(A) The magnetic moment $\vec{P}_m$ of a current-carrying loop is given by $\vec{P}_m = I_2 \vec{A}$,where $\vec{A}$ is the area vector.For a square l

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

The magnetic moment of the loop is $\vec{P}_m = l^2 I_2 \hat{k}$

(A) The magnetic moment $\vec{P}_m$ of a current-carrying loop is given by $\vec{P}_m = I_2 \vec{A}$,where $\vec{A}$ is the area vector.For a square loop of side $l$ in the $xy$-plane,the area vector is $\vec{A} = l^2 \hat{k}$ (assuming the current $I_2$ flows in the counter-clockwise direction as per the right-hand rule).Thus,the magnetic moment is $\vec{P}_m = I_2 l^2 \hat{k}$.Comparing this with the given options,option $A$ is correct.

Class 12 Physics Moving Charges and Magnetism Magnetic Moment of Current Carrying Coil

Medium

$A$ square loop of side $l$ is placed in the neighbourhood of an infinitely long straight wire carrying a current $I_1$. The loop carries a current $I_2$ as shown in the figure.

A
The magnetic moment of the loop is $\vec{P}_m = l^2 I_2 \hat{k}$
B
The magnetic moment of the loop is $\vec{P}_m = l^2 I_1 \hat{k}$
C
The potential energy of the loop is minimum
D
The torque experienced by the loop is maximum

Explore More

Browse All

Question Bank

All Subjects

Class 12 Questions

Class 12

Physics Questions

Chapter

Moving Charges and Magnetism

Subtopic

Magnetic Moment of Current Carrying Coil

If a current of $15 \,A$ passes through a solenoid of length $25 \,cm$,radius $2 \,cm$ and number of turns $500$,then the magnetic moment of the solenoid is

MediumAP EAMCET 2025

View Solution

$A$ wire of length $L$ metre carrying a current of $I$ ampere is bent in the form of a circle. Its magnetic moment is:

MediumNEET 2020

View Solution

$A$ spherical shell of radius $R$ carries a uniformly distributed charge $Q$ and is rotated about its diameter with angular speed $\omega$. Find its magnetic moment.

Medium

View Solution

An electron in a circular orbit of radius $0.05 \,nm$ performs $10^{16}$ revolutions per second. What is the magnetic moment due to the rotation of the electron? $(e = 1.6 \times 10^{-19} \,C)$

EasyMHT CET 2021

View Solution

$A$ rod of length $l$ having uniformly distributed charge $Q$ is rotated about one end with constant frequency $f$. Its magnetic moment is:

Difficult

View Solution

Vedclass Products

For Students

Vedclass Test Series

Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.

Start Free Trial

For Teachers

Exam Paper Generator

Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.

Try Free

For Institutes

Online Exam Module

Live online exams with unlimited students, 360° analytics & white-label branding.

See Demo

$A$ square loop of side $l$ is placed in the neighbourhood of an infinitely long straight wire carrying a current $I_1$. The loop carries a current $I_2$ as shown in the figure.

Similar Questions

If a current of $15 \,A$ passes through a solenoid of length $25 \,cm$,radius $2 \,cm$ and number of turns $500$,then the magnetic moment of the solenoid is

$A$ wire of length $L$ metre carrying a current of $I$ ampere is bent in the form of a circle. Its magnetic moment is:

$A$ spherical shell of radius $R$ carries a uniformly distributed charge $Q$ and is rotated about its diameter with angular speed $\omega$. Find its magnetic moment.

An electron in a circular orbit of radius $0.05 \,nm$ performs $10^{16}$ revolutions per second. What is the magnetic moment due to the rotation of the electron? $(e = 1.6 \times 10^{-19} \,C)$

$A$ rod of length $l$ having uniformly distributed charge $Q$ is rotated about one end with constant frequency $f$. Its magnetic moment is:

Vedclass Test Series

Exam Paper Generator

Online Exam Module