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A 40 W ultraviolet light source of wavelength `2480 A`. Illuminates a magnesium (mg) surface placed 2 m away. Determine the number of photons emitted from the surface per second and the number incident on unit area of Mg surface per second . The photoelectric work function for Mg is `3.68eV`. Calculate the kinetic energy of the fastest electrons ejected from the surface. Determine the maximum wavelength for which the photoelectric effects can be observed with Mg surface.

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Energy of each photon, `epsilon = (hc)/(lambda)`
`= (6.6 xx 10^(-34) xx 3 xx 10^(8))/(2480 xx 10^(-10)) J = 8.0 xx 10^(-19) J`
Number of photons emitted per second
`N = (P)/(epsilon) = (40)/(8.0 xx 10^(-19)) = 5.0 xx 1019 s^(-1)`
From Einstein's photoelectric equation ,
`N_(i) = (N)/(4 pi r^(2)) = (5.0 xx 10^(19))/(4 xx 3.14 xx (2)^(2))`
`(As r = 2 m) = 9.95 xx 10^(13) s^(-1)`
From Einstein's photoelectron equation.
`E_(k) = hv - W`
`epsilon = hv = (hc)/(lambda) = 8.0 xx 10^(-19) J`
`= (8.0 xx 10^(-19))/(1.6 xx 10^(-19)) e V = 5.0 e V`
`:. E_(k) = 5.0 e V - 3.68 e V = 1.32 e V`
Threshold (or maximum) wavelength for photoelectrons emission,
`lambda_(0) = (hc)/(W) = (6.62 xx 10^(-34) xx 3 xx 10^(8))/(3.68 xx 1.6 xx 10^(-19)) m`
`= 3.373 xx 10^(-7) = 3373 Å`
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