How Does the Schrödinger Equation Account for Rest Mass Energy?

In summary, according to Einstein's equation, E=K+m_{o}c^2, but the plane wave solution shows that a particle's kinetic energy is equal to its total energy, and since a free particle has no potential energy, the rest mass energy m_{o}c^2 is omitted from the equation for convenience. This is because Schrödinger's equation is non-relativistic and can be derived from E=\sqrt{p^2 c^2 + m^2 c^4}, where the first term, mc^2, has no physical consequences and can be added to the potential energy term.
  • #1
hyena
1
0
i know its a stupid question but I am a beginner:
according to eisntein:
[tex]E=K+m_{o}c^2[/tex]
but the plane wave solution yields that particle's KE is its total energy,where free particle has no potential energy. But where is the rest mass energy[tex]m_{o}c^2[/tex]? Is it omitted?
 
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  • #2
Schrödinger's equation is non-relativistic.
 
  • #3
If we start with

[tex]E=\sqrt{p^2 c^2 + m^2 c^4}[/tex]

and Taylor-expand in powers of [itex]p[/itex], we get

[tex]E=mc^2 + {p^2\over 2m} + \ldots [/tex]

The second term is the usual nonrelativistic kinetic energy. The first term is a constant, and so could be added to the potential energy. But it has no physical consequences, so it's just omitted for convenience.
 

Related to How Does the Schrödinger Equation Account for Rest Mass Energy?

1. What is the Schrodinger equation?

The Schrodinger equation is a fundamental equation in quantum mechanics that describes the time evolution of a quantum system. It is used to calculate the probability of finding a particle in a specific location at a specific time.

2. Why is it considered a "stupid" question?

The term "stupid" is subjective and can be interpreted as offensive. It is important to approach all questions with respect and understanding, regardless of their perceived simplicity or complexity.

3. Can you explain the Schrodinger equation in simple terms?

The Schrodinger equation is a mathematical equation that describes how particles behave on a microscopic level. It takes into account the wave-like nature of particles and helps us understand the probability of their position and behavior.

4. How is the Schrodinger equation used in scientific research?

The Schrodinger equation is used in various fields of science, such as quantum mechanics, chemistry, and material science. It helps scientists make predictions about the behavior of microscopic particles and has been crucial in the development of new technologies, including transistors and lasers.

5. Is the Schrodinger equation the only equation used in quantum mechanics?

No, the Schrodinger equation is one of the fundamental equations in quantum mechanics, but there are other equations, such as the Heisenberg uncertainty principle and the Pauli exclusion principle, that are also important in understanding the behavior of particles on a quantum level.

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