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When the Schrodinger equation is solved for A to the solution will be?

When the Schrödinger equation is solved for A to the solution will be?

Explanation: If we solve the time-independent Schrödinger equation for an energy E > Vo, the solutions will be oscillatory both inside and outside the well. Thus, the solution is never square integrable; that is, it is always a non-normalizable state. 7. Particle in a box of finite potential can never be at rest.

How did Schrödinger come up with the Schrödinger equation?

In his 1924 thesis, de Broglie had proposed a theory of wave mechanics. This sparked Schrödinger’s interest in explaining that an electron in an atom would move as a wave. The following year, he wrote a revolutionary paper that highlighted what would be known as the Schrödinger wave equation.

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What is the need of Schrodinger wave equation?

The Schrodinger equation is used to find the allowed energy levels of quantum mechanical systems (such as atoms, or transistors). The associated wavefunction 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.

Why do we solve Schrodinger equation?

What does Schrodinger equation stand for?

The Schrodinger equation is the name of the basic non-relativistic wave equation used in one version of quantum mechanics to describe the behaviour of a particle in a field of force. There is the time dependant equation used for describing progressive waves, applicable to the motion of free particles.

What does Schrodinger’s equation represent?

The Schrodinger equation is linear partial differential equation that describes the evolution of a quantum state in a similar way to Newton’s laws (the second law in particular) in classical mechanics.

How is the Schroedinger equation a wave equation?

Schrodinger wave equation is a mathematical expression describing the energy and position of the electron in space and time , taking into account the matter wave nature of the electron inside an atom. It is based on three considerations. They are; Conservation of Energy.