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Reflector
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Where can I get the equations that describe the strong nuclear force between quarks/protons/neutrons? Are they not freely available? Thanks.
Reflector said:Where can I get the equations that describe the strong nuclear force between quarks/protons/neutrons? Are they not freely available? Thanks.
Nenad said:you can't solve the equations. They can only be reduced to a system of equations with too many variables and too little equations,
kind of like general relativity.
Reflector said:Those equations in the link look too complicated for me. I was looking for something similar to the gravitational Force.
Maybe I'm wasting my time anyway, I don't know. I have this theory but it didn't work out the way I wanted. Say, you have a right triangle and you expect on one side two values (say L) to have equal length (ie. L-L)... but instead you find that the second value is actually 10 x the value of the first value (ie 10L-L). Can it still be solved according to a logarithm function?
Reflector said:I thought that the logarithm dealt with 10-1 ratios.
I don't know how else to make sense of the observation...
plus having a logarithm may have something to do with dark matter... how there's like a 10-1 ratio of it compared with normal matter. I don't know.
This was an ambitious attempt to link the strong force with gravity, and getting the 10-1 ratio instead of a 1-1 ratio has to mean something...
Reflector said:I thought that the logarithm dealt with 10-1 ratios. I don't know how else to make sense of the observation... plus having a logarithm may have something to do with dark matter... how there's like a 10-1 ratio of it compared with normal matter. I don't know. This was an ambitious attempt to link the strong force with gravity, and getting the 10-1 ratio instead of a 1-1 ratio has to mean something...
Alem2000 said:Hi, I wanted to as Tom a question. I havnt completed the introductory physics courses yet but since I saw the equation for the strong nuclear force I was wondering what the string theory equations look like. If you could please post them I would be greatful.
Alem2000 said:...and if I may add. What exactly can be done with the strong nuclear force equations...im confused, if they can't be solved than how are they relavant? Please keep in mind I am a beginner!
The nuclear force equation is a mathematical representation of the strong nuclear force, which is one of the four fundamental forces in nature that holds the nucleus of an atom together. It is an equation that describes the attractive force between subatomic particles known as nucleons (protons and neutrons).
The nuclear force equation is derived from the theory of quantum chromodynamics (QCD), which is a mathematical framework that explains the strong nuclear force in terms of the interactions between quarks and gluons. It involves complex calculations and is still an active area of research in theoretical physics.
The variables in the nuclear force equation include the distance between the nucleons, the masses of the nucleons, and the fundamental constants of nature such as the Planck constant and the speed of light. These variables are used to calculate the strength of the nuclear force between the nucleons.
The nuclear force equation is the basis for understanding and predicting nuclear reactions, such as fusion and fission. It helps scientists determine the conditions under which these reactions can occur and the amount of energy that can be released. It is also used in the design of nuclear reactors and weapons.
While the nuclear force equation has been successful in describing the strong nuclear force, it is not a complete theory and has some limitations. For example, it does not account for the effects of gravity, and it cannot fully explain the behavior of particles at extremely high energies. Scientists are still working to refine and improve the nuclear force equation to better understand the complexities of the strong nuclear force.