Mass, Velocity and Special Relativity

In summary, the Earth's mass would not decrease if it were removed from its orbit around the Sun and slowed down in its rotation with the Milky Way. However, observers in a different reference frame may measure its mass differently due to relative velocity. This change in mass is arbitrary and has no effect on the Earth itself.
  • #1
Irishwake
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Is mass an ultimate product of velocity? If we were somehow able to take the Earth out of it's orbit about the Sun and then somehow slow it such that it was no longer rotating with the rest of the Milky Way would its mass decrease?

There are a million factors here but universal expansion aside, and assuming this were possible does the "math" say this would in fact happen?
 
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  • #2
Irishwake said:
Is mass an ultimate product of velocity? If we were somehow able to take the Earth out of it's orbit about the Sun and then somehow slow it such that it was no longer rotating with the rest of the Milky Way would its mass decrease?

There are a million factors here but universal expansion aside, and assuming this were possible does the "math" say this would in fact happen?

No. Relativistic mass increase is an effect seen by an observer in a different reference frame (i.e. relative motion wrt Earth). Anyone in the same reference frame as Earth measures Earth's mass as unchanging.

So, whether zooming around the galaxy or floating out in the void, we measure Earth's mass to be the same.

Now, that being said, someone sitting on A. Centauri would measure Earth's mass differently - at first it was stationary wrt A.Centauri when they were both in the galaxy, but when Earth is transported to the void, it now has relative velocity, and A.Centauri would measure an increase in Earth
's mass.

Note that "moving" versus "stationary" is completely arbitrary. It has nothing to do with whether Earth is moving or whether A.Centauri is the one moving. You'd see the exact same thing if you left Earth where it was and instead passed by it in a rocket at the same speed.
 
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  • #3
Well that settles that, thanks for the quick reply!
 

1. What is mass and how does it relate to velocity?

Mass is a measure of an object's resistance to acceleration. It is a fundamental property of matter and is often measured in kilograms. In relation to velocity, an object's mass affects its motion by determining how much force is needed to accelerate it. The greater the mass, the more force is required to change its velocity.

2. How does special relativity explain the relationship between mass, energy, and velocity?

Special relativity, a theory proposed by Albert Einstein, explains that mass and energy are interchangeable and are related by the famous equation E=mc^2. This means that as an object's velocity increases, its mass also increases and its energy content changes.

3. What is the "mass-energy equivalence" principle?

The mass-energy equivalence principle is a fundamental concept in special relativity that states that mass and energy are two forms of the same thing and can be converted from one to the other. This principle is expressed by the equation E=mc^2, where E is energy, m is mass, and c is the speed of light.

4. How does special relativity impact our understanding of time and space?

Special relativity states that time and space are relative and can be affected by an observer's perspective and their relative motion. This means that time and space are not absolute, but can vary depending on the context in which they are observed.

5. What is the significance of the speed of light in special relativity?

The speed of light, denoted by "c", is a fundamental constant in special relativity and is the maximum speed at which all matter and information in the universe can travel. This constant is crucial in understanding the concept of time dilation and length contraction, which are fundamental principles of special relativity.

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