Can energy be converted into mass?

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Discussion Overview

The discussion revolves around the concept of energy conversion into mass, particularly in the context of particle physics and the implications of Einstein's equation E=mc². Participants explore theoretical and experimental aspects of mass-energy equivalence, including examples from high-energy physics and nuclear reactions.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • Some participants assert that mass has been converted into energy in processes like fission and fusion, while questioning if energy can be converted into mass.
  • One participant describes how the proper mass and relativistic mass change due to energy interactions, particularly in the context of photon momentum.
  • High-energy particle physicists reportedly create more massive particles through collisions of less massive particles using accelerators.
  • There is a discussion about the interpretation of E=mc², with some suggesting it conserves mass plus energy rather than treating them separately.
  • One participant mentions the creation of electron-positron pairs as a significant example of energy converting into mass under certain conditions.
  • Another participant challenges the notion of equivalence between mass and energy, suggesting that not all forms of energy have mass.
  • There are claims that while energy contributes to the inertial mass of a system, not all energy possesses rest mass, leading to further clarification on the definitions of mass and energy.

Areas of Agreement / Disagreement

Participants express differing views on the equivalence of mass and energy, with some asserting they are equivalent and others contesting this notion. The discussion remains unresolved, with multiple competing interpretations of mass-energy relationships present.

Contextual Notes

Participants reference various interpretations of mass-energy equivalence, including relativistic effects and the role of energy in contributing to inertial mass. There are unresolved assumptions regarding the definitions and implications of mass and energy in different contexts.

Who May Find This Useful

This discussion may be of interest to those studying particle physics, energy-mass relationships, or the implications of relativistic physics in theoretical frameworks.

manjuvenamma
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I know mass has been converted into energy in fission and fusion bombs. But the converse - i.e., converting energy into mass - has been achieved? Please let me know.
 
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manjuvenamma said:
I know mass has been converted into energy in fission and fusion bombs. But the converse - i.e., converting energy into mass - has been achieved? Please let me know.
Its not that mass is converted into energy or vice-versa. What actually happens is that the form of (inertial) mass changes. What happens is that the proper mass increases as does the mass due to motion (aka relativistic mass) since the atom will recoil in order to take up the photon's momentum.

Pete
 
High-energy particle physicists produce more-massive particles by colliding less-massive particles together with the help of accelerators like the ones at CERN and Fermilab.
 
Pete,

I always read in books that E = mc^2 conserves mass plus energy rather than mass and energy separately as held by the Newtonian principles. I always read that the equation relates conversion of mass into energy. Perhaps they are oversimplified statements that I read.

I will try to understand your answer better. Can you give me some link that explains this equation more accurately and allows me to understand your answer better.
 
Yes, they are equivalent and also can go from one to the other.

http://www.bnl.gov/bnlweb/history/images/4-1069-75_OmegaMinus.jpg

There's a picture here of that process happening.
 
manjuvenamma said:
I know mass has been converted into energy in fission and fusion bombs. But the converse - i.e., converting energy into mass - has been achieved? Please let me know.
Yes, the creation of an electron-positron pair is one of the most important interactions for photons with a little more than 1 MeV energy.
 
Yes, they are equivalent and also can go from one to the other.

Calling them equivalent is not really correct.

You could perhaps say that matter is a type of energy or matter has energy, but some types of energy do not have mass and thus could not be matter.

Scott
 
manjuvenamma said:
Pete,

I always read in books that E = mc^2 conserves mass plus energy rather than mass and energy separately as held by the Newtonian principles. I always read that the equation relates conversion of mass into energy. Perhaps they are oversimplified statements that I read.

I will try to understand your answer better. Can you give me some link that explains this equation more accurately and allows me to understand your answer better.
manjuvenamma:

I might have misunderstood Pete, but if not, then I'd have to disagree with his earlier statement. It sounded to me as if he was describing the effect of relativistic mass, which is where the mass of an object increases as its velocity increases.

In nuclear fission, mass is most certainly destroyed and converted to energy. Actually, this happens any time matter and antimatter annihilate. The reverse process is precisely what other posts have referred to, e.g. production of e+/e- pairs.
 
superdirt said:
Calling them equivalent is not really correct.

You could perhaps say that matter is a type of energy or matter has energy, but some types of energy do not have mass and thus could not be matter.

Scott
All forms of energy in the rest frame of a bound system (say, an atom, or a collection of particles in a box) do contribute to the inertial mass of the system as a whole as measured in its rest frame, though. A box containing some system will have inertial mass proportional to the sum of the rest mass energy, kinetic energy, and potential energy of all of the particles that make it up (including the ones in the wall of the box of course).
 
  • #10
All forms of energy in the rest frame of a bound system (say, an atom, or a collection of particles in a box) do contribute to the inertial mass of the system as a whole as measured in its rest frame, though. A box containing some system will have inertial mass proportional to the sum of the rest mass energy, kinetic energy, and potential energy of all of the particles that make it up (including the ones in the wall of the box of course).

That is correct, all energy has inertial or relativistic mass. What I meant and should have said, is that not all energy has rest mass.

Mass and energy can't be equivalent, because they are defined so differently.

Scott
 
  • #11
superdirt said:
Calling them equivalent is not really correct.

You could perhaps say that matter is a type of energy or matter has energy, but some types of energy do not have mass and thus could not be matter.

Scott

Ok e doesn't equal mc^2 then. Mass and energy are not convertable, that's not what I meant.

They are as equivalent as the [itex]\equiv[/itex] sign. No they are not the same thing. :smile:

Good gravy. :-p

Instead of [itex]E=mc^2 \rightarrow E\simeq mc^2[/itex]
 
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