Calculating Centripetal Force for a Bull in Orbit

In summary, to keep a bull in orbit with a radius four times smaller, the force required would be << answer deleted by berkeman >> times bigger. This can be calculated using the equations for centripetal force.
  • #1
Bjarne
344
0
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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  • #2
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:
  • #3
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 centripital 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:
  • #4
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.)
 

FAQ: Calculating Centripetal Force for a Bull in Orbit

What is force?

Force is a physical quantity that can change the motion or shape of an object.

How does force affect an object's orbit speed?

The strength and direction of force can affect an object's orbit speed. A stronger force will result in a faster orbit speed, while a weaker force will result in a slower orbit speed.

What is the relationship between force and orbit speed?

The relationship between force and orbit speed is an inverse relationship. This means that as force increases, orbit speed decreases, and vice versa.

Can an object's orbit speed change without the presence of force?

No, an object's orbit speed will remain constant unless there is a force acting upon it. This is due to the law of inertia, which states that an object will remain at rest or in motion at a constant speed unless acted upon by an external force.

How does the mass of an object affect its orbit speed?

The mass of an object does not directly affect its orbit speed. However, a more massive object will require a larger force to maintain its orbit speed compared to a less massive object.

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