Answer to Question #148866 in Quantum Mechanics for mavin omondi

Question #148866

If 165.7 MJ/mol photon strike atoms of an unknown element and eject electrons with kinetic energies of 25.4 MJ/mol, what is the workfunction of the element?

What is the frequency of light attributed to the n=3 line in the Balmer transition (n=2) of hydrogen emission

Expert's answer

Solution

Using Einstein equation

"E=\\phi+KE"

So work function

"\\phi=E-KE=165.7-25.4\\\\=140.3MJ\/mol"

Wavelength is given by

"\\frac{1}{\\lambda}=R(\\frac{1}{n^2_f}-\\frac{1}{n^2_i})"

Here

"n_i=3\\\\n_f=2" putting all value in above equation

Wavelength is found

"\\lambda=656.88nm"

So frequency is found

"\\nu=\\frac{c}{\\lambda}=\\frac{3\\times10^8}{656.88nm}\\\\=4567\\times 10^{11}Hz"

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Answer to Question #148866 in Quantum Mechanics for mavin omondi

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