Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)
Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)
5th Edition
ISBN: 9781305586871
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 29, Problem 45P

(a)

To determine

The energies of ground state, and first four excited states.

(a)

Expert Solution
Check Mark

Answer to Problem 45P

The energies of the ground state is 8.16eV and first four excited states.is E2=2.04eV, E3=0.902eV, E4=0.508eV, and E5=0.325eV.

Explanation of Solution

Write the expression for the energy of the ground state.

  E1=hcλseries limit        (I)

Here, E1 is the photon’s energy from its ground state, c is the velocity of light, λseries limit is the wavelength of the series of spectral line, and h is the plank’s constant.

Write the expression for the energy of the excited state of Lyman α line.

  E2E1=hcλ1        (II)

Here, E2 is the energy of the electron from the excited state of Lyman α line and λ1 is the wavelength of the of Lyman α line.

Write the expression for the energy of the excited state of Lyman β line.

  E3E1=hcλ2        (III)

Here, E3 is the energy of the electron from the excited state of Lyman β line and λ2 is the wavelength of the of Lyman β line.

Write the expression for the energy of the excited state of Lyman γ line.

  E4E1=hcλ3        (IV)

Here, E4 is the energy of the electron from the excited state of Lyman γ line and λ3 is the wavelength of the of Lyman γ line.

Write the expression for the energy of the excited state of Lyman δ line.

  E5E1=hcλ4        (V)

Here, E5 is the energy of the electron from the excited state of Lyman δ line and λ4 is the wavelength of the of Lyman δ line.

Conclusion:

Substitute 6.626×1034Js for h, 3×108m/s for c, and 152.0nm for λseries limit in the equation (I) to find E1.

  E1=(6.626×1034Js)(3×108m/s)(152.0nm)=19.878×1026Jm(6.242×1018eV1J)(152.0nm)=1240eVnm152.0nm=8.16eV

Substitute 6.626×1034Js for h, 3×108m/s for c, 8.16eV for E1, and 202.6nm for λ1 in the equation (II) to find E2.

  E2=(6.626×1034Js)(3×108m/s)(202.6nm)+E1=19.878×1026Jm(6.242×1018eV1J)(202.6nm)8.16eV=1240eVnm202.6nm8.16eV=2.04eV

Substitute 6.626×1034Js for h, 3×108m/s for c, 8.16eV for E1, and 170.9nm for λ2 in the equation (III) to find E3.

  E3=(6.626×1034Js)(3×108m/s)(170.9nm)+E1=19.878×1026Jm(6.242×1018eV1J)(170.9nm)8.16eV=1240eVnm170.9nm8.16eV=0.902eV

Substitute 6.626×1034Js for h, 3×108m/s for c, 8.16eV for E1, and 162.1nm for λ3 in the equation (IV) to find E4.

  E4=(6.626×1034Js)(3×108m/s)(162.1nm)+E1=19.878×1026Jm(6.242×1018eV1J)(162.1nm)8.16eV=1240eVnm162.1nm8.16eV=0.508eV

Substitute 6.626×1034Js for h, 3×108m/s for c, 8.16eV for E1, and 158.3nm for λ4 in the equation (V) to find E5.

  E5=(6.626×1034Js)(3×108m/s)(158.3nm)+E1=19.878×1026Jm(6.242×1018eV1J)(158.3nm)8.16eV=1240eVnm158.3nm8.16eV=0.325eV

Therefore, The energies of the ground state is 8.16eV and first four excited states.is E2=2.04eV, E3=0.902eV, E4=0.508eV, and E5=0.325eV.

(b)

To determine

The wavelength of the first three lines and one short wavelength limit in Balmer series.

(b)

Expert Solution
Check Mark

Answer to Problem 45P

The wavelength of the first three lines is λα=1090nm, λβ=811nm, λα=724nm and one short wavelength limit in Balmer series is 609nm.

Explanation of Solution

Write the expression for energy of the Balmer series.

  EiE2=hcλ

Here, Ei is the ionization energy of the series.

For the α spectral line, substitute E3 for Ei and λα for λ in the above expression.

  E3E2=hcλa

Rewrite the above expression for λα.

  λα=hcE3E2        (VI)

Similarly the expression for the wavelength of the β line is,

  λβ=hcE4E2        (VII)

Similarly the expression for the wavelength of the γ line is,

  λγ=hcE5E2        (VIII)

Similarly the expression for the short wavelength limit is,

  λshort=hcE1E2        (IX)

Conclusion:

Substitute 6.626×1034Js for h, 3×108m/s for c, 2.04eV for E2, and 0.902eV for E3 in the equation (VI) to find λα

  λα=(6.626×1034Js)(3×108m/s)(0.902eV)(2.04eV)=19.878×1026Jm(6.242×1018eV1J)(1.138eV)=1240eVnm1.138eV=1090nm

Substitute 6.626×1034Js for h, 3×108m/s for c, 2.04eV for E2, and 0.508eV for E4 in the equation (VII) to find λβ

  λβ=(6.626×1034Js)(3×108m/s)(0.508eV)(2.04eV)=19.878×1026Jm(6.242×1018eV1J)(1.532eV)=1240eVnm1.532eV=811nm

Substitute 6.626×1034Js for h, 3×108m/s for c, 2.04eV for E2, and 0.325eV for E5 in the equation (VIII) to find λγ

  λγ=(6.626×1034Js)(3×108m/s)(0.325eV)(2.04eV)=19.878×1026Jm(6.242×1018eV1J)(1.715eV)=1240eVnm1.715eV=724nm

Similarly the shortest wavelength is, 609nm.

Therefore, the wavelength of the first three lines is λα=1090nm, λβ=811nm, λα=724nm and one short wavelength limit in Balmer series is 609nm.

(c)

To determine

Show that the wavelength of the first four lines and short wavelength limit of the Lyman series.

(c)

Expert Solution
Check Mark

Answer to Problem 45P

The wavelength of the first four lines is 122nm, 103nm, 97.3nm, 95.0nm and short wavelength limit of the Lyman series is 91.2nm.

Explanation of Solution

Write the expression for wavelength of the Lyman series for hydrogen atom.

  1λ=RH(11n2)        (X)

Here, RH is the Rydberg constant and n is the energy level.

Conclusion:

For the α spectral line, substitute 2 for n, 1.097×107/m for RH, and λα for λ in the equation (X).

  1λα=(1.097×107/m)(1122)λα=122nm

For the β spectral line, substitute 3 for n, 1.097×107/m for RH, and λβ for λ in the equation (X).

  1λβ=(1.097×107/m)(1132)λβ=103nm

For the γ spectral line, substitute 4 for n, 1.097×107/m for RH, and λγ for λ in the equation (X).

  1λγ=(1.097×107/m)(1142)λγ=97.2nm

For the δ spectral line, substitute 5 for n, 1.097×107/m for RH, and λδ for λ in the equation (X).

  1λδ=(1.097×107/m)(1152)λγ=94.9nm

For the short wavelength, substitute for n, 1.097×107/m for RH, and λshort for λ in the equation (X).

  1λshort=(1.097×107/m)(112)λshort=91.1nm

Therefore, the wavelength of the first four lines is 122nm, 103nm, 97.3nm, 95.0nm and short wavelength limit of the Lyman series is 91.2nm.

(d)

To determine

From the observation, explain this atom as an hydrogen.

(d)

Expert Solution
Check Mark

Answer to Problem 45P

The spectrum series of the atom proved that this is hydrogen.

Explanation of Solution

Write the expression for Doppler shift.

  ff=λλ=cvc+v        (XI)

Here, f is the frequency of the observer, f is the actual frequency, λ is the wavelength of the shift, λ is the wavelength of the source moving away, and v is the velocity of the source.

Conclusion:

The required speed of the source is v=0.471c.

The spectrum could be that of hydrogen, Doppler shifted by motion away from us at speed 0.471c

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Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)

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