Curated Video
Torque & Moment of Inertia: Physics Problem with Multiple Forces
Torque & Moment of Inertia: Physics Problem with Multiple Forces
Curated Video
Understanding Friction: Controlling Motion on an Incline
This content explains how to analyze forces on an inclined plane for a loaded box, differentiating between static and kinetic friction. It demonstrates calculations for the minimum force to prevent sliding down, the force to initiate...
Curated Video
Impact of Mass Removal on Rotational Inertia: A Detailed Analysis
This video explains how the removal of mass affects an object's rotational inertia, demonstrating the calculation of percentage decrease in rotational inertia when an innermost or outermost particle is removed.
Curated Video
Analyzing Net Linear Acceleration
This video solves a physics problem about a car accelerating on a circular track, demonstrating how to calculate its net linear acceleration and the angle it makes with the car's velocity.
Curated Video
Arrow Through a Spinning Wheel
This video presents a challenging physics problem about shooting an arrow through a spinning wheel without hitting any spokes, requiring the application of rotational dynamics principles.
Curated Video
Calculating Torque on a Rigid Body: Physics Problem & Solution
This video solves a physics problem that demonstrates how to calculate the net torque acting on a rigid body due to multiple applied forces. It covers the concept of torque, moment arm, and vector summation
Flipping Physics
Solving Fluid Flow with Bernoulli’s Equation
Dive into fluid dynamics with this step-by-step walkthrough of a challenging Bernoulli's equation problem. Learn how to calculate the radius of a pipe using ideal fluid flow, volumetric flow rate, and pressure differences. Whether you're...
Flipping Physics
7 Fun Demos of Bernoulli’s Principle Explained
Discover the magic of Bernoulli’s Principle through 7 engaging and fun demonstrations! Learn how an increase in fluid speed leads to a decrease in pressure and see how this principle is key to airplane flight, suspended ping pong balls,...
Flipping Physics
Energy and Momentum of Rotating Systems: AP Physics 1, Unit 6 Review
Dive into Unit 6 of AP Physics 1: Energy and Momentum of Rotating Systems! This video covers rotational kinetic energy, torque, work, angular momentum, rolling without slipping, and conservation laws. Watch as we connect linear and...
Flipping Physics
Rotational Kinematics: AP Physics 1, Unit 5a Review
In this video, I break down Rotational Kinematics, the first part of Unit 5 for AP Physics 1. From angular displacement to centripetal acceleration, we cover key concepts crucial for mastering rotational motion. You'll learn about key...
Flipping Physics
Calculating Buoyant Force on a Submerged Sphere
Learn how to calculate the buoyant force acting on a steel sphere submerged in water! This demonstration covers the physics behind buoyant force, free body diagrams, and Newton’s Third Law. We'll use measurements and calculations to show...
Flipping Physics
Buoyant Force Demonstration with Steel and Oak Spheres
Discover the fascinating interplay between buoyant force, Newton’s third law, and free body diagrams in this hands-on physics demonstration. We explore how forces interact when a steel or oak sphere displaces water in a beaker on a...
Flipping Physics
Bernoulli's Principle Derivation
Explore the fascinating physics behind Bernoulli’s Principle, which describes how fluid pressure changes with speed and height. In this video, we derive Bernoulli’s Equation step-by-step, breaking it down into simple, understandable...
Flipping Physics
Torque and Rotational Inertia: AP Physics 1, Unit 5b Review
Prepare for the AP Physics 1 Exam with this comprehensive review of the second half Unit 5! In this video, we cover torque, rotational inertia, rotational equilibrium, and the rotational forms of Newton’s laws. Learn key concepts,...
Flipping Physics
Bernoulli's Principle Derivation
Explore the fascinating physics behind Bernoulli’s Principle, which describes how fluid pressure changes with speed and height. In this video, we derive Bernoulli’s Equation step-by-step, breaking it down into simple, understandable...
Flipping Physics
Continuity Equation for Ideal Fluid Flow - Derivation
In this video, we break down the derivation of the continuity equation for ideal fluid flow! Learn how the equation explains why fluid velocity increases as the cross-sectional area of a pipe decreases, such as when you narrow the end of...
Flipping Physics
Buoyant Force Demonstration with Steel and Oak Spheres
Discover the fascinating interplay between buoyant force, Newton’s third law, and free body diagrams in this hands-on physics demonstration. We explore how forces interact when a steel or oak sphere displaces water in a beaker on a...
Flipping Physics
AP Physics 1 - Unit 5a Review: Rotational Kinematics
In this video, I break down Rotational Kinematics, the first part of Unit 5 for AP Physics 1. From angular displacement to centripetal acceleration, we cover key concepts crucial for mastering rotational motion. You'll learn about key...
Flipping Physics
Rotational Kinematics Demonstrated
Curious about rotational kinematics? In this video, we break down key concepts like angular displacement, velocity, and acceleration, using simple demonstrations. Perfect for AP Physics 1 students or anyone looking to understand...
Flipping Physics
Calculating Tension Force on a Submerged Oak Sphere
Discover how buoyant force impacts scale readings in this engaging physics lesson. Using free body diagrams and Newton's laws, we analyze scenarios involving submerged objects, tension forces, and buoyant forces. Watch as we break down...
Flipping Physics
Ideal Fluid Flow
Dive into the fascinating world of fluid flow with this introduction to the four conditions of ideal fluid flow: nonviscous, incompressible, steady, and irrotational. Learn how these principles simplify the complex motions of fluids and...
Flipping Physics
Volume Flow Rate Example
Learn how the speed of an ideal fluid changes when it flows through a pipe with varying cross-sectional areas. In this fun and engaging video, we apply the continuity equation for volumetric flow rate and solve a problem step-by-step....
Flipping Physics
Calculating Buoyant Force on a Submerged Sphere
Learn how to calculate the buoyant force acting on a steel sphere submerged in water! This demonstration covers the physics behind buoyant force, free body diagrams, and Newton’s Third Law. We'll use measurements and calculations to show...
Flipping Physics
Capacitor Series and Parallel Circuits
Good morning! Join us on Flipping Physics as we delve into the world of capacitance. In this episode, we derive essential equations for the equivalent capacitance of capacitors in both series and parallel configurations. Bo guides us...