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Stationary `He^(o+)` ion emits a photon corresponding to the first line of the lyman series. The photon then emitted strikes a H atom in the ground state. Find the velocity of the photoelectron ejected out of the hydrogen atom. The value of `R` is `1.097 xx 10^(7)m^(-1)`

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The correct Answer is:
A, C
The difference in energy `(Delta E)` will be equal to the energy of the photon emitted
First line in Lyman series corresponds to the transition
`2 rarr 1`
` rArr Delta E = 2.18 xx 10^(-19)(2)^(2) ((1)/(1^(2)) - (1)/(2^(2))) 1 "atom"^(-1) `
`= 6.54 xx 10^(-19) J`
The photon of this much energy series a H atom in the ground state .Note the ionisation
Energy of H atom is `+ 2.18 xx 10^(-18) J` This will be the work function of H atom .Using the Einstein's photoelectric equation :
`KE = E - W = (1)/(mv^(2)`
`rArr v = sqrt((2(E_(1) - W))/(m))`
`rArr v = sqrt((2(6.54 xx 10^(-10) - 2.18 xx 10^(-19)))/(9.1 xx 10^(-23)))`
` rArr v= 3.09 xx 10^(6) m s^(-1)`
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