Curated OER
Molecular Movement in Water Part 1- Diffusion
Students obseve and compare molecular movement within water at various temperatures and of varying salinity. They discuss the movement of water on a larger scale which can affect the movement and concentrations of microbial populations...
Curated OER
Motion Experiment
Students experiment with the laws of motion. In this motion lesson, students explore Newton's Laws of Motion. Students work in groups experimenting with different objects and observing different types of motion.
Curated OER
Projectile Motion
Young scholars observe projectile motion and calculate the speed of a baseball based on the time and distance traveled. They record the time, measure the distance, and draw the path of the ball's travel on a data table.
Curated OER
Force and Motion
Young scholars experiment with force and motion. In this force and motion lesson, students test gravity using a variety of objects. Young scholars rotate through a series of stations which use force, motion, friction, and inclines....
Curated OER
Linear Motion
In this fantastic physics and math lesson, student pairs create a ramp that will transport a rolling marble in order to learn about linear motion. Students use cardboard, straws, toothpicks, marshmallows, and paper clips in order to make...
Curated OER
Force and Motion Project
In this force and motion worksheet, students create a picture book and answer 7 questions on force and 12 questions on motion. There are 4 extra credit questions.
Curated OER
Parametric Projectile Motion
Learners relate projectile motion to parametric equations as they identify the velocity and angle of a projectile. They create a picture on the navigator to visualize the word problem.
Curated OER
Matter In Motion
In this science worksheet, students find the definitions to basic terms related to beginning the study of physics and then complete the riddles on page 2.
American Chemical Society
Matter on the Move
Start this mini unit on matter out by demonstrating how food coloring behaves when placed in cold and in hot water. Then have the class experiment with warm water and soap film. Pupils will learn that an increase in thermal energy also...
Curated OER
Newton's Laws of Motion
Sixth graders explore Newton's laws of motion with their own bodies. In this relative motion lesson students will use a wide range of materials bringing them from the concrete to the abstract on video. Students will draw inferences about...
Curated OER
Newton's Laws of Motion
In this word search worksheet, students explore words relating to Newton's Laws of Motion. Students find thirteen words relating to Newton's laws of motion.
Discovery Education
Motion in the Ocean
How do temperature changes affect ocean currents? Scholars explore convection currents by demonstrating the flow of water in a baking dish. They use ice, heat, and food coloring to see currents. Then, they draw conclusions about their...
Physics Classroom
Change of State
Free-body diagrams display all forces acting on an object, helping scientists represent Newton's Laws of Motion. Scholars read a short description of motion and view the free-body diagram to begin the installment of a larger series on...
Curated OER
Velocity and Acceleration
Compliment your physics lesson with this PowerPoint which demonstrates many important points regarding acceleration and velocity. A starter experiment activity to stimulate student thinking is given, and may prove very interesting to a...
Curated OER
Unit VIII: Worksheet 1 - Central Force
Disciples of physics practice solving acceleration and centripetal force problems. They construct qualitative motion maps and quantitative force diagrams in addition to using their critical thinking skills. Get your class moving by...
Teach Engineering
Physics Tug of War
Slide books with a little assistance from Newton. Using books, groups create a demonstration of Newton's Second Law of motion. Pupils compare the distance traveled by one and two books when they apply a force to them.
Exploratorium
Whack-a-Stack
Go wild as you hit a stack of wooden blocks to demonstrate Newton's first and second laws of motion. The blocks at the top of the stack stay put as you knock one at a time out of the bottom. Note, however, that you will need to visit a...
Curated OER
Unit IX: Worksheet 3 - Impulsive Force
Eight motion-related problems are contained in this physics assignment. Upcoming physicists calculate combined velocity after collisions, impulse, and momentum. They also address critical thinking situations, making this a well-rounded...
Curated OER
Force and Motion
Each of the slides here gives a definition, equation, or calculation example for a component of force and motion. This large collection covers topics from momentum and Newton's laws to centripetal forces and simple machines. Animations...
Curated OER
Friction
Occasionally, a short PowerPoint is still able to get many important facts about friction and motion across. The consequences of friction on movement and the terms used to describe it such as drag or viscosity are covered. The only...
Kenan Fellows
Using Motion Sensors to Explore Graph Sketching
Get moving to a better understanding of graphs of derivatives. Using motion sensors, scholars vary their velocities to create graphs of the first derivative of a function. The activity challenges groups to first create a script of the...
MENSA Education & Research Foundation
Roller Coaster Mania!
Raise the energy level of your physical science class with this exciting hands-on activity. Applying their knowledge of kinetic and potential energy and Newton's laws of motion, young engineers use foam tubing and marbles to create...
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, and the "centripetal acceleration" of an object.
Curated OER
Periodic Motion - The Pendulum
Students study the concept of periodic motion and relate it to the movement of a pendulum. They discover that the period of a pendulum is dependent on the length of the pendulum and independent of the bob and the amplitude.