A magnet of magnetic moment 50 hat i, Am^2 is placed along the x- axis in a magnetic field vec B = (0.5hat i +

Q: A magnet of magnetic moment $50 \hat i\, Am^2$ is placed along the $x-$ axis in a magnetic field $\vec B = (0.5\hat i + 3.0\hat j)\,T$. The torque acting on the magnet is

b Magnetic field $\vec{B}=0.5 \hat{i}+3.0 \hat{j} T$ Magnetic moment $\mu=50 \hat{i} A m^{2}$ Torque on magnet $\tau$ $\tau=\mu \times \vec{B}=50 \hat{i} \times(0.5 \hat{i}+3.0 \hat{j})$ $\tau=150 \hat{k} N-m$ Hence, Torque experiences by the magnet present in the magnetic field, $\tau=$ $150 \hat{k} N-m$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A magnet of magnetic moment $50 \hat i\, Am^2$ is placed along the $x-$ axis in a magnetic field $\vec B = (0.5\hat i + 3.0\hat j)\,T$. The torque acting on the magnet is

A$175\, \hat k\, Nm$
B$150\, \hat k\, Nm$
C$75\, \hat i\, Nm$
D$25\sqrt {37} \hat k \,Nm$

Medium

STD 11 Science
NEET
STD 12 - 4. Moving charges and magnetism
Physics

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