motion in two different activities. In the first, students observe the path of a rolling marble on a paper plate. In the second, students play a game of catch using a tennis ball inside a plastic bag. ...
Curated OER
Newton's 2nd Law of Motion
Learners investigate how mass affects the speed of an object. In this physics lesson, students record data on the data table and graph results. They analyze findings and formulate a conclusion.
Curated OER
Traveling Bowls
Pupils investigate the relationship between force and motion while conducting an experiment to answer the question,"How do objects move?". In small groups, they predict how many washers are needed to pull a bowl across a finish line.
Curated OER
Newton's Second Law of Motion
Sixth graders study Newton's second law of motion and verify it. In this force and motion lesson students complete a lab activity and collect data, analyze it and graph it.
National Research Center for Career and Technical Education
STEM: Lou-Vee Air Car
A comprehensive lesson on acceleration awaits your physicists and engineers! Two YouTube videos pique their interest, then sample F=ma problems are worked and graphed. The highlight of the lesson is the building of a Lou-Vee air car!...
Curated OER
Extreme Acceleration
Students explore the concept of acceleration. They determine the acceleration rate of a roller-blader and graph the results.
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
Parachutes: What a Drag
Sixth graders make 2 different kinds of parachutes and record and graph the time for each one for the different drag forces. In this parachute lesson plan, 6th graders compare the results to the rest of the class of each parachute and...
Curated OER
Force and Gliders
Students explore physics by creating data graphs in class. For this flight properties lesson, students read the book Flying Machine and identify the force, resistance and construction necessary to keep a glider in the air. Students...
Curated OER
Cruising Aircraft and Balanced Forces
Students, after reading an explanation from a NASA Web-based textbook, demonstrate an understanding of the text by applying it to questions involving cruising aircraft and balanced forces.