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...

If X∼Binom(n,p), E[X] = np. Calculate V[X] = np(1−p) by: a) First show E[X(X−1)] + E[X]...

If X∼Binom(n,p), E[X] = np. Calculate V[X] = np(1−p) by: a) First show E[X(X−1)] + E[X] − (E[X])^2 = V[X] (Hint: Use propertie of E[·] and V[·]). b) Show E[X(X−1)] = n(n−1)p^2 c) Use E[X] = np, a) and b) to discuss, V[X] = np(1−p).