Curated OER
Unit 8-Worksheet 1-Force
In this force worksheet, students draw motion maps given diagrams and construct qualitative force diagrams. They calculate such things as acceleration, upward forces and the magnitude and direction of the forces.
Physics LAB
Work and Energy Practice: Forces at Angles
In this work and energy learning exercise, students answer 9 questions about 6 diagrams showing forces at angles. Students find the work done on the objects, the power supplied by the forces, and they find the angle theta in the diagrams...
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
Introduction to Forces and Inertia
Students explore the basic underlying concepts of Newton's first law of motion. They discuss forces and brainstorm different examples of force and what they act on. Students examine force by observing springs and gravity. They discuss...
PBS
No Slip Grip
The force will be with you during an inquiry-based lesson focused on friction. Young scientists explore the effect of different surfaces on friction. They use rubber bands to measure the amount of force needed to move an object on the...
Curated OER
Identifying Forces
Students identify, describe and indicate direction and relative magnitude of forces. In this motion lesson students work in groups to identify the force that is described to them.
Physics LAB
Free Body Diagrams #2
In this free body diagram worksheet, students solve 14 problems using given free body diagrams. They determine the magnitude and numerical value of the normal force, they find the magnitude of the frictional forces, they determine the...
Curated OER
Vectors
In this vectors worksheet, 10th graders solve and complete 7 various types of problems related to vectors. First, they find the third side and the angle labeled in each right triangle. Then, students resolve each of the vectors into its...
Physics LAB
Net F=ma
In this force activity, students use the equation, F=ma to solve 7 problems where the force changes, the mass changes or the acceleration changes. Students explain their answer for each problem.
Curated OER
NEWTON'S 3RD LAW
Students examine the formal definition of Newton's 3rd law: "forces always originate in pairs, equal in magnitude and opposite in direction." --The informal, qualitative version: "Each action has an equal and opposite reaction."
Curated OER
Particle Models
In this particle model worksheet, students solve and complete 14 various types of problems. First, they find the magnitude of the side or the angle indicated with a question mark for each triangle illustrated. Then, students find the x...
EngageNY
Vectors and Stone Bridges
What does it take to build a stable arch? Pupils apply vectors and physics as they examine arched bridges and their structural integrity. They use vectors to represent the forces acting on the stone sections and make conclusions based on...
National Institute of Open Schooling
Solid State
Crystal comes from a Greek word meaning ice. Activity eight in a series of 36 has class members analyzing amorphous and crystalline solids and further classifying them based on their forces. They then explore solids, learning about unit...
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...
Urbana School District
Projectile and Circular Motion, Torque
Introduce your young scholars to the concepts of circular motion, projectile motion, angular speed, simple harmonic motion, torque, center of mass, centripetal force, and Hooke's Law with a 86-slide presentation. The circular motion...
Curated OER
Review of Work, Energy and Power
For this physics worksheet, students complete 50 multiple choice questions on physics. They determine the magnitude of work, energy and power.
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 worksheet contains nine problems to solve, while the...
Center for Innovation in Mathematics Teaching
Vectors
Investigate vectors and learn how to use them. Explore why size and direction, as well as knowing speed and distance, are important components of the vector problems you are trying to solve. This is an extensive lesson which includes six...
Curated OER
Freestanding Structures: A Tech Museum Floor Activity
Students attempt to design the tallest structure that they can with the given materials which are wooden dowels and rubber bands. They discuss the physics of their structure and how they would improve it the next time they built a...
Curated OER
Motion Commotion!
Young scholars explore the drawings of Rube Goldberg to design and construct a simple machine. They discuss simple machines, and using various materials and toy parts, design and construct a "Rube Goldberg" style machine to ring a bell.
CK-12 Foundation
Free Body Simulation
To show the magnitude and direction of all forces acting upon an object, scientists use a free body diagram. This simulation serves as an introduction to free body diagrams allowing scholars to build their own. Pupils select the proper...
Physics Classroom
Momentum
Interactive emphasizes understanding magnitude of momentum vectors depends upon mass and velocity, while the direction of the vector only relates to the direction of movement. As part of the larger series on momentum and collision, three...
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
Worksheet 9
In this math worksheet, students examine how the moment of a force about a point is defined. They look at the 2 problems to define the information contained in them.