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Professor Dave Explains
Practice Problem: The Motorcycle Daredevil
Your buddy Max is always attempting crazy stunts! Remember that time, he dove off the tree into the kiddie pool? Well this time he's going to take his motorcycle over a brick wall. Since you know all about projectile motion, and you know...
Flipping Physics
Introduction to Acceleration with Prius Brake Slamming Example Problem
This is an introduction to the concept of acceleration. There is also an example problem showing applying the brakes while driving a car in order to avoid hitting a basketball. Also included are common mistakes students make while...
Professor Dave Explains
Practice Problem: Launching Things With Springs
You're a mischievous little physicist, aren't you? Well I guess there's no harm in projecting a toy into the air, especially if it's part of your scientific research. Given a spring constant and some other information, how high will this...
Flipping Physics
Work Energy Theorem Example Problem
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
Mechanical Energy example spring compression
This video covers a basic example which involves the work energy equation.
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
Deriving Drag Force Motion Equations
Curated Video
Finding Hang Time of a Football Using Zeros of a Quadratic Function
In this video, students learn how to find the hang time of a football by using the zeros of a quadratic function. The video explains the concept of quadratic functions and their graphs, emphasizing the importance of understanding the...
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...
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?<br/>
Equations Of Motion In One Dimension, Part 3
Equations Of Motion In One Dimension, Part 3
Schooling Online
IB Physics Mechanics: 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...
Curated Video
Calculating Firework Safety: Quadratic Inequalities and Heights
This video explains how to calculate the safe time for a firework to go off in the sky using quadratic inequalities. Use the vertical motion model to analyze the height of the firework at different time intervals. By solving a quadratic...
Professor Dave Explains
The Quantum Harmonic Oscillator Part 1: The Classical Harmonic Oscillator
For our third quantum problem we will visit harmonic oscillators. In a classical setting, this is like the ball on a spring we examined when learning about Hooke's law in the classical physics series. But this has quantum application as...
TMW Media
Equations Of Motion In One Dimension: Solving another problem, Part 2
Given certain parameters, how would solve the second part of this given problem?<br/>
Equations Of Motion In One Dimension, Part 4
Equations Of Motion In One Dimension, Part 4
Flipping Physics
Introductory Uniformly Accelerated Motion Problem – A Braking Bicycle
This video continues what we learned about UAM in our previous lesson. We work through a introductory problem involving a bicycle on which we have applied the brakes.
Curated Video
Introduction to Acceleration and Calculations
The video is a lecture on acceleration and how we quantify the rate of change of an object's velocity. The presenter discusses the concept of acceleration, how it is measured, and the equation used to calculate it. Examples are provided...
Professor Dave Explains
Kinematics Part 4: Practice Problems and Strategy
I've seen it a thousand times. Students understand everything during class, but then when it comes time to try the problems on a test, they draw a blank. You just need a solid strategy, and lots of practice! Take a look at this.
TMW Media
Equations Of Motion In One Dimension: The equations
What are the formulas of predictor equations? What do each equation mean?<br/>
Equations Of Motion In One Dimension, Part 1
Equations Of Motion In One Dimension, Part 1
Schooling Online
IB Physics Mechanics: Acceleration-Time Graphs
Dylan gives Lotus a VIP tour of Lexicorp’s state-of-the-art facilities. On the surface, she’s here to buy stuff, but secretly, she’s investigating the link between Lexicorp and the missile launch! This lesson will apply...
Flipping Physics
Deriving Escape Velocity of Planet Earth
Escape velocity is defined and illustrated. The escape velocity of planet Earth is derived.
Curated Video
Calculate Firework Speed Using Quadratic Equations
This explains how to calculate the time it takes for a firework to reach a specific height using a quadratic equation. It provides a clear explanation of the vertical motion model and demonstrate how to identify and define the variables...
Flipping Physics
Demonstrating the Components of Projectile Motion
Projectile motion is composed of a horizontal and a vertical component. This video shows that via a side-by-side video demonstration and also builds the velocity and acceleration vector diagram.