Physics
... Acceleration and velocity; the different effects • Note the difference in acceleration: https://www.youtube.com/watch?v=apoeGMWF17c • Another look; different race: https://www.youtube.com/watch?v=7rVTIpS5zb4 • One car can attain a much higher speed • The other car gets to its maximum speed sooner • ...
... Acceleration and velocity; the different effects • Note the difference in acceleration: https://www.youtube.com/watch?v=apoeGMWF17c • Another look; different race: https://www.youtube.com/watch?v=7rVTIpS5zb4 • One car can attain a much higher speed • The other car gets to its maximum speed sooner • ...
Vibrations and Waves
... • Look at the graphs and find: T, f, A, ω, α, vt, ar • At a given time find for the shadow: T, θ, x, v, a • If k = 5 N/m, what is the mass on the spring? ...
... • Look at the graphs and find: T, f, A, ω, α, vt, ar • At a given time find for the shadow: T, θ, x, v, a • If k = 5 N/m, what is the mass on the spring? ...
Power point review
... 1. Apply force perpendicular to lever arm 2. Increase length of lever arm ...
... 1. Apply force perpendicular to lever arm 2. Increase length of lever arm ...
Physics of a Rollercoaster
... in such a manner that speed is constant and unchanging (loop) Colthoid – Much smaller radius at the top than at the bottom • Key factor to prevent cars from approaching at too high of speeds and equalizes force as the coaster moves into the loop ...
... in such a manner that speed is constant and unchanging (loop) Colthoid – Much smaller radius at the top than at the bottom • Key factor to prevent cars from approaching at too high of speeds and equalizes force as the coaster moves into the loop ...
Document
... • What if there are more than one forces acting on the object? • Different forces can be added vectorially • The net force is the vector sum of all the forces acting on the object: ...
... • What if there are more than one forces acting on the object? • Different forces can be added vectorially • The net force is the vector sum of all the forces acting on the object: ...
Microsoft Word - 12.800 Chapter 4 `06
... It is important to note that spatial gradients are the same in both frames so the pressure gradient is unaltered. The viscous terms are proportional to gradients of the rate of strain tensor or the divergence of the velocity , each of which is independent of rotation and so those terms are invariant ...
... It is important to note that spatial gradients are the same in both frames so the pressure gradient is unaltered. The viscous terms are proportional to gradients of the rate of strain tensor or the divergence of the velocity , each of which is independent of rotation and so those terms are invariant ...
