TMW Media
Projectile Motion: Solving another problem
Given certain parameters, how would you solve this other problem? Projectile Motion, Part 5
FuseSchool
Area Under Velocity Time Graphs
You should already know that velocity-time graphs look like this... and how we can use them to map out a journey. If you’re unsure, you may want to watch this video first...In this video we’re going to look at the area under these graphs...
Science360
Science of the Winter Olympics - Bobsledding
The winter games in Vancouver provide a chance for the United States' four-man bobsled team to win its first gold medal in more than 60 years. And with the help of Paul Doherty, senior scientist at the Exploratorium in San Francisco,...
Flipping Physics
AP Physics C: Simple Harmonic Motion Review (Mechanics)
Calculus based review of Simple Harmonic Motion (SHM). SHM is defined. A horizontal mass-spring system is analyzed and proven to be in SHM and it’s period is derived. The difference between frequency and angular frequency is shown. The...
Virtually Passed
Projectile motion Example problem 1
What is the horizontal distance the cannon ball moves? There are a few ways to approach this problem. I personally strongly recommend applying the fundamental formulas directly rather than get used to the projectile motion formulas -...
Flipping Physics
Graphical Uniformly Accelerated Motion (UAM) Example Problem
Again with the graphs? Yes. Absolutely Yes. Graphs are such an important part of any science, especially physics. The more you work with graphs, the more you will understand them. Here we combine graphs and uniformly accelerated motion....
CTE Skills
IND-PTC - Introduction to Compressors
Compression of gases and vapors in the process industry are necessary in many applications. Compression is used as a means to decrease the volume of a gas or vapor while increasing the amount of pressure. Compressors operate similar to...
TMW Media
Scalers and Vectors: Solving a problem, Part 3
Given certain parameters, how would you solve the second part of this problem? Scalers and Vectors, Part 6
Virtually Passed
Impulse and momentum derivation
With the assistance of an animation, this video shows how to calculate impulse using the change in momentum.
Flipping Physics
The Derivative and a Demonstration of Position, Velocity and Acceleration
Using the derivative, a position equation is used to determine velocity and acceleration. The motion is demonstrated. Motion graphs are shown and illustrated. The maximum position of the cart is determined.
TMW Media
Kinetic Energy And The Work - Energy Theorem: A thought experiment of kinetic energy
How is work and kinetic energy similar? What is the big picture after watching this video?
Kinetic Energy And The Work - Energy Theorem, Part 2
Coach Dan Blewett
Arm Pain Do's and Don'ts for Baseball Players
Pitching injuries are rampant. Arm pain is all too common. But, what should you do if the baseball player in your life has pain? Learn the do's and don'ts in this video.
Schooling Online
Physics Kinematics: Motion in a Straight Line - Graphical Vector Resolution
The roof collapses around Vector Man! How will he escape the ruins of Lexi Luthor’s hideout? This lesson will explain the steps needed to graphically resolve a 2D vector into two perpendicular components. Definitions included: vector...
FuseSchool
Speed, Distance, Time and Acceleration
Speed, Distance, Time and Acceleration Speed and acceleration are Physics concepts that we encounter every day, and an understanding of these concepts is crucial to most areas of Physics. CREDITS Animation & Design: Bing Rijper...
Flipping Physics
Using the R Position Vector to find Velocity and Acceleration
Unit vectors and the derivative are used to determine the velocity and acceleration of an object from the object’s r position vector. The motion is identified as Uniformly Accelerated Motion.
Flipping Physics
Component, Unit, and R Position Vectors
Vector components are reviewed. Unit vectors are introduced and an example is walked through. The “r” position vector is introduced and an example using both “r” position vector and unit vectors is worked through.
Flipping Physics
An introductory Relative Motion Problem with Vector Components
This relative motion problem addresses how to deal with vectors that do not form right triangles.
Flipping Physics
AP Physics 1: Rotational Dynamics Review
Review of the Rotational Dynamics topics covered in the AP Physics 1 curriculum.
TMW Media
Scalers and Vectors: Learn about scalers and vectors
What is the difference between a scaler and a vector? How is a vector represented? Scalers and Vectors, Part 1
Coach Dan Blewett
6 Ways to Increase Pitching Velocity in Baseball
In this video I explain six major factors and all the sub-factors that go into why some pitchers throw with higher velocity than others. If you leave pitching velocity on the table, you'll end up regretting it later. Though there are a...
Catalyst University
Heisenberg's Uncertainty Principle: Example #1
Heisenberg's Uncertainty Principle: Example #1
Virtually Passed
Relative motion (with rotating axes) Summary
The equations for NON rotating reference axes are: Va = Vb + Va/b and a_a = a_b + a_a/b But these equations are only true if the relative axes are not rotating. If the relative frame of reference xy is rotating (eg think of a policeman...
Flipping Physics
Physical Pendulum - Period Derivation and Demonstration using Calculus
Calculus is used to derive the angular frequency and period equations for a physical pendulum. A physical pendulum is also demonstrated and real world calculations are performed. This is an AP Physics C: Mechanics topic.
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