Back, potentials 0.38V k 1.85V slop photo-currents due \'light\' frequencies (f)

Question

Back, potentials 0.38V k 1.85V slop photo-currents due 'light' frequencies (f) '360 & 720' times 10^12 H_z respectively. Accepted electron charge magnitude 'c': 1.6 times 10^-C. Mass of an electron 'm': 9.1 times 10^-31 kg a] Based on the given photo-electric data determine 'h', Planck's constant b] Determine the work function (W) of the material constituting the photo-tube's cathode c] Determine the De Broglie wavelength of the photoelectrons stopped by the back potential 0.5V. Use result of part a. Do not use accepted 'h' value.

Explanation / Answer

from Eienstein equation

hf = Wo + V*q

h*f1 = Wo + V1*e

h*f2 = Wo + V2*e

h*(f2-f1) = e*(v2-v1)

h*(720-360)*10^12 = 1.6*10^-19*(1.85-0.38)

plancks constant h = 6.53*10^-34 Js <<<-------answer

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(b)

Wo = hf1 - V1*e

Wo = (6.53*10^-34*360*10^12) - (0.38*1.6*10^-19)

work function Wo = 1.743*10^-19 J = 1.743*10^-19/(1.6*10^-19) = 1.09 eV

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(c)

kinetic energy of electron KE = V*q

Debrogile wavelength lambda = h/sqrt(2*KE*m)

lambda = 6.53*10^-34/sqrt(2*0.5*1.6*10^-19*9.1*10^-31)

lambda = 1.71*10^-9 m

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