Flipping Physics
Introductory Static Friction on an Incline Problem
A book is resting on a board. One end of the board is slowly raised. The book starts to slide when the incline angle is 15°. What is the coefficient of static friction between the book and the incline?
TMW Media
Kinetic Energy And The Work - Energy Theorem: Solving another problem
Given certain parameters, how would you solve this problem? Kinetic Energy And The Work - Energy Theorem, Part 5
Flipping Physics
Introductory Kinetic Friction on an Incline Problem
You place a book on a 14° incline and then let go of the book. If the book takes 2.05 seconds to travel 0.78 meters, what is the coefficient of kinetic friction between the book and the incline?
Let's Tute
The Physics of Centripetal Force and Circular Motion
In this video, the sport of Hammer throw is explained and how physics plays a crucial role in achieving a long-distance throw. The concept of centripetal force and how it affects circular motion is discussed with the help of an...
Professor Dave Explains
Kinematics Part 2: Vertical Motion
Alright, we did side to side, now let's go up and down! This is important if you are Wile E. Coyote and you want to drop rocks off of cliffs and know beforehand how long it takes to hit the ground, so you can finally get that pesky...
Schooling Online
Physics Introduction to Statics and Dynamics: Forces and Newton's Laws - Turning Forces
Brooke has planned a surprise! Can you guess where they are going? This lesson will introduce the centripetal force and torque. Definitions included: centripetal force, torque
3D Print General
10 Quick Tips for Better Faster Printing
The first 1000 people to use the link will get a free trial of Skillshare Premium Membership: https://skl.sh/the3dprintgeneral05211 In today's video - I take a look at 10 quick tips to help you to improve your prints. Videos to Help...
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,...
Virtually Passed
Friction simple problem
Will block 1 slide down the hill? What is the inequality that needs to be satisfied?
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...
3D Print General
7 Tips to Improve Surface Quality of Your 3D Prints
In this video I try to give some tips to specifically improve the outer surface quality of your 3D prints.
Flipping Physics
Hooke's Law Introduction - Force of a Spring
Hooke’s law is demonstrated and graphed. Spring constant, displacement from equilibrium position, and restoring force are defined and demonstrated.
Curated Video
Rearranging Formulas to Highlight Relationships
In this video, you will learn how to rearrange formulas to highlight specific relationships by using the properties of equality. The teacher explains how to solve for mass when force and acceleration are known, and also demonstrates how...
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....
Flipping Physics
Physics "Magic Trick" on an Incline
Understand the forces acting on an object on an incline by analyzing the forces on a “floating block”.
Virtually Passed
Dynamics exam example problem
This is one dynamics example problem you could expect to see on your exam. It tests a variety of different topics. i) a_x = 2.21 m/s^2 ii) V_2 = 2.97 m/s downwards (once moved down 2 meters) iii) T_1 = 40.38N and T_2 = 76.01N
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
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.
The Wall Street Journal
Forrester and Sam's Club discuss the Outlook for Digital Enterprises
Companies with plans to automate have brought forward their plans under pressure from the massive changes caused by Covid-19. Sam's Club's Vinod Bidarkoppa and Forrester's Ted Schadler discuss where companies should be focusing their...
Virtually Passed
rectilinear motion example particle decelerating
Here we've been given an equation describing the acceleration of a particle. Using only two formulas we can solve this problem: a = dv/dt and v = dx/dt. The problem is solved by pushing through the mathematics and plugging in boundary...