(a)
The wavelength of a particle in the ground state of a one-dimensional infinite square well.
(a)
Explanation of Solution
Given:
The length of the one-dimensional infinite square well is
Formula used:
Write the expression for the wavelength of a particle in the ground state of a one-dimensional infinite square well.
Here,
Calculation:
Substitute
Conclusion:
Thus, the wavelength of a particle in the ground state of a one-dimensional infinite square well is
(b)
The momentum of a particle in the ground state of a one-dimensional infinite square well.
(b)
Explanation of Solution
Given:
The length of the one-dimensional infinite square well is
Formula used:
Write the expression for the wavelength of a particle in the ground state of a one-dimensional infinite square well.
Here,
Write the de Broglie relation for the momentum.
Here,
Multiplying numerator and denominator by
Here,
Calculation:
Substitute
Substitute
Conclusion:
Thus, the momentum of a particle in the ground state of a one-dimensional infinite square well is
(c)
To show: The total energy of an electron in the ground state of a one-dimensional infinite square well is approximately
(c)
Explanation of Solution
Given:
The length of the one-dimensional infinite square well is
Formula used:
Write the expression for the wavelength of a particle in the ground state of a one-dimensional infinite square well.
Here,
Write the de Broglie relation for the momentum.
Here,
Multiplying numerator and denominator by
Here,
Write the expression for the total energy of the electron.
Here,
Calculation:
Substitute
Substitute
Substitute
Substitute
Simplify the above expression for the total energy of the electron.
Conclusion:
Thus, the total energy of an electron in the ground state of a one-dimensional infinite square well is approximately
(d)
The kinetic energy of an electron in the ground state of a one-dimensional infinite square well.
(d)
Explanation of Solution
Given:
The length of the one-dimensional infinite square well is
Formula used:
Write the expression for the wavelength of a particle in the ground state of a one-dimensional infinite square well.
Here,
Write the de Broglie relation for the momentum.
Here,
Multiplying numerator and denominator by
Here,
Write the expression for the total energy of the electron.
Here,
Calculation:
Substitute
Substitute
Substitute
Substitute
Simplify the above expression for the total energy of the electron.
Write the expression for the kinetic energy of an electron in the ground state of a one-dimensional infinite square well.
Here,
Substitute
Substitute
Conclusion:
Thus, the kinetic energy of an electron in the ground state of a one-dimensional infinite square well is
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