Calculating Centripetal Force for a Bull in Orbit

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SUMMARY

The discussion centers on calculating the centripetal force required to maintain a bull in orbit when the radius is reduced to one-fourth of its original size. Participants emphasize the use of the centripetal force equation, which states that the force increases with the inverse square of the radius. Specifically, if the radius is four times smaller, the force required to keep the bull in orbit increases by a factor of 16. This conclusion is drawn from the principles outlined in the centripetal force equation.

PREREQUISITES
  • Centripetal force equation
  • Understanding of radius and its impact on force
  • Basic physics concepts related to motion
  • Familiarity with mathematical relationships in physics
NEXT STEPS
  • Study the centripetal force equation in detail
  • Explore the relationship between radius and force in circular motion
  • Review examples of centripetal force calculations
  • Investigate real-world applications of centripetal force in engineering
USEFUL FOR

Students studying physics, educators teaching motion concepts, and anyone interested in the mathematical principles of circular motion.

Bjarne
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http://www.science27.com/forum/coworbit.jpg

How much relative stronger force would it require to keep a bull in orbit when the radius was 4 times shorter.

And how can this are calculated...?

(The bull only wants to move straight ahead , weight and speed is the same)


4 times ?
2 times ?
8 times ?
Or ?
 
Last edited by a moderator:
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Bjarne said:
http://www.science27.com/forum/coworbit.jpg

How much relative stronger force would it require to keep a bull in orbit when the radius was 4 times shorter.

And how can this are calculated...?

(The bull only wants to move straight ahead , weight and speed is the same)


4 times ?
2 times ?
8 times ?
Or ?

You would need to use the centripetal force equation. If the radius was four times smaller, the force needed to keep the bull in orbit would be << answer deleted by berkeman >> times bigger.
 
Last edited by a moderator:
Bjarne said:
http://www.science27.com/forum/coworbit.jpg

How much relative stronger force would it require to keep a bull in orbit when the radius was 4 times shorter.

And how can this are calculated...?

(The bull only wants to move straight ahead , weight and speed is the same)


4 times ?
2 times ?
8 times ?
Or ?

Use the equations for centripetal force. You can read about them here:

http://en.wikipedia.org/wiki/Centripital_force

So based on that wiki page, what do you think the answer is?
 
Last edited by a moderator:
Cryxic said:
You would need to use the centripetal force equation. If the radius was four times smaller, the force needed to keep the bull in orbit would be << answer deleted by berkeman >> times bigger.

(This is a schoolwork-like question. Please do not give the answer. Thanks.)
 

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