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A proton, a deuteron and alpha particle having the same kinetic energy are moving in circular trajectories in a constant magnetic field. $r_p, r_d $ and $r_{\alpha}$ denote respectively the radii of the trajectories of these particles, then
A proton, a deuteron and alpha particle having the same kinetic energy are moving in circular trajectories in a constant magnetic field. $r_p, r_d $ and $r_{\alpha}$ denote respectively the radii of the trajectories of these particles, then
Updated On: Jun 14, 2022
- $r_{\alpha}=r_p < r_d$
- $r_{\alpha} >r_p < r_d$
- $r_{\alpha}=r_p > r_d$
- $r_p = r_d =r_{\alpha}$
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The Correct Option is A
Solution and Explanation
Radius of the circular path is given by
$\hspace15mm r=\frac{mv}{Bq}=\frac{\sqrt{2Km}}{Bq}$
Here, K is the kinetic energy to the particle.
Therefore,$r ?\frac{\sqrt{m}}{q}$ if K and 5 are same.
$\therefore \, \, \, \, \, \, \, \, \, r_p : r_d : r_{\alpha}=\frac{\sqrt{1}}{1} : \frac{\sqrt{2}}{1} : \frac{\sqrt{4}}{2}= 1 : \sqrt{2} : 1$
Hence, $\hspace15mm f_{\alpha}=r_p < r_d$
$\hspace15mm r=\frac{mv}{Bq}=\frac{\sqrt{2Km}}{Bq}$
Here, K is the kinetic energy to the particle.
Therefore,$r ?\frac{\sqrt{m}}{q}$ if K and 5 are same.
$\therefore \, \, \, \, \, \, \, \, \, r_p : r_d : r_{\alpha}=\frac{\sqrt{1}}{1} : \frac{\sqrt{2}}{1} : \frac{\sqrt{4}}{2}= 1 : \sqrt{2} : 1$
Hence, $\hspace15mm f_{\alpha}=r_p < r_d$
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