Compute 〈E〉, 〈p〉 and 〈x〉 for the particle in a box.

The wave function of a particle in a one-dimensional box of length L is ψ(x) =...

The wave function of a particle in a one-dimensional box of length L is ψ(x) = A cos (πx/L). Find the probability function for ψ. Find P(0.1L < x < 0.3L) Suppose the length of the box was 0.6 nm and the particle was an electron. Find the uncertainty in the speed of the particle.

For a particle of mass 3.0 x 10-23 Kg, in a box of equal dimension 5.0...

For a particle of mass 3.0 x 10-23 Kg, in a box of equal dimension 5.0 Å, find the probability that the particle is in a region of 1.0 Å in the center of the box. The energy of the particle is 6.58 x 10-26 J.

The wave function of a particle is ψ (x) = Ne (-∣x∣ / a) e (iP₀x...

The wave function of a particle is ψ (x) = Ne (-∣x∣ / a) e (iP₀x / ℏ). Where a and P0 are constant; (e≃2,71 will be taken). a) Find the normalization constant N? b) Calculate the probability that the particle is between [-a / 2, a / 2]? c) Find the mean momentum and the mean kinetic energy of the particle in the x direction.

For a particle in a one-dimensional box of width a, determine the probability of finding the...

For a particle in a one-dimensional box of width a, determine the probability of finding the particle in the right third of the box (between ‘2/3 a’ and ‘a’) if the particle is in the ground state. ( Given: Y(x)= sqrt(2/a) sin(npix/a) )

The particle-in-a-box (n), the particle on a ring (ml) and the particle on a sphere (l...

The particle-in-a-box (n), the particle on a ring (ml) and the particle on a sphere (l + ml) successively increased what aspect of the restriction of motion

The wave function for a particle confined to a one-dimensional box located between x = 0...

The wave function for a particle confined to a one-dimensional box located between x = 0 and x = L is given by Psi(x) = A sin (n(pi)x/L) + B cos (n(pi)x/L) . The constants A and B are determined to be

For a particle in a one-dimensional box with the length of 30 Å, its wavefunction is...

For a particle in a one-dimensional box with the length of 30 Å, its wavefunction is ψ1+ψ3. What is the location (except x=0 and x =30 Å) where the probability to find this particle is 0?

The normalized wave functions for the particle is in a 1D box of length L., with...

The normalized wave functions for the particle is in a 1D box of length L., with limits on x = 0 and x = L. V (x) = 0 for 0 <= x <= L and V (x) = Infinity elsewhere. The probability of a particle being between x = 0 and x = L / 8 in the ground quantum state (n = 1) should be calculated.

I want you to compare particle in a box with the Bohr atom. For the particle...

I want you to compare particle in a box with the Bohr atom. For the particle in the box you can assume the size is .5x10^-10 m and the particle that is trapped is an electron. For the Bohr atom consider a hydrogen atom. a.) What is the energy of photon emitted when the electron drops from 3->2 and 2->1 in the particle in a box? b.) What is the energy of photon emitted when the electron drops from 3->2...

A particle is placed in a box of width, π. a)Find the allowed energies of the...

A particle is placed in a box of width, π. a)Find the allowed energies of the particle and the properly normalized wave functions for the particle in each energy state. b) Find the probability of measuring the n=3 energy if the particle is initially in a state described by the wave function, Ψ=((8/3π)^1/2)sin^2(x)