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A voltage applied to an X-ray tube bein...

A voltage applied to an X-ray tube being increased `eta = 1.5` times, the short wave limit of an x-ray continuous spectrum shifts by `Delta lambda= 26 `pm`.` Find the initial voltage applied to the tube.

Text Solution

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The maximum energy given to X-ray photon is given by
`hv_(max)=eV`
where V=voltage applied to X-ray tube
`v_(max)=(eV)/(h)`
we know that `v_(max)=(c)/(lamda_(min))`or ` l_(min)=(c)/(v_(max))`
`lamda_(min)=(ch)/(eV)`
Here, `lamda-1=(ch)/(eV)` and `lamda_2=(ch)/(eV_2)`
or `(ch)/(e)[(1)/(V_2)-(1)/(V-1)]=lamda_2-lamda_1=trianglelamda=26xx10^-12`
or `(ch)/(e)[(2)/(3V_1)-(1)/(V_1)]=26xx10^-12` `(V_2=1.5V_1)`
Solving for `V_1`, we get `V_1=16000V` or `16kV`
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