Explain Schrodinger's equation. How does it impact the quantum world?
Answers
Answer:
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Explanation:
-Impact of schrodinger's equation
Schrodinger's equation
The Schrodinger equation is used to find the allowed energy levels of quantum mechanical systems. The associated wave-function gives the probability of finding the particle at a certain position. The solution to this equation is a wave that describes the quantum aspects of a system
-This is the definition of schrodinger's equation
The Schrödinger equation is a linear partial differential equation that describes the wave function or state function of a quantum-mechanical system. It is a key result in quantum mechanics, and its discovery was a significant landmark in the development of the subject.
Answer:
Schrodinger's equation
The Schrodinger equation plays the role of Newton's laws and conservation of energy in classical mechanics - i.e., it predicts the future behavior of a dynamic system. It is a wave equation in terms of the wavefunction which predicts analytically and precisely the probability of events or outcome.
Explanation:
It effects quantum world in many ways:-
- The solution of Schrodinger’s equation in reciprocal space results in the electronic band structure of solids.
- The classification of solids (metals, semiconductors, and insulators) can be well explained using band theory of solids, which is just a consequence of the solution of the Schrodinger's equation in momentum space.
- The solution of Schrodinger’s equation results in quantized properties of the quantum particles involved.
- The quantization is the consequence of periodic boundary conditions involved. Today we know that the energy quantization is playing a key role in fabricating various quantum devices such as laser diodes and light emitting diodes.
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