What is the wave function of a proton?

There is no proton wave function in atom but a wave function of the relative motion. It is a quasi-particle wave function. Proton is in a mixed state when in atom. Concerning always bound quarks, it is a non-linear problem with a strong coupling.

What is the wave function of an electron?

In quantum mechanics, the physical state of an electron is described by a wave function. According to the standard probability interpretation, the wave function of an electron is probability amplitude, and its modulus square gives the probability density of finding the electron in a certain position in space.

What does the wave function Ψ Ψ represent?

A wave function (Ψ) is a mathematical function that relates the location of an electron at a given point in space (identified by x, y, and z coordinates) to the amplitude of its wave, which corresponds to its energy.

What is the wave equation of an electron?

Apply the de Broglie wave equation λ=hmv to solve for the wavelength of the moving electron.

What is Schrodinger wave equation how is it applied to hydrogen atom?

Ψ2s=14√2π(1a0)3/2[2−r0a0]e−r/a0. where, a0 is Bohr radius. If the radial node in 2s be at r0, then find r in terms of a0.

What is Schrodinger wave equation for hydrogen atom?

The Schrödinger Equation for the hydrogen atom. ˆH(r,θ,φ)ψ(r,θ,φ)=Eψ(r,θ,φ) employs the same kinetic energy operator, ˆT, written in spherical coordinates.

What is ψ * ψ in quantum mechanics?

In quantum physics, a wave function is a mathematical description of a quantum state of a particle as a function of momentum, time, position, and spin. The symbol used for a wave function is a Greek letter called psi, ?.

What is the wave equation for photon?

→E0ei(px−Et)/ℏ. that is, in terms of the energy and momentum of the particle. E2=c2p2. The wave equation operator applied to the plane wave describing the particle propagation yields the energy-momentum relationship for the particle.