Bozeman Science
Electric Field of Parallel Plates
In this video Paul Andersen explains how the electric field between oppositely and equally charged plates is uniform as long as you are far from the edge. The strength of the electric field can be determined by either the charge of the...
Flipping Physics
Demonstrating Torricelli’s Theorem with a Rain Barrel
Explore Torricelli’s Theorem in a real-world experiment with a rain barrel! Learn how to derive the equation, calculate fluid speed, and apply it to projectile motion to predict where water will land. This hands-on demonstration brings...
Curated Video
Projectile Motion: Analyzing an Angry Bird's Trajectory
This content provides a detailed analysis of a projectile motion problem, using the scenario of an "angry bird" passing over two posts. It demonstrates how to determine the time of flight to reach a specific height using vertical...
Curated Video
Ball Thrown Towards a Wall: Trajectory Analysis
This content analyzes the projectile motion of a ball thrown towards a wall. It details how to calculate the height at which the ball hits the wall, its horizontal and vertical velocity components at impact, and determines whether the...
Curated Video
Analyzing an Aircraft's Bomb Release Trajectory: Projectile Motion
This content details the analysis of a bomb's projectile motion released from a diving aircraft. It explains how to determine the time the bomb remains in the air and the initial height of release by breaking down the aircraft's initial...
Curated Video
Principle of Conservation of Energy: Solving for Projectile Motion
This video demonstrates the principle of conservation of energy by solving a physics problem that determines the velocity of a ball at two different points during its projectile motion. It illustrates how mechanical energy remains...
Curated Video
Work Done by Spring Force: Launching a Coin Horizontally
This video solves a physics problem calculating the work done by a spring force as it launches a coin horizontally, determining the initial speed of the coin. It's a great example for understanding spring potential energy and its...
Curated Video
Physics Problem: Ball Rolling and Projectile Motion Combined
This content solves a multi-part physics problem involving a solid ball that first rolls smoothly along a horizontal path, then up a ramp onto a plateau, and finally launches horizontally to land at a specific distance. It demonstrates...
Curated Video
Newton's 3 Laws of Motion Explained with Calculations
Finally understand Newton's Laws with clear, step-by-step explanations and simple calculations! This comprehensive guide breaks down all three laws of motion in a way that actually makes sense. You'll learn how to solve force and...
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
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
Projectile Motion - AP Physics 1: Kinematics Review Supplement
In this video, we continue our AP Physics 1 review by diving into kinematics and projectile motion. In this lesson, we walk through several multiple-choice problems related to projectile motion, which are similar to what you can expect...
Flipping Physics
Understanding Motion Graphs: Position, Velocity, and Acceleration in Physics
This section of Kinematics AP Physics review, we focus on motion graphs in physics. We explore how the slope of a position versus time graph represents velocity, while the slope of a velocity versus time graph represents acceleration....
Flipping Physics
Kinematics Review: Key Concepts and Applications
This review of Unit 1: Kinematics for AP Physics 1, we cover essential topics such as significant figures, conversions, vectors and scalars, and key kinematic equations. It emphasizes the importance of understanding vector quantities...
Flipping Physics
Understanding Relative Motion: One-Dimensional Frames of Reference in AP Physics 1
This section, we explain the concept of relative motion, emphasizing that the motion of an object depends on the observer's frame of reference. In AP Physics 1, relative motion is limited to one dimension. A common example involves two...
Flipping Physics
Projectile Motion - Components
Projectile motion components demonstrated: constant velocity in x, free all in y.
Flipping Physics
Projectile Motion Example
Given an initial velocity of 3.25 meters per second at an angle of 61.7 degrees above the horizontal. We can predict how far vertically down a projectile will have gone after it has gone a distance of 0.93 meters. Which will make it land...
Flipping Physics
Drop a Ball from a Moving Car
If you know the speed of the car and height of a ball above a bucket, you can predict how far in front of the bucket to drop the ball so it will land in the bucket. It’s physics!
Flipping Physics
Projectile Motion - AP Physics 1: Kinematics Review Supplement
In this video, we continue our AP Physics 1 review by diving into kinematics and projectile motion. In this lesson, we walk through several multiple-choice problems related to projectile motion, which are similar to what you can expect...
Flipping Physics
Gauss's Law - Charged Plane Electric Field
The electric field of an infinitely large, thin plane of positive charges with uniform surface charge density is determined using Gauss’s law. The electric field is normal to and directed away from the plane and can be found by using a...
Flipping Physics
#26 Mechanics Multiple Choice Solutions - AP Physics C 1998 Released Exam
This problem is a projectile motion problem with an initial horizontal velocity.
Flipping Physics
2019 #3 Free Response Question - AP Physics 1 - Exam Solution
My solutions to Free Response Question #3 from the 2019 AP Physics 1 Exam. Also included are my reflections on how to get perform better on the exam. This Experimental Design Question also works as a part of the AP Physics C: Mechanics...
Flipping Physics
(1 of 2) Mechanics - Review of all Topics - AP Physics C
0:00 Intro 0:38 Vectors vs. Scalars 1:05 The Uniformly Accelerated Motion Equations 2:07 Acceleration 2:42 Velocity 3:03 Derivative and Integral Definitions 4:01 Projectile Motion 4:57 Newton's 2nd Law and Free Body Diagrams 5:41...