In a photoelectric experiment using a sodium surface, you find a stopping potential of 1.61 V for a wavelength of 320 nm and a stopping potential of 0.740 V for a wavelength of 412 nm. From these data find (a) a value for the Planck constant, (b) the work function Φ for sodium, and (c) the cutoff wavelength λ0 for sodium.

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Karabo99 Karabo99 · Answer 1 · 2019-08-07T17:02:56+02:00

Answer:

a) 4.15×10∧-15 eV/s

b) 1.31 eV

c) 950.4 nm

Explanation:

let Ф be the work function.

a) f = c/λ = (3×10^8)/(320×10^-9) = 9.375×10^14 /s

f = c/λ = (3×10^8)/(412×10^-9) = 7.28×10^14 /s

E = hf +Ф

Energy which relates to the poteial is calculated in eV (electonvolts).

so E = eV

Now using the straight line analogy in the equation above h is the gradient of the line.

Note that energy which relates to the poteial is calculated in eV (electonvolts).

so E = eV

and h = eV/f

h=[(0.74 - 1.61)eV]/[((7.28 - 9.375)×10^14 )/s]

= 4.15×10^-15 eV/s ≈ 6.65×10^-34 J/s

b) E = hf +Ф

eV = hc/λ - Ф

Ф = hc/λ - eV

= (4.15×10^-15 eV/s)(3×10^8)/[(320×10^-9) - (1.60×10^-19)(1.61)eV]

= 1.31 eV ≈ 2.1×10^-19 J/s

c) Ф = hc/λ0

λ0 = hc/Ф

= [(6.65×10^-34 J/s)(3×10^8 )]/ (2.1×10^-19 J/s)

= 9.50×10^-7 m