Einstein's Equation: Energy Changes & Mass - What Happens?

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In summary, according to Einstein's equation "E = mc^2", an object that loses energy also loses a slight proportion of its mass, while an object that gains energy also gains a slight increase in mass. In general physics, when an object moves, its potential energy is transformed into kinetic energy. This means that the object loses some of its mass as kinetic energy, as stated by the law of conservation of energy. It is not possible for an object to spontaneously reduce its speed and return to rest, as this goes against the principles of physics. When a particle moves in vacuum without any external forces, it will continue to move in a straight line according to Newton
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Omar
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According to Einstein’s equation “E = m c^2” an object that loses energy loses a VERY slight proportion of its mass. An object that, on the contrary, gains energy also gains a VERY slight increase in mass.

Now, if an object (in space, or vacuum, say) moves or changes position, in general physics we say; the potential energy of the object has transformed into kinetic energy (because the object has moved). Thus it goes that the object lost part of its mass (or potential energy) as kinetic energy, where has the lost part gone or transformed into? Remember the law of conservation of energy states that energy lost = energy gained.

Let me re-frame that: What happens to the K.E. after the object sets to rest? Is it re-transformed into potential energy so that the mass of the object returns the same?

NOTE: I know I'm bullsh*tting, but.. what to do?
 
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  • #2
The equation quoted is for the energy at rest. If the particle moves, that's not true.

And remember, and object don't changes its linear momentum spontaneously, it does when something happens for example when a disipative force makes the object loose speed and this energy goes god knows where (internal work, heat, ...). So we can't imagine a isolated particle with a linear momentum p which spontaneusly reduces its speed and finally keeps in rest. Thats magic, not physics :)
 
  • #3
So you're saying when a particle moves (in vacuum and without gravity or any other force applying on it) it will just keep on moving straight forward?

Let's say that a particle has a K.E. of 10 Joules; is this embodied by the continuous motion of the particle or does the the particle slows down as the K.E. is used up?
 
  • #4
So you're saying when a particle moves (in vacuum and without gravity or any other force applying on it) it will just keep on moving straight forward?

That's precisely what will happen! (Newton's first law)

Cheerio!

Kane
 
  • #5
Omar said:
Let me re-frame that: What happens to the K.E. after the object sets to rest? Is it re-transformed into potential energy so that the mass of the object returns the same?
I am not sure I understand your question. Are you asking how does the KE of the mass m that releases a photon change? If so, the answer lies in the momentum imparted by the photon to the mass. It imparts E/c momentum to the mass so the mass experiences a change in speed of v=E/mc
 

FAQ: Einstein's Equation: Energy Changes & Mass - What Happens?

What is Einstein's equation?

Einstein's equation, also known as the mass-energy equivalence, is a famous formula that states the relationship between energy and mass. It is represented as E=mc², where E stands for energy, m stands for mass, and c is the speed of light.

How did Einstein come up with this equation?

Einstein developed this equation as part of his theory of special relativity, which he published in 1905. He used mathematical equations and thought experiments to demonstrate that energy and mass are two forms of the same thing.

What does "energy changes & mass" mean in the context of this equation?

The equation shows that energy and mass are interchangeable and can be converted into each other. This means that if there is a change in energy, there will also be a corresponding change in mass, and vice versa.

What happens when energy changes into mass?

When energy changes into mass, it means that energy is being converted into particles with mass. This process is known as pair production and is commonly observed in high-energy particle collisions.

What are the practical applications of this equation?

Einstein's equation has had significant impacts in many fields, including nuclear energy, particle physics, and cosmology. It also plays a crucial role in technologies such as nuclear power plants and medical imaging devices like PET scanners.

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