What is the relationship between Earth's rotation and its mass?

In summary, the conversation on the UserFriendly forums discusses the effect of weight loss on the rotation of the Earth. While one person argues that the Earth is a closed system and therefore weight loss should not affect its rotation, another argues that the Earth receives sunlight and radiates heat, leading to a change in mass. The conversation also brings up the idea of mass distribution and how it can impact the Earth's rotation. Ultimately, the consensus is that the Earth is not a closed system and weight loss can indeed affect its rotation due to changes in mass and mass distribution.
  • #1
kernelpenguin
46
0
On the UserFriendly forums I saw a message a few days ago from two people that had lost some weight. It went something like: "If you've noticed that the Earth is spinning faster, it's because X and Y have lost N pounds!"

Okay, logically, an object should start spinning faster if it sheds some mass, but does it, in this case, shed any mass at all?

I got into a debate about this with my friend.

My point of view is that the Earth is a closed system when it comes to particles with mass. Even if they did lose N pounds, that still hasn't left Earth or its atmosphere, so Earth should be spinning at exactly the same speed.

His point of view was that Earth is not a closed system since it gets sunlight and sheds heat radiation. But these shouldn't affect mass, should they? Then he went on saying that some of it is deposited in the atmosphere and thus doesn't contribute to Earth's rotation.

It's a fun little problem, methinks. Anyone care to cast their opinions? :)
 
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  • #2
Don't forget to think in terms of mass distribution too, not just total mass! Is the rotation of the Earth the same once someone has sweated off 1 pound? Or has eaten a carrot that was underground?
 
  • #3
This is like the stereotypical ice sk8er problem, but instead of arms and legs moving in toward the center, is it not(X and Y)
 
  • #4
In a closed system, it is not the spin that is conserved, but the angular momentum. Therefore, if mass is re-distributed to be closer to the axis, the spin rate will increase. Like a skater pulling his arms in.
 
  • #5
Earth is not a closed system, and does indeed receive sunlight and radiate heat. This will have an effect on the overall mass of the planet because the lost weight was lost as calories burned by biological activity. This mass was converted to heat, which can leave the Earth and its atmosphere.
 
  • #6
Earth also radiates just because of its temperature, as anybody does. It doesn't require biology to do that. Indeed the Earth can be seen as a system in near thermal equilibrium, losing as much heat by radiation as it gains from insolation. If the greenhouse effect prevents heat from being radiated, it will reach equilibrium at a higher temperature, as has happened to Venus.
 

1. How does Earth's rotation affect its mass?

Earth's rotation does not directly affect its mass. The rotation of the Earth is caused by its mass and the laws of physics, but it does not change the amount of mass that the Earth has.

2. What is the impact of Earth's rotation on its shape?

The Earth's rotation causes it to bulge slightly at the equator and flatten at the poles. This is due to the centrifugal force created by the rotation, which is strongest at the equator and causes the Earth to bulge outwards.

3. How fast does the Earth rotate?

The Earth rotates at a speed of approximately 1670 kilometers per hour at the equator. This speed decreases as you move closer to the poles.

4. Can the Earth's rotation change over time?

Yes, the Earth's rotation is constantly changing, but these changes are very small and not noticeable to humans. Factors such as the distribution of mass on the Earth's surface and interactions with other celestial bodies can cause slight variations in the Earth's rotation.

5. How does the Earth's rotation impact the length of a day?

The Earth's rotation determines the length of a day, which is approximately 24 hours. As the Earth rotates, different parts of the planet are exposed to the sun, creating day and night. The Earth's rotation also causes the length of a day to gradually increase over time due to tidal forces from the moon.

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