Gravity and Rotation: Understanding the Influence of Speed on Planetary Force

  • Thread starter mitch bass
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In summary, the speed of rotation of a planet does have a slight effect on the force of gravity it exerts, due to the centrifugal force slightly offsetting the gravitational force. However, the actual gravitational force depends only on mass and distance from the center of the planet. On a space station, the simulated gravity is created through rotation, but it is not the same as actual gravity. The rotational momentum of a planet does add some mass, but the effect is negligible.
  • #1
mitch bass
When determining the force of gravity that a planet exerts, is the speed of rotation a factor? If so is this because of centrifugal force? Yet is it not so that on a space station that creates centrifugal force, the attraction created is considered artificial gravity?
 
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  • #2
Yes, it has an effect, but the effect is very small (I can't remember offhand how small exacly). And yes, it works the same way as on a space station (except of course you are inside, not outside).
 
  • #3
No, the gravitational force does NOT depend in any way upon the rotation of a planet.

It is true that when you stand on a scale the reading is slightly LESS than the actual force of gravity: the "centrifugal force" directed away from the center of the planet offsets the gravitational force very slightly. However, it is still true that the actual gravitational force depends only on mass and distance from the center of the planet.
 
  • #4
Good clarification. I missed that one.
 
  • #5
Originally posted by mitch bass
Yet is it not so that on a space station that creates centrifugal force, the attraction created is considered artificial gravity?

I wouldn't call it artificial gravity but simulated[i/] gravity. Locally, it behaves like a lot like gravity, but has a different origin.
 
  • #6
Originally posted by HallsofIvy
the "centrifugal force"
Sounds vaguely familiar. What causes it?
 
  • #7
Originally posted by HallsofIvy
No, the gravitational force does NOT depend in any way upon the rotation of a planet.

It is true that when you stand on a scale the reading is slightly LESS than the actual force of gravity: the "centrifugal force" directed away from the center of the planet offsets the gravitational force very slightly. However, it is still true that the actual gravitational force depends only on mass and distance from the center of the planet.
Although perception of gravity on surface is one thing, I got a question from this angle:
mass is a form of energy, thus density of energy causes gravity. But rotational momentum of planet also stores some kind of energy. Does that rotational momentum add to gravity or not?
 
  • #8
Well, yes, in that sense, increased energy add a little mass: have you calculated the mass added by the rotation of a planet?

It is, of course, m= E/c2. I think you find that negligible.

By the way, when you talk about a space station using rotation as an "artificial gravity" you are aware that people walk around on the INSIDE of the station with their heads toward the center? You make it sound as if you thought they would be walking around on the outside as on the earth.

Also, you cannot use centriugal force to create a uniform force on a sphere- you have to have a cylinder so every one is the same distance from the AXIS of rotation.
 

1. What is gravity?

Gravity is a natural phenomenon by which all objects with mass are brought towards each other. It is the force that keeps us grounded on Earth and governs the structure and movement of celestial bodies in the universe.

2. How does gravity affect the rotation of planets?

Gravity plays a key role in the rotation of planets. The gravitational pull of the sun and other celestial bodies causes planets to orbit around them, creating a rotational force. The speed of this rotation is influenced by the mass and distance of the planet from the sun.

3. How does the speed of a planet affect its gravitational force?

The speed of a planet has a direct impact on its gravitational force. The greater the speed, the stronger the gravitational pull of the planet. This is because faster-moving objects have more kinetic energy, which translates into a greater gravitational force.

4. Can a planet's rotation affect its gravity?

Yes, a planet's rotation can influence its gravitational force. The rotation of a planet affects its shape and distribution of mass, which in turn can affect its gravitational pull. For example, a planet with a faster rotation may have a slightly flattened shape, resulting in a stronger gravitational pull at the poles.

5. How does the concept of centrifugal force relate to gravity and rotation?

Centrifugal force is a pseudo-force that appears to act outward on a rotating object. In the context of gravity and rotation, this force is often used to explain the tendency of objects to move away from the center of rotation. However, in reality, this apparent force is a result of the object's inertia, and it does not have any actual influence on the gravitational force of the planet.

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