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Physics for Middle and High-School Students
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Recommended Videos that would help generate learning outcomes in Physics. Some videos are real-life case studies while the others relate to concepts and practical examples of ways to deploy effectively the principles of Physics in motion for middle and high-schools students.
- Introduction to basic physics of motion. Introduces the concept of variable velocity/acceleration
- More on how velocity, distance, acceleration and time relate to each other.
- Using the basic equations of distance and velocity to solve motion problems
- Projectile : Using the equations of motion to figure out things about falling objects
- Projectile : A derivation of a new motion equation
- Projectile : An example of solving for the final velocity when you know the change in distance, time, initial velocity, and acceleration
- Projectile : Solving for time when you are given the change in distance, acceleration, and initial velocity
- Projectile : How fast was the ball that you threw upwards?
- Projectile : More on the ball throwing game
- Projectile : How high did the ball go?
- Projectile : A little leftover from part 7
- Projectile : Another example of projectile motion.
- Projectile : Some more examples with projectile motion
- 2 dimensional 1 : Using vectors to solve 2 dimensional projectile motion problems
- 2 dimensional 2 : More on 2 dimensional projectile motion
- 2 dimensional 3 : Completing our first example from parts 1 and 2
- 2 dimensional 4 : Another example of a 2-dimensional projectile motion problem
- 2 dimensional 5 : The second part of the last projectile motion problem
- Optimal angle for a projectile part 1
- Optimal angle for a projectile part 2 - Hangtime
- Optimal angle for a projectile part 3 Horizontal distance as a function of angle (and speed)
- Optimal angle for a projectile part 4 Optimal angle for a projectile part 4 Finding the optimal angle and distance with a bit of calculus
- Introduction to newton's first law of motion. Inertial frames of reference
- An introduction to Newton's Second Law of Motion. F=ma
- Intuition behind Newton's Third Law of Motion
- Examples of exercises using Newton's laws.
- A couple of more examples involving Newton's Laws
- A problem involving a braking train
- Another example of using our trigonometry skills to break up a force vector into its x (horizontal) and y (vertical) components
- An introduction to tension. Solving for the tension(s) in a set of wires when a weight is hanging from them
- A slightly more difficult tension problem
- Finding the normal and parallel components of the gravitational force vector to determine the acceleration of a block down a frictionless inclined plane. See next...
- Correction of definition of "normal force" and an introduction to the coefficient of friction.
- Calculating the acceleration of on object sliding down an inclined plane with friction.
- Fun with two masses, some wire, a pulley, and a ramp with friction
- The second part to the complicated problem. We figure out the tension in the wire connecting the two masses. Then we figure our how much...
- What happens when we pull on a pulley and the pulley is pulling on other things?
- Second part of what happens when we pull on a pulley.
- What momentum is. A simple problem involving momentum
- A simple conservation of momentum problem involving an ice skater and a ball
- An example of conservation of momentum in two dimensions
- We finish the 2-dimensional momentum problem
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