Curated OER
Motion and Forces
Unbalanced forces and the way that they create a movement is explained in this nice succinct collection of slides. There are a number of bullet points on these 5 slides, but the information is logical and easy to understand.
Exploratorium
Balancing Ball
Demonstrate lift to the class that is studying aerodynamics. In the stream of air produced by a blow dryer, little physicists place a wad of tissue paper and a spherical figure to compare. Or, if you have a vacuum cleaner and beach ball,...
Curated OER
Force Diagrams
Seeming incomplete, this slide show introduces physical science novices to the balancing of forces and drawing force diagrams. The first seven slides work well to meet this purpose. The remaining slides, however, turn viewers over to...
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...
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...
Curated OER
Labeling Forces Correctly!
Define six common forces: propulsion, air resistance, water resistance, friction, gravity, and upthrust. A picture of a Smart Car is displayed with arrows showing all of the forces acting on it when it is motion. A picture of a rubber...
LABScI
Harmonic Motion: Pendulum Lab
Several times throughout history, groups of soldiers marching in rhythm across a suspension bridge have caused it to collapse. Scholars experiment with pendulums, resonance, and force to determine why this would happen. First, pupils...
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.
Physics Classroom
Balanced vs. Unbalanced Forces
Scientists use many different kinematic representations of motion. Review each of them with the help of an engaging interactive that is part of a larger series on Newton's laws of motion. The resource provides three levels of challenge...
Curated OER
Circular Motion
Twelfth graders discuss centrifugal force, frictional force, and critical speed as it relates to the popular amusement park ride, the Gravitron.
Curated OER
Newton's Laws of Motion Crossword
In this Newton's Laws of Motion crossword puzzle learning exercise, students use the 13 clues and the terms in the word bank to help them correctly complete the word puzzle.
Virginia Department of Education
The Rate of Motion
How much time does it take to jump over three balloons? Pupils calculate the speed of tasks that require different motions. They determine motions for tasks such as walking, skipping, hopping, and jumping before creating a spreadsheet...
Curated OER
Newton's 3 Laws of Motion
In this Newton's 3 laws of motion learning exercise, students view examples of each law and draw 1 example of each law on their own. Students draw 3 pictures.
Curated OER
Science in Focus: Force and Motion
Learners explore force and motion through a series of experiments. In this physics lesson, students create and interpret speed graphs. They build an electromagnet and explain the factors affecting its strength.
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
Students build parachutes for chicken eggs. In this physics lesson plan, students describe the forces acting on a falling object. They predict which of the three parachute models they made has the best chance of keeping the egg intact...
Curated OER
Physics: Forces and Motion
Students recognize the effect of Earth's gravity on an object's weight. In this force and motion lesson students understand the role of gravity when you drop an object. Students experiment with small items. Students measure in Newton's....
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...
Physics Classroom
Torque-ing About Rotation
Let's talk torque! Science scholars evaluate experimental setups during an interactive from the Rotation and Balance series. Individuals calculate the torque of differently arranged weights to determine the effect they have on a balanced...
Curated OER
Newton's Laws and Forces
In this Newton's laws and forces worksheet, learners answer 11 questions about inertia, vectors, force, and acceleration using Newton's laws. They also answer 3 questions about classification of species.
Curated OER
Forces
For this forces worksheet, students 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...
Curated OER
Newton's Laws of Motion
In this physics worksheet, students examine Newton's Laws of Motion by completing 4 different mini labs and answering follow-up questions for each lab.
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
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.