Hoffman.comHow does matter get converted into energy?

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In summary: However, if you were to take the same two protons and slap them together then the energy that was used to slap them together is still present and the protons have now increased in mass.
  • #1
electronman
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Is there any model to describe the mechanism that allows matter to be converted into energy? If a mass is suddenly converted into its energy equivalent what is the nature of this energy?
 
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  • #2
When mass in converted into energy it typically comes out as electromagnetic radiation, although some of it might be in the kinetic energy of the particles (if any) that result from the reaction. Examples: positron-electron collsion leads to 2 511 kev gamma rays, nulclear fission leads to two nuclides plus neutrons plus gamma rays.
 
  • #3
mathman said:
When mass in converted into energy it typically comes out as electromagnetic radiation, although some of it might be in the kinetic energy of the particles (if any) that result from the reaction. Examples: positron-electron collsion leads to 2 511 kev gamma rays, nulclear fission leads to two nuclides plus neutrons plus gamma rays.
Thanks for the post. Any references to the statement that the mass energy is converted to electromagnetic radiation?
 
  • #4
http://atom.kaeri.re.kr/ton/

The above is a table of all nuclides, including specifically the decay information about those that are radioactive. Any good book on nuclear physics would help also.
 
  • #5
electronman said:
Thanks for the post. Any references to the statement that the mass energy is converted to electromagnetic radiation?
Google for "nuclear bomb..."
 
  • #6
russ_watters said:
Google for "nuclear bomb..."

A search that would likely prove to contain much interesting information, perhaps not only to the people interested in particle physics. It's kind of off topic, but I have to wonder if such searches will gain unwelcome attention from beaurocrats overzealous to see everything as terrorist threats. Is it just me, or is anyone else concerned?
 
  • #7
electronman said:
Is there any model to describe the mechanism that allows matter to be converted into energy? If a mass is suddenly converted into its energy equivalent what is the nature of this energy?

When it is said that mass is converted into energy it is meant that the energy changes from one form to another form. The total energy, like the total mass, remains constant. The form of the energy, and the form of the mass, changes. The form can go from potential energy to kinetic energy or radiant energy etc. Take the nucleus of an atom as an example. Classically you can think of the mass of the nucleus consisting of the rest mass of the individual particles plus the potential energy of the particles plus the kinetic energy of the particles. When the nucleus decays then what was potential energy changes to kinetic energy or radiant energy etc. The total mass remains constant though.

For a solid worked example please see

http://www.geocities.com/physics_world/sr/nuclear_energy.htm

Pete
 
  • #8
When you push two protons towards each other there is an increase in potential energy. If energy and mass are equivalent is there a loss in mass of the system due to the increase in PE in order to preserve energy conservation?
 
  • #9
timetraveldude said:
When you push two protons towards each other there is an increase in potential energy. If energy and mass are equivalent is there a loss in mass of the system due to the increase in PE in order to preserve energy conservation?
No. You are adding energy to the system, which increases its mass.
 
  • #10
Doc Al said:
No. You are adding energy to the system, which increases its mass.
If this is the case you violate conservation of energy.
 
  • #11
timetraveldude said:
If this is the case you violate conservation of energy.

I don't think so, because you are doing work (adding energy to the system) to push them together... The energy would be lost from whatever is pushing them together.

...right?
 
  • #12
DeadWolfe said:
I don't think so, because you are doing work (adding energy to the system) to push them together... The energy would be lost from whatever is pushing them together.

this is true

also, you're not necessarily adding mass to the system when you give it energy

just because energy and mass are equivalent doesn't mean they are the same

for example,
5-2 is equivalent to 3 but not the same as 3
 
  • #13
timetraveldude said:
If this is the case you violate conservation of energy.
It isn't, if the system was closed it would be.
 
  • #14
timetraveldude said:
If this is the case you violate conservation of energy.
Nope. Conservation of energy applies to a closed system. Obviously the system isn't closed if an outside agent can do work on it.

oops: jcsd beat me to it.
 
  • #15
timetraveldude said:
When you push two protons towards each other there is an increase in potential energy. If energy and mass are equivalent is there a loss in mass of the system due to the increase in PE in order to preserve energy conservation?

When you push two protons together then that work is at the expense of another part of the system or at the expense of another form of energy. E.g. if two protons are on a collision course and then stick together then the potential energy is increased at the expense of the original kinetic energy of the particles. The mass of the system remains constant though.

Pete
 

1. What is energy-mass equivalence?

Energy-mass equivalence is a concept in physics that states that energy and mass are interchangeable and can be converted into one another through the famous equation E=mc^2, where E is energy, m is mass, and c is the speed of light. This concept was first proposed by Albert Einstein in his theory of relativity.

2. How does energy-mass equivalence affect our daily lives?

Energy-mass equivalence plays a crucial role in various technologies that we use in our daily lives, such as nuclear power plants, medical imaging devices like PET scans, and even in the functioning of our sun. It also helps us understand the fundamental nature of matter and energy and their relationship.

3. Can energy-mass equivalence be observed in experiments?

Yes, energy-mass equivalence has been observed in several experiments, including the famous particle accelerator experiments that led to the discovery of the Higgs boson. In these experiments, energy is converted into mass and vice versa, confirming the validity of Einstein's equation.

4. Are there any real-life applications of energy-mass equivalence?

Aside from the technologies mentioned earlier, energy-mass equivalence also has significant applications in nuclear weapons and nuclear fusion research. It also helps us understand the behavior of particles in high energy collisions, which is essential in particle physics research.

5. How is energy-mass equivalence related to the concept of mass-energy density?

Energy-mass equivalence and mass-energy density are closely related concepts. Mass-energy density is the amount of energy stored in a particular mass. It is calculated by multiplying the mass of an object by the square of the speed of light. This relationship further confirms the interconvertibility of energy and mass.

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