Schooling Online
Physics Kinematics: Motion in a Straight Line - Equations of Motion Part 1
Deep underground, Carmen and Alexandra ‘Lexi’ Luthor perform a top-secret science experiment. Will they unlock the power to rival Vector Man? This lesson will perform calculations using the equations of motion for uniform acceleration....
Virtually Passed
curvilinear motion intuition
The development of the n - t coordinate system paved the way for circular motion formulas and polar equations of motion formulas. In a nutshell, t is the direction tangential to your path and n is the direction towards the inside of your...
Curated Video
Deep Learning CNN Convolutional Neural Networks with Python - Convergence Animation
This video explores convergence animation. This clip is from the chapter "Deep Neural Network Overview" of the series "Deep Learning CNN: Convolutional Neural Networks with Python".This section focuses on the overview of the deep neural...
Flipping Physics
Experimentally Graphing the Force of Friction
To help understand the force of friction, mr.p pulls on a wooden block using a force sensor.
msvgo
Acceleration
This nugget explains about the acceleration,average acceleration and its SI units, veloocty-time graph and time-velocity graph.
Curated Video
Data Science and Machine Learning (Theory and Projects) A to Z - Deep Neural Networks and Deep Learning Basics: convergence Animation
In this video, we will cover convergence animation.
Virtually Passed
Relative Motion with rotating reference axes Example (part 2)
To solve for the acceleration of a point A moving relative to an object that is rotating then we can use the relative velocity (for rotating reference frames) equation: Aa = Ab + Arel + Ap/b + 2 w x Vrel
Flipping Physics
Demonstrating the Directions of Tangential Velocity and Acceleration
The best way to understand how tangential velocity and tangential acceleration are related is to visualize from above. Will you look at that! This video does exactly that.
Flipping Physics
Average and Instantaneous Power Example
An 8.53 kg pumpkin is dropped from a height of 8.91 m. What is the power delivered by the force of gravity (a) over the whole displacement of the pumpkin, (b) right after the pumpkin is dropped and (c) right before the pumpkin strikes...
Flipping Physics
(part 1 of 2) An Introductory Projectile Motion Problem with an Initial Horizontal Velocity
Can you drop a ball from a moving vehicle and get it to land in a bucket? You can using Physics! In this video we solve an introductory projectile motion problem involving an initial horizontal velocity and predict how far in front of...
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 Introduction to Statics and Dynamics: Forces and Newton's Laws - Inertia
Although the impromptu surgery was a success, Shannon is taken to the hospital. This lesson will define inertia and apply Newton’s Law of Inertia.
Definitions included: inertia
Misconceptions included: inertia is a force, objects only...
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
Nerd-A-Pult #2 using Unit Vectors
Solving an intermediate projectile motion problem using unit vectors. Also culling information from the quadratic formula.
Virtually Passed
Relative acceleration of rigid links summary
Relative acceleration of rigid links summary
Flipping Physics
2 Masses on a Pulley - Torque Demonstration
0.100 kg and 0.200 kg masses hang from either side of a frictionless #Pulley with a rotational inertia of 0.0137 kg·m^2 and radius of 0.0385 m. (a) What is the #AngularAcceleration of the pulley? (b) What is the #TensionForce in each...
Flipping Physics
An Introductory Tension Force Problem
Learn how to solve a basic tension force problem with demonstration!
Flipping Physics
Dropping Dictionaries Doesn't Defy Gravity, Duh!
Video Proof of the Mass Independence of the Acceleration due to Gravity and a little dancing.
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....
Science360
Water hammer
Using the power of air pressure to blow out the bottom of a bottle. Parts needed: 1 glass bottle, 1 rubber hammer.
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.
Virtually Passed
Rectilinear motion example problem
This video covers a very challenging rectilinear motion problem. Every problem you're going to face (excluding circular motion) will only require you using two formulas; dx/dt = V and dV/dt = a. All other formulas can be derived from...
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.