Physics for Scientists and Engineers With Modern Physics
Physics for Scientists and Engineers With Modern Physics
9th Edition
ISBN: 9781133953982
Author: SERWAY, Raymond A./
Publisher: Cengage Learning
Question
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Chapter 41, Problem 61CP

(a)

To determine

The probability of finding an electron in n=1 state.

(a)

Expert Solution
Check Mark

Answer to Problem 61CP

The probability of finding an electron in n=1 state is 0.200.

Explanation of Solution

A quantum dot is modeled as a one-dimensional box with the length of 1.00 nm. Here, the given limits to find the probability of finding the electron is between x1=0.150 m and x2=0.350 nm for n=1 state.

Write to formula to find the probability of finding the electron

    Pn=x1x2|ψn|2dx                                                                         (I)

Here, Pn is the probability of finding the electron in nth state, Ψn is the wavefunction of n state and x1 and x2 are the limits.

Write the formula to find the wave function

    ψn=2Lsin(nπxL)                                                                 (II)

Here, L is the length of the box.

Conclusion:

Substitute equation (II) in (I) and solve

Pn=x1x2[2Lsin(nπxL)]2dx

Pn=2Lx1x2sin2(nπxL)dx                                                                  (III)

Substitute 1 for n, 0.150 nm for x1, 0.350 nm for x2, 1.00 nm for L in equation (III) to find the value of P1

P1=(21.00 nm)0.1500.350sin2(πx1.00 nm)dx

Note: [sin2(ax)dx=(x2)(14a)sin(2ax)], using this in the above equation and solving

P1=(2.00/nm)[x21.00 nm4πsin(2πx1.00 nm)]0.150 nm0.350 nm=(1.00/nm)[x1.00 nm2πsin(2πx1.00 nm)]0.150 nm0.350 nm=(1.00/nm){(0.350 nm0.150 nm)1.00 nm2π[sin(0.700π)sin(0.300π)]}=0.200

Thus, the probability of finding an electron in n=1 state is 0.200.

(b)

To determine

The probability of finding an electron in n=2 state.

(b)

Expert Solution
Check Mark

Answer to Problem 61CP

The probability of finding an electron in n=2 state is 0.351.

Explanation of Solution

The probability of finding the electron is n=2 state.

Substitute 2 for n, 0.150 nm for x1, 0.350 nm for x2, 1.00 nm for L in equation (III) to find the value of P2

P2=(21.00 nm)0.1500.350sin2(2πx1.00 nm)dx

Note: [sin2(ax)dx=(x2)(14a)sin(2ax)], using this in the above equation and solving

P2=(2.00/nm)[x21.00 nm8πsin(4πx1.00 nm)]0.150 nm0.350 nm=(1.00/nm)[x1.00 nm4πsin(4πx1.00 nm)]0.150 nm0.350 nm=(1.00/nm){(0.350 nm0.150 nm)1.00 nm4π[sin(1.40π)sin(0.600π)]}=0.351

Thus, the probability of finding an electron in n=2 state is 0.351.

(c)

To determine

The energy of n=1 state in electron volt.

(c)

Expert Solution
Check Mark

Answer to Problem 61CP

The energy of n=1 state in electron volt is 0.377 eV.

Explanation of Solution

The mass of the electron is 9.11×1031 kg and length of the quantum box is 1.00 nm.

Write the formula to find the energy of nth state

    En=n2h28mL2                                                                 (IV)

Here, h is Planck’s constant [h=6.63×1034 Js], m is the mass of the particle and En is the nth state energy.

Conclusion:

Substitute 1 for n, 1.00 nm for L, 9.11×1031 kg for m and  6.63×1034 Js for h in equation (IV) to find value of E1

E1=12×(6.63×1034 Js)28×(9.11×1031 kg)(1.00 nm)2=0.377 eV

Thus, the energy of n=1 state in electron volt is 0.377 eV.

(d)

To determine

The energy of n=2 state in electron volt.

(d)

Expert Solution
Check Mark

Answer to Problem 61CP

The energy of n=2 state in electron volt is 1.57 eV.

Explanation of Solution

Substitute 2 for n, 1.00 nm for L, 9.11×1031 kg for m and  6.63×1034 Js for h in equation (IV) to find value of E2

E2=22×(6.63×1034 Js)28×(9.11×1031 kg)(1.00 nm)2=1.57 eV

Thus, the energy of n=2 state in electron volt is 1.57 eV.

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