Bozeman Science
Inertial Mass
In this video Paul Andersen explains how inertial mass is defined and measured. When a force is applied to an object or a system it will accelerate. Using Newton's Second Law of Motion (F=ma) you can calculate the inertial mass.
Curated Video
How to Calculate Force - Newton's 2nd Law of Motion
Newton's 2nd Law tells explains how force can affect the acceleration of an object. The more force you apply to an object, the more it will accelerate. Also, the more mass an object has, the more force that is needed to cause the object...
Mazz Media
Scientific Laws
This live-action video program is about the word laws. The program is designed to reinforce and support a student's comprehension and retention of the word laws through use of video footage, photographs, diagrams and colorful, animated...
Curated Video
leyes de la ciencia
This live-action video program is about the word laws. The program is designed to reinforce and support a student's comprehension and retention of the word laws through use of video footage, photographs, diagrams and colorful, animated...
Curated Video
Newton’s Second Law: Spiderman And The Death Of Gwen Stacy
Did you know that Gwen stacy's death and Newton’s second law of motion have a connection? In the comics “The Amazing Spiderman”, Gwen Stacy dies after she is pushed off a bridge. Spiderman jumps behind her to catch her in his webbing,...
Visual Learning Systems
Force and Newton's Laws: Newton's Second Law of Motion
This video discusses the principle of force and the application of Newton's Three Laws of Motion. Students will witness the effect of friction on force and see how force is calculated. Other terminology includes: inertia, weight, mass,...
MinutePhysics
Immovable Object vs Unstoppable Force - Which Wins?
Take Newton's second law of motion to a new level by considering an un-acceleratable object with infinite mass. The idea is mind-blowing, but it is thoroughly explored in this clever video clip! Challenge your high school physicists by...
NASA
Tennis in Space
What does a tennis match look like in a microgravity environment? The installment of the STEM on Station series gives pupils a firsthand look at motion in that special environment. The compelling video shows how astronauts use momentum...
NASA
STEMonstrations: Newton's 2nd Law of Motion
Do the laws of physics apply in space? Astronaut Randy Bresnik explores Newton's second law of motion in one part of the "STEM on Station" series. Then, learners explore the same concepts in the classroom by propelling a car weighted...
National Science Foundation
Blade Runners—Science of the Winter Olympics
Race to learn the insight of Sir Isaac Newton. A helpful video uses speed skating to explain Newton's laws of motion. Force, acceleration, mass, and momentum all work together to make a successful speed skating race.
National Science Foundation
Downhill Science—Science of the Winter Olympics
Newton would have made a first-rate skier! A video lesson analyzes Newton's second law from a skiing perspective. The narrator explains how the force, mass, and acceleration can work together to create a winning run.
Crash Course
Collisions: Crash Course Physics #10
Time for a crash course! The 10th installment in a video series describes the physics behind collisions. With a focus on momentum and energy, the narrator describes both elastic and inelastic collisions.
National Science Foundation
Science of NFL Football: Newton's Second Law of Motion
Newton would have been a great football coach. A 10-part video series examines several physics topics through a football lens. Using Newton's Second Law of Motion, individuals learn how force applies to kicking a football.
Bozeman Science
Newton's Three Laws of Motion
Sir Isaac Newton is the father of physics. Study his three laws of motion during this video. The video instructor explains the first law in terms of inertia, the second law that gives us the formula for force, and the third law of...
DoodleScience
Newton's Second Law of Motion (F=ma)
A Newton is approximately the weight of an apple, so force is measured in apples! Apply Newton's Second Law of Motion to determine the force acting on an object.
University of Florida
Understanding Car Crashes: It's Basic Physics!
Make an impact on young physicists with this fun collection of resources. After first watching a video and taking notes on the physics of car crashes, students go on to complete a series of activities that explore the...
Scholastic
Study Jams! Newton's Second Law: Acceleration
Become a pinball wizard by understanding acceleration. Mia and Sam define acceleration for the audience and touch on the property of inertia. Get your physical science class up to speed by showing this little video, reviewing the...
DoodleScience
Newton's Laws of Motion
Three laws of motion are covered in three minutes in this video. A definition for each law, a formula, and how to apply it are included for each. No time is wasted and nothing extra is covered, making this perfect for a quick...
Bill Nye
Bill Nye The Science Guy on Momentum
Build momentum in your physical science class with this clip. When teaching Newton's second law of motion, you can use it to introduce the role played by mass in momentum. Be aware, however, that about a third of the video is simply made...
Sophia Learning
Sophia: Physics: Newton's Second Law of Motion Tutorial
Created to teach students of the 21st century, SOPHIA is bringing Newton's Second Law of Motion straight to your fingertips. Become the commander of your own learning experiences as you learn from this interactive slideshow. [9:49]
Bozeman Science
Bozeman Science: Inertial Mass
Paul Andersen explains how inertial mass is defined and measured in context of Newton's second law of motion. [4:30]
PBS
Pbs Learning Media: Segway Technology: What's Newton Got to Do With It?
What do the laws of physics have to do with engineering? Find out in this video segment featuring inventor Dean Kamen and his inventions, the IBOT and the Segway. [8:12]
Sophia Learning
Sophia: Using Newton's Second Law
This lesson demonstrates how to use Newton's second law of motion to make useful calculations.
Khan Academy
Khan Academy: Conservation of Angular Momentum
Angular momentum is constant when there is no net torque. View this Khan Academy video addressing the conservation of angular momentum. [10:12]