A photon of wavelength `5000 lambda` strikes a metal surface with work function `2.20 eV` calculate aTHe energy of the photon in eV b. The kinetic energy of the emitted photo electron c. The velocity of the photoelectron

A photon of wavelength `5000 lambda` strikes a metal surface with work

1.	A photon of wavelength `5000 lambda` strikes a metal surface with work function `2.20 eV` calculate aTHe energy of the photon in eV b. The kinetic energy of the emitted photo electron c. The velocity of the photoelectron
Answer» `E = hv= (hc)/(lambda)` `= ((6.6 xx 10^(-34)) J s(3 xx 10^(8) m s^(-1)))/(5 xx 10^(-3) m) = 3.96 xx 10^(-19) J` `1 eV = 1.6 xx 10^(-19)J` `:. E = (3.96 xx 10^(-19) J)/(1.6 xx 10^(-19) J eV^(-2)) = 2.475 eV` Kinetic energy of the emitted photoelectron work function `= 2.20 eV` Therefore` KE= 2.475 - 2.20 = 0.275 eV = 4.4 xx 10^(-20) J` Velocity of the photoelectron `KE = (1)/(2) mv^(2) = 4.4 xx 10^(-20) J` Therefore velocity (v) `sqrt((2 xx 4.4 xx 10^(-20))/(9.1 xx 10^(-31))) = 3.11 xx 10^(5) m s^(-1)`

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A photon of wavelength `5000 lambda` strikes a metal surface with work function `2.20 eV` calculate aTHe energy of the photon in eV b. The kinetic energy of the emitted photo electron c. The velocity of the photoelectron

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