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
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.
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
Forces
In 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 each...
Curated OER
Forces and Cannons
Students create an Alka-Seltzer cannon in this activity. 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
Crash Test Dummies
Fifth graders are introduced to Newton's First Law of Motion. In groups, they describe the differences between balanced and unbalanced forces. They participate in experiments that demonstrate how equal and opposite forces act upon...
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
Physics: Forces and Motion
Students recognize the effect of Earth's gravity on an object's weight. In this force and motion instructional activity students understand the role of gravity when you drop an object. Students experiment with small items. Students...
Curated OER
Newton's Laws and Forces
In this Newton's laws and forces worksheet, students answer 11 questions about inertia, vectors, force, and acceleration using Newton's laws. They also answer 3 questions about classification of species.
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
Forces and Energy Study Guide
Sixth graders use prior knowledge to create a tri-fold study guide using Microsoft Publisher (if available). They include real world examples that show balanced and unbalanced forces, kinetic and potential energy, and vocabulary. 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.
Physics Classroom
Getting a Handle on Torque
Do your young physicists get a little unbalanced when it comes to talking about torque? Scholars examine the effects of weight and distance on a balanced system with a simple interactive from the Rotation and Balance series. The resource...
Curated OER
Energy and Change: The Five Basic Laws
Five basic law of physics and energy are listed here, with a simple explanation of what each actually means in the real world! Your young physicists will appreciate the concepts being made more relevant and the language being made more...
Curated OER
Toying Around with Newton's Laws
Eighth graders identify balanced and unbalanced forces that affect the movement of objects and Newton's three Laws of Motion. Students also design a contraption utilizing Newton's Laws of Motion that will launch a marshmallow five meters.
Curated OER
Thunderbirds: Forces
Students investigate the concepts of thrust and how rockets are launched into the air. They watch a clip of the television show Thunderbirds, and draw a basic diagram of the Thunderbird ships, labeling it with arrows to identify the...
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...
Purdue University
The Represented World: Recreational STEM
How are forces and motion important to a swing set? Scholars explore the concepts of force and motion using swing sets. In preparation for their own STEM design project, individuals take surveys and data from peers, complete labs on...
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
Simple Machines
In this simple machines worksheet, students identify the 6 simple machines. They answer 21 questions about the types of simple machines, the output force of simple machines, the input force and the work involved in using a simple machine.
Curated OER
Newton's Laws
Eighth graders distinguish between and apply Newton's Laws. They take a quiz reviewing Kinetic and Potential Energy. Students explain that they have just demonstrated Newton's three laws of motion. They also explain what forces are...
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.
It's About Time
Push or Pull - Adding Vectors
Demonstrate Newton's Second Law of Motion with an engaging lesson. Individuals explore the difference between forces in relation to a push or a pull, and they identify various forces that cause an object to move. They explore the concept...
Curated OER
Walking on Water
Students use this problem to help them to relate to force vectors: Suspend a meterstick horizontally between two tables. Place a 1kg mass in the middle of the meterstick. Notice the bend of the meterstick. Explain why the meterstick...