NASA
Touchdown
Individuals design and build a set of shock absorbers to protect their astronauts when they land. Using a limited amount of supplies, pupils build a system that will keep two large marshmallows from flying out of a cup when it lands...
Tech Museum of Innovation
Balloon Astronaut
Design protection from high-speed particles. The STEM lesson plan highlights why astronauts need protection from space debris. Pupils use the design process to design, build, and test a spacesuit that will protect a balloon from a...
Las Cumbres Observatory
Down2Earth: Making Impact Craters
Is the sky falling? Learners use a simulator to modify the mass and velocity of asteroids and collect data on how they influence the diameter and depth of the impact crater. They use their results to draw conclusions and make predictions...
Curated OER
Typical Numeric Questions for Physics I - Momentum
Simple momentum computations and more complex collision computations can be found on these two worksheets. All of them can be answered by choosing from five possibilities. The first learning exercise contains nine problems to solve,...
CK-12 Foundation
Bobsled
Bobsled riders' safety depends on skill ... and physics! Learners use a simulation to understand the physics behind the sport. They manipulate the speed, mass, and/or turn radius of the sled and watch the effects on the centripetal...
CK-12 Foundation
Satellites, Shuttles, and Space Stations: Satellites in Orbit
Blast off! How do satellites, space shuttles, and space stations escape Earth's gravity and achieve orbit? Young astronauts study rocket science (literally) with an interactive lesson. They discover the four main uses for satellites, how...
Curated OER
Rockets!!
Learners launch a rocket. In this laws of motion lesson, students discuss the forces of flight, how a plane flies and how a rocket gets off the ground. Learners watch a video about rocket launches, discuss Newton's Third Law...
Curated OER
Payload Rocket
Students continue their examination of how to make a human presence in space. Using Newton's Laws of Motion, they discover the difference a rocket's payload affects the launch of a rocket. They develop a balloon rocket and test its...
Curated OER
Lab for Truss Design and Testing
Students design and build their own truss. In this physics lesson, students calculate the forces and maximum load. They complete a full scale diagram of their design.
LABScI
Kinematics: The Gravity Lab
Falling objects can be brutal if you don't protect your noodle! Scholars explore the motion of falling objects through measuring short intervals to determine if the distance traveled varies with time. Building off of this, scholars...
Curated OER
Vectors
Students are introduced to the bridge building challenge. They perform two labs and work in small groups to finish the vector worksheet. Students review vector additions. They then move onto the Forces on an Inclined Plane Lab. ...
Curated OER
Activity One Teacher Page: Vehicles In Motion
Students identify variables that affect the system, and specify which variables are independent and which are dependent.
Curated OER
Rectilinear Motion
Twelfth graders rewrite word problems using algebraic expressions. In this calculus instructional activity, 12th graders calculate the velocity, time and acceleration while analyzing real life scenarios. They solve problems related to...
Curated OER
Kites: Patang - The Indian Fighter Kite
Students investigate the history of fighter kites and build their own. In this aeronautics lesson, students discover how other countries utilize fighter kites and where they originated. Students create their own fighter kites...
Curated OER
Electricity and Magnets
In this physics review worksheet, students compare average and instantaneous speed, review Newton's laws, electricity, and magnets. This worksheet has 12 fill in the blank, 8 short answer questions, and 6 problems to solve.
LABScI
Projectiles: Target Practice
Angry Birds prepared them, but now pupils must prove their skills with projectiles! Scholars test different variables to determine which ones impact the distance the projectile flies. The experiment provides connections to kinetic and...
Curated OER
Slam On the Brakes!
Fifth graders study the concept of momentum and its application by Newton in his studies. They view a demonstration and complete an experiment with toy cars on a racetrack that shows them the properties of momentum and how velocity and...
Curated OER
The Circle of Learning
Students review Newton's Third Law of Motion and participate in an experiment. After the experiment, they use their notes to write a scientific summary of what happened during the project. They present their project to the class and...
Curated OER
Vectors
Students describe motion by the use of adding vectors. They identify the difference between the x and y components of vector quantities. Students are given the Paper Bridge Building handout and the instructions as to where to perform...
Curated OER
Bobsled Challange
Students investigate the effects of materials on the friction between a "bobsled" and the track. They explore the effects of weight on the motion of the bobsled. Students design a bobsled for either fast or slow movement. They discuss...
Curated OER
Marble Run
Students use marbles to conduct experiments on movement of objects and explore Newton's three laws of motion. In this motion lesson plan, students use marbles, tubing, foam, paper cups, and more.
Curated OER
Rocket Me into Space
Fourth graders study the concept of thrust and how it propels rockets into space. They discover why airplanes cannot travel into space while considering the engineering techniques use in designing rockets. They look at how space...
Curated OER
Newton's 2nd Law
Fourth graders discuss Newton's Second Law of Motion, and the acceleration of fast and slow moving objects. They experiment with items with different masses to determine the effect mass has on acceleration using a toy car. They complete...
Curated OER
Motion in a Circle
Students explore uniform circular motion, and the relation of its frequency of N revolutions/sec with the peripheral velocity v and with the rotation period T. They examine how uniform circular motion is a type of accelerated motion.
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