Pick out the expression for magnetic field strength at any point at the center of a circular loop from the following?(a) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dlsin⁡90(b) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dl sin⁡45(c) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dl sin⁡30(d) B = [μo ×4πr]\( \int_0^{2\pi r} \)dlsin⁡90This question was addressed to me during an interview.My question is taken from Magnetic Field on the Axis of a Circular Current Loop in division Moving Charges and Magnetism of Physics – Class 12

Pick out the expression for magnetic field strength at any point at th

1.	Pick out the expression for magnetic field strength at any point at the center of a circular loop from the following?(a) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dlsin⁡90(b) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dl sin⁡45(c) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dl sin⁡30(d) B = [μo ×4πr]\( \int_0^{2\pi r} \)dlsin⁡90This question was addressed to me during an interview.My question is taken from Magnetic Field on the Axis of a Circular Current Loop in division Moving Charges and Magnetism of Physics – Class 12
Answer» The correct option is (a) B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dlsin⁡90 Best explanation: The magnetic field strength at any point at center of CIRCULAR LOOP carrying current I and radius r is given as: B = \( [ \frac {\mu_o I}{4 \pi r} ] \int_0^{2\pi r} \)dlsin⁡90 It can also be expressed as → B = \( [ \frac {\mu_o I}{4 \pi r} ] \) × 2πror B = \( [ \frac {\mu_o I}{2 r} ] \) DIRECTION. It is inwards if the current is FLOWING in the clockwise direction and it is onwards if the current is flowing in the anticlockwise direction.

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