Curated OER
Newton's Second Law of Motion with Balance Toys
Students discuss acceleration and deceleration and participate in brief demonstrations of the Second Law of Motion. They apply the law to a metal balance toy and a plastic balance toy by applying the same force then with different forces.
Curated OER
Acceleration 2
For this acceleration worksheet, students experiment with varying amounts of mass to observe the effects on the force needed to move an object. Students apply Newton's Second Law of Motion to describe the relationship between mass and...
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
Newton's Second Law
Three memorable activities build on each other to give physics masters a firm grasp of Newton's Second Law. Pupils play with a lab cart on a flat surface and on an incline to confirm that force is equal to mass times acceleration. In the...
Curated OER
Inertial Mass, Weight, and Newton's Second Law of Motion
The stage is set for you to guide future physicists through three forceful activities about motion. In the first, learners experiment with rolling carts to discover how objects interact. In the second, they inspect images of an object in...
Curated OER
Newton's Second Law
In this Newton's Second Law activity, students answer 13 questions about force, mass and acceleration. They calculate weight, force, masses and acceleration of objects.
Curated OER
Forces
In this forces worksheet, learners read about force and acceleration. They complete a Venn Diagram to compare and contrast balanced and unbalanced forces, they answer questions about a diagram of a tug-a-war and the forces acting on each...
Curated OER
Balloon Rocket Race Track
Students discuss "How can we measure (or make it easier to record) the speed, distance or acceleration of the balloon?" They told that they are going to make a balloon racetrack. Pupils use meter sticks to accurately measure length and...
Curated OER
Forces and Cannons
Students create an Alka-Seltzer cannon in this lesson. They explore the difference between balanced and unbalanced forces, and how unbalanced forces can cause motion. They then examine how a cannon works and create their own.
Curated OER
Forces and Acceleration
Students discover the relationship between force and acceleration in a skateboard experiment. In small groups, they attach a spring balance to a skateboard and pull a group member across the floor using a constant amount of force. They...
Curated OER
Action-Reaction! Rocket
Students construct a rocket from a balloon propelled along a guide string. They use this model to learn about Newton's three laws of motion, examining the effect of different forces on the motion of the rocket. They measure the distance...
Mr. E. Science
Forces
May the mass times acceleration be with you. The presentation covers forces, Newton's three Laws of Motion, momentum, and vectors.
Curated OER
Go Car, Go!
Middle schoolers design and build their own car. In this physics lesson, students collect data to determine the speed of the car. They plot the data on the graph analyze the relationship between variables.
Curated OER
Newton's Laws
Beginning with definitions of mass and foce, this excellent set of slides summarizes Newton's Laws of motion and universal bravitaions. Components of each law are explained along with examples and questions to inspire discussion. This is...
Physics Classroom
Force and Motion
Scholars focus on associating balanced forces with at rest or constant velocity motion and unbalanced forces with acceleration or deceleration. Practice problems with immediate feedback allow for quick success in an installment of the...
Bowels Physics
Newton's First Law
Force acts on objects in mysterious ways ... until now! A comprehensive presentation explains the balance of forces acting on objects. Learners draw free body diagrams to show these invisible forces and make force calculations.
EZ Task
Forces
Investigate force, acceleration, Newtons, and vectors with this worksheet packet that starts with an overview fact sheet for reference. Learners label images as either push or pull forces, indicating if the force causes a change in...
Curated OER
How do forces combine?
For this calculus-based worksheet, students experiment how to add forces in order to get a net force of zero with no acceleration while following the directions of a variety of different scenarios.
Curated OER
Pushy Kids in Physics
Students examine the concepts of balanced forces, unbalanced forces, and resulting net forces. They participate in a force and motion demonstration by pushing students in various directions, and calculating and identifying the resulting...
Curated OER
Seesaws
Students make direct comparisons between objects using balance and spring scales. They also are encouraged to estimate which object is heavier by holding the objects before using the balance scales. Comparing the masses of objects is the...
Curated OER
Rocket Science 101
Learners explore the aspects of Newton's First and Third Laws of Motion as they conduct controlled rocketry experiments and analyze the Mars Mission in terms of the principles of rocketry.
CPO Science
Physics Skill and Practice Worksheets
Stop wasting energy searching for physics resources, this comprehensive collection of worksheets has you covered. Starting with introductions to the scientific method, dimensional analysis, and graphing data, these skills practice...
Curated OER
Newton's Three Laws of Motion Lesson Plan
Students explore Newton's three laws of motion using a variety of activities. In this physics lesson, students calculate the average speed of a vehicle they constructed using distance and time information. They identify and draw the...
Kenan Fellows
Impacting the Risk of Falling: How Do Accelerometers Work?
Young engineers consider how to apply accelerometers and sensors to help prevent falls in elderly people. They consider forces of motion and gravity as part of the engineering design process.