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An electron of mass m and magnitude of change |e| initially at rest gets accelerated by a constant electric field E. The rate of change of de-Broglie wavelelength of this electron at time ti ignoring relativistic effects is :

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The correct Answer is:
`(-h)/(inEt^(2))`
`lambda_("de-brogile")=(h)/sqrt(2mK)=h/(mv)`
`v=u+at=0+((e E)/m)timplies lambda=h/(e Et)`
`implies (d lambda)/(dt)=-(h)/(e Et^(2))`
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