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The region between $y=0$ and $y=\mathrm{d}$ contains a magnetic field $\overrightarrow{\mathrm{B}}=\mathrm{B} \hat{\mathrm{z}}$. A particle of mass $\mathrm{m}$ and charge $\mathrm{q}$ enters
the region with a velocity $\vec{v}=v \hat{i} .$ if $\mathrm{d}=\frac{\mathrm{m} v}{2 \mathrm{qB}},$ the acceleration of the charged particle at the point of its emergence at the other side is :
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the region with a velocity $\vec{v}=v \hat{i} .$ if $\mathrm{d}=\frac{\mathrm{m} v}{2 \mathrm{qB}},$ the acceleration of the charged particle at the point of its emergence at the other side is :
Solution:
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Verified Answer
The correct answer is:
None of the above
Assuming particle enters from $(0, \mathrm{~d})$
$r=\frac{m v}{q B}, \quad d=\frac{r}{2}$
$a=\frac{q V B}{m}\left[\frac{-\sqrt{3} i-j}{2}\right]$
this option is not given in the all above four choices.
$r=\frac{m v}{q B}, \quad d=\frac{r}{2}$
$a=\frac{q V B}{m}\left[\frac{-\sqrt{3} i-j}{2}\right]$
this option is not given in the all above four choices.
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