A) \[\frac{{{\mu }_{0}}i}{r}\left( {{r}_{1}}+{{r}_{2}} \right)\]
B) \[\frac{{{\mu }_{0}}i}{4}\left( {{r}_{1}}-{{r}_{2}} \right)\]
C) \[\frac{{{\mu }_{0}}i}{4}\left( \frac{{{r}_{1}}+{{r}_{2}}}{{{r}_{1}}{{r}_{2}}} \right)\]
D) \[\frac{{{\mu }_{0}}i}{4}\left( \frac{{{r}_{2}}+{{r}_{1}}}{{{r}_{1}}{{r}_{2}}} \right)\]
Correct Answer: C
Solution :
The magnetic induction due to both semicircular parts will be in the same direction perpendicular to the paper and inwards. \[B={{B}_{1}}+{{B}_{2}}=\frac{{{\mu }_{0}}i}{4{{r}_{1}}}+\frac{{{\mu }_{0}}i}{4{{r}_{2}}}+\frac{{{\mu }_{0}}i}{4}\left( \frac{{{r}_{1}}+{{r}_{2}}}{{{r}_{1}}{{r}_{2}}} \right)\otimes \]You need to login to perform this action.
You will be redirected in
3 sec