Flipping Physics
AP Physics 1: Linear Momentum and Impulse Review
Review of the topics of Linear Momentum and Impulse covered in the AP Physics 1 curriculum.
Schooling Online
Physics Kinematics: Motion in a Straight Line - Speed-Time and Velocity-Time Graphs
Inmates are escaping the city’s jail! While Vector Man rounds up the prisoners, Lotus Lang learns Mark Brent’s closest secret. This lesson will utilise speed-time graphs and velocity-time graphs to represent motion.
Definitions included:...
TMW Media
Velocity and Acceleration In One Dimension: Converting units
We will learn how to convert units by solving a problem. Velocity and Acceleration In One Dimension, Part 3
Looking Glass Universe
The reason for the Heisenberg Uncertainty Principle
This video will focus on why the uncertainty principle happens. Well see that you need surprisingly little to explain it.
Flipping Physics
Reviewing One Dimensional Motion with the Table of Friends
We get to start our Table of Friends today. Dimensions are your friends and there are so many dimensions to keep track of, so we create our Table of Friends to help us keep track of them. Today's friends have to do with One Dimensional...
Flipping Physics
Introduction to Tip-to-Tail Vector Addition, Vectors and Scalars
This is a very basic introduction to Tip-to-Tail Vector Addition using a motorized toy car that I made. Also included is an introduction to Vectors and Scalars, their definitions and some variable examples of Vectors and Scalars.
Coach Dan Blewett
Is Launch Angle Actually Important in Baseball?
Launch angle in baseball is misunderstood. In this video, let's clear up hitting myths about "launch angle swings," which hitters should lift the ball, and who can benefit from getting increased air under the ball.
Flipping Physics
Conservation of Momentum using Unit Vectors
A 66.0 g ball is launched from a stationary Nerd-A-Pult on wheels. The total mass of the Nerd-A-Pult on wheels is 1,791 g. If the ball moves with a velocity of -351 i + 179 j cm/s right after launching, what is the velocity of the...
Flipping Physics
Moment of Inertia Introduction and Rotational Kinetic Energy Derivation
The concept of kinetic energy applied to a stationary, rotating wheel is used to define Moment of Inertia and derive Rotational Kinetic Energy. Moment of Inertia is demonstrated.
Professor Dave Explains
Special Relativity Part 3: Length Contraction
Time dilation was pretty weird, huh? Well we aren't done yet! Time is relative, and so is space! Different observers measure different lengths for objects and journeys. Weird stuff!
Flipping Physics
A Brief Look at the Force of Drag using Numerical Modeling (or The Euler Method)
This is how you include air resistance in projectile motion. It requires the Drag Force and Numerical Modeling (or the Euler Method). It is also very helpful to use a spreadsheet to do the calculations. I prove a statement from a...
Mazz Media
Reviewing Newton's First Law of Motion
This video discusses the important aspects of Newton’s First Law of Motion. Combining live-action examples and animated diagrams, students will learn that the natural motion of an object is to move at a constant speed and in a straight...
Schooling Online
Physics Kinematics: Motion in a Straight Line - Acceleration
With Pilot Mitchell’s help, Lotus Lang continues hunting for clues. Will she strike gold and pick up the lost trail? This lesson will lay the foundations for understanding acceleration and its close relationship with velocity....
Flipping Physics
Effects of Drag Force on Free Fall
The proportionality constant drag force equation is introduced. The acceleration of the ball for its entire path is discussed. Terminal velocity is derived. The time going up vs. time going down is determined and demonstrated. The...
Flipping Physics
Indefinite Integral Introduction and 4 Kinematic (UAM) Equation Derivations
The indefinite integral is defined and used to derive 4 kinematic or uniformly accelerated motion equations. Want Lecture Notes? https://www.flippingphysics.com/kinematic-equation-derivations.html This is an AP Physics C: Mechanics topic.
Flipping Physics
Simple Harmonic Motion - Graphs of Position, Velocity, and Acceleration
Position, velocity, and acceleration as a function of time graphs for an object in simple harmonic motion are shown and demonstrated.
Curated Video
Conservation of Energy and Calculating Energy Changes in Objects
The video is a lecture focused on the principle of the conservation of energy, using the example of a swinging pendulum to demonstrate the conversion between gravitational potential energy and kinetic energy. The lecture also covers the...
Flipping Physics
AP Physics 1: Rotational Kinematics Review
Review of the Rotational Kinematics topics covered in the AP Physics 1 curriculum.
Schooling Online
IB Physics Mechanics: Speed and Velocity
While Mark Brent snoozes through his alarms, Lotus Lang is hot on the missile’s trail. Can she catch the culprits? This lesson will compare and contrast speed and velocity.
Definitions included: speed, velocity.
Equations: average speed,...
Flipping Physics
Introductory Angular Velocity Problem - A Turning Bike Tire
The wheel of a bike rotates exactly 3 times in 12.2 seconds. What is the average angular velocity of the wheel in (a) radians per second and (b) revolutions per minute?
Flipping Physics
Introduction to Velocity and Speed and the differences between the two.
This video introduces the definition of Velocity. It also walks through a simple, introductory average velocity example problem. At the end it defines speed and discusses the difference between speed and velocity.
TMW Media
Equations Of Motion In One Dimension: Solving another problem, Part 1
Given certain parameters, how would solve the first part of this given problem? Equations Of Motion In One Dimension, Part 3
Virtually Passed
relative motion basic example
Relative motion is hard topic to grasp, but it's easier when you follow a certain outline: 1) Draw the velocity vectors 2) Find angles due to geometry 3) Draw all the velocity vectors together using formula Va/b = Va - Vb 4) Use the...