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
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Chapter 40, Problem 65AP

(a)

To determine

The work function of sodium using the graph.

(a)

Expert Solution
Check Mark

Answer to Problem 65AP

The work function of sodium is 1.7 eV .

Explanation of Solution

Write the equation for the maximum kinetic energy of the ejected photoelectrons.

  Kmax=eΔVs

Here, Kmax is the maximum kinetic energy of the ejected electron, e is the magnitude of the charge of the electron and ΔVs is the stopping potential.

Rewrite the above equation for ΔVs .

  ΔVs=Kmaxe                                                                                                            (I)

Write the Einstein’s photoelectric effect equation.

  Kmax=hfϕ

Here, h is the Plank’s constant, f is the frequency of the incident photon and ϕ is the work function of the metal.

Put the above equation in equation (I).

  ΔVs=hfϕe=hefϕe                                                                                                          (II)

Consider the two points (0 V,4.1×1014 Hz) and (3.3 V,12×1014 Hz) in the graph in figure P40.65.

Substitute 0 V for ΔVs and 4.1×1014 Hz for f in equation (II) to form an equation.

  0=he(4.1×1014 Hz)ϕe                                                                                        (III)

Substitute 3.3 V for ΔVs and 12×1014 Hz for f in equation (II) to form second equation.

  3.3 V=he(12×1014 Hz)ϕe                                                                                  (IV)

Conclusion:

Add equations (III) and (IV) and rewrite it for ϕ .

  0 V+3.3 V=he(4.1×1014 Hz)+he(12×1014 Hz)2ϕe3.3 V=he(4.1×1014 Hz+12×1014 Hz)2ϕe2ϕe=he(4.1×1014 Hz+12×1014 Hz)3.3 Vϕ=12[h(4.1×1014 Hz+12×1014 Hz)e(3.3 V)]                                  (V)

Substitute 6.626×1034 Js for h and 1.60×1019 C for e in equation (V) to find ϕ .

  ϕ=12[(6.626×1034 Js)(4.1×1014 Hz+12×1014 Hz)(1.60×1019 C)(3.3 V)]=1.7 eV

Therefore, the work function of sodium is 1.7 eV .

(b)

To determine

The value of the ratio h/e .

(b)

Expert Solution
Check Mark

Answer to Problem 65AP

The value of the ratio h/e is 4.2×1015 Vs .

Explanation of Solution

Subtract equation (III) from equation (IV).

  3.3 V0 V=(he(12×1014 Hz)ϕe)(he(4.1×1014 Hz)ϕe)3.3 V=he(12×1014 Hz4.1×1014 Hz)he=3.3 V(12×1014 Hz4.1×104 Hz)=4.2×1015 Vs

Conclusion:

Therefore, the value of the ratio h/e is 4.2×1015 Vs .

(c)

To determine

The cutoff wavelength.

(c)

Expert Solution
Check Mark

Answer to Problem 65AP

The cutoff wavelength is 7.3×102 nm .

Explanation of Solution

Rewrite Einstein’s photoelectric equation for ϕ .

  ϕ=hfKmax

At the cutoff wavelength, kinetic energy of the photoelectrons becomes zero.

Substitute 0 for Kmax in the above equation.

  ϕ=hf0ϕ=hf                                                                                                                 (V)

Write the relation between cutoff frequency and cutoff wavelength.

  f=cλc

Here, c is the speed of light in vacuum and λc is the cutoff wavelength.

Put the above equation in equation (V).

  ϕ=hcλc

Multiply numerator and denominator of right hand side of the above equation by e .

  ϕ=(he)ecλcλc=(he)ecϕ                                                                                                             (VI)

Conclusion:

The value of e is 1.60×1019 C and the value of c is 3.00×108 m/s .

Substitute 4.2×1015 Vs for h/e , 1.60×1019 C for e , 3.00×108 m/s for c and 1.7 eV for ϕ in equation (VI) to find λc .

  λc=(4.2×1015 Vs)(1.60×1019 C)(3.00×108 m/s)(1.7 eV1.60×1019 J1 eV)=7.3×107 m1 nm109 m=7.3×102 nm

Therefore, the cutoff wavelength is 7.3×102 nm .

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Chapter 40 Solutions

Physics for Scientists and Engineers With Modern Physics

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