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A long wire bent as shown in fig. carrie...

A long wire bent as shown in fig. carries current I. If the radius of the semicircular portion is a, the magnetic field at centre C is

A

`(mu_0I)/(4a)`

B

`(mu_0I)/(4pia)sqrt(pi^2+4)`

C

`(mu_0I)/(4a)+(mu_0I)/(4pia)`

D

`(mu_0I)/(4pia)sqrt((pi^2-4))`

Text Solution

Verified by Experts

The correct Answer is:
B
(b) `B_1=(mu_0)/(4pi)xx(2piI)/axx1/2 ("due to semicircular part")`
`B_2=(mu_0)/(4pi)xx(2I)/a ("due to parallel parts of currents")`
These two fields are at right angles to each other.
Hence, resultant field
`B=sqrt(B_1^2+B_2^2)=(mu_0I)/(4pia)sqrt(pi^2+4)`
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