5.1 Uniform Circular Motion
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- Опубликовано: 28 сен 2024
- This video covers Section 5.1 of Cutnell & Johnson Physics 10e, by David Young and Shane Stadler, published by John Wiley and Sons. The lecture is part of the course General Physics - Life Sciences I and II, taught by Dr. Boyd F. Edwards at Utah State University. This video was produced through the support of the USU Physics Department and the USU Media Productions team.
so can i solve this problem by calculating ω:
(by converting Rev/s to Rad/s (by multiplying Rev/s*2*pi))
then multiply by the radius to get tangent velocity of the wheel in meters/second
How to calculate the velocity of a body when it is moving in an ellipse?
If it's subject to a central force, like gravity, you can use conservation of angular momentum to calculate the velocity.
Nice Sir from India
So sir at that time it should have different velocity at every point
Yes, and unlike uniform circular motion, its speed will vary with time as it moves around the ellipse.
i keep getting 2.5
it's a typo, it should be 2*pi*(0.29)/(0.072) instead of 0.72