Magnetism And Matter MCQs With Answers – Part 5 (Class 12 Physics)
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Magnetism and Matter MCQs with Answers – Part 5 (Class 12 Physics)

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411. At a place, Earth's total magnetic field is \(B_E=52\,\mu T\) and the angle of dip is \(30^\circ\). A short bar magnet of moment \(m=1.60\,A\,m^2\) is placed with \(\vec{m}\) opposite to Earth's horizontal field. Taking \(\frac{\mu_0}{4\pi}=10^{-7}\,T\,m\,A^{-1}\), the axial neutral-point distance is closest to
ⓐ. \(0.192\,m\)
ⓑ. \(0.154\,m\)
ⓒ. \(0.238\,m\)
ⓓ. \(0.308\,m\)
412. A \(250\)-turn circular coil of radius \(3.0\,cm\) carries current \(0.80\,A\). It is placed in a uniform magnetic field \(0.50\,T\). The maximum torque on the coil and the work required to rotate it slowly from \(\theta=0^\circ\) to \(\theta=90^\circ\) are respectively
ⓐ. \(0.090\pi\,N\,m\) and \(0.180\pi\,J\)
ⓑ. \(0.090\pi\,N\,m\) and \(0.090\pi\,J\)
ⓒ. \(0.045\pi\,N\,m\) and \(0.090\pi\,J\)
ⓓ. \(0.180\pi\,N\,m\) and \(0.090\pi\,J\)
413. A short magnetic dipole has moment \(m\). At an axial point \(0.30\,m\) from its centre, the field is \(B_0\). At an equatorial point \(0.15\,m\) from the same dipole, the magnetic field magnitude is
ⓐ. \(8B_0\)
ⓑ. \(2B_0\)
ⓒ. \(4B_0\)
ⓓ. \(16B_0\)
414. A magnetic material has \(\chi_m=0.40\), volume \(6.0\times10^{-5}\,m^3\), and is placed in a magnetising field \(H=2.5\times10^3\,A\,m^{-1}\). Taking \(\mu_0=4\pi\times10^{-7}\,T\,m\,A^{-1}\), the net magnetic moment and magnetic field \(B\) inside it are
ⓐ. \(1.5\times10^{-1}\,A\,m^2\) and \(14\pi\times10^{-4}\,T\)
ⓑ. \(6.0\times10^{-2}\,A\,m^2\) and \(10\pi\times10^{-4}\,T\)
ⓒ. \(6.0\times10^{-2}\,A\,m^2\) and \(14\pi\times10^{-4}\,T\)
ⓓ. \(2.4\times10^{-2}\,A\,m^2\) and \(14\pi\times10^{-4}\,T\)
415. A paramagnetic material obeys Curie's law. At \(300\,K\), its susceptibility is \(8.0\times10^{-4}\). The magnetising field is then doubled while the temperature is raised to \(600\,K\). Compared with the original magnetisation, the new magnetisation is
ⓐ. half as large
ⓑ. one-fourth as large
ⓒ. twice as large
ⓓ. the same
416. A ferromagnetic core of volume \(1.5\times10^{-3}\,m^3\) has hysteresis loop area \(40\,J\,m^{-3}\) per cycle at \(60\,Hz\). If the operating frequency is changed to \(50\,Hz\) and a new material has loop area \(24\,J\,m^{-3}\) per cycle with the same volume, the new hysteresis power loss is what fraction of the old one?
ⓐ. \(\frac{5}{6}\)
ⓑ. \(\frac{6}{5}\)
ⓒ. \(\frac{3}{5}\)
ⓓ. \(\frac{1}{2}\)
417. A short bar magnet has magnetic length \(2l=8.0\,cm\) and pole strength \(p_m=10\,A\,m\). It is placed with \(\vec{m}\parallel\vec{B}_H\), where \(B_H=4.0\times10^{-5}\,T\). Taking \(\frac{\mu_0}{4\pi}=10^{-7}\,T\,m\,A^{-1}\), the equatorial neutral distance is
ⓐ. \(0.200\,m\)
ⓑ. \(0.159\,m\)
ⓒ. \(0.126\,m\)
ⓓ. \(0.100\,m\)
418. A dipole of moment \(m=0.40\,A\,m^2\) is in a field \(B=0.50\,T\). It is rotated slowly from \(\theta=45^\circ\) to \(\theta=135^\circ\). The external work done is
ⓐ. \(0\)
ⓑ. \(0.40\sqrt{2}\,J\)
ⓒ. \(\frac{0.20}{\sqrt{2}}\,J\)
ⓓ. \(0.20\sqrt{2}\,J\)
419. At a place, \(B_H=36\,\mu T\) and \(\tan I=\frac{3}{4}\). A short magnet of moment \(m=1.0\,A\,m^2\) is placed with \(\vec{m}\) opposite to \(\vec{B}_H\). Taking \(\frac{\mu_0}{4\pi}=10^{-7}\,T\,m\,A^{-1}\), the total Earth field and axial neutral distance are respectively
ⓐ. \(60\,\mu T\) and \(0.177\,m\)
ⓑ. \(45\,\mu T\) and \(0.177\,m\)
ⓒ. \(48\,\mu T\) and \(0.177\,m\)
ⓓ. \(45\,\mu T\) and \(0.141\,m\)
420. A material has \(\chi_m=-2.0\times10^{-4}\), volume \(2.5\times10^{-4}\,m^3\), and is placed in \(H=3.0\times10^3\,A\,m^{-1}\). Its magnetisation, net magnetic moment, and relative permeability are respectively
ⓐ. \(-0.60\,A\,m^{-1}\), \(-1.5\times10^{-4}\,A\,m^2\), \(1.0002\)
ⓑ. \(-0.60\,A\,m^{-1}\), \(-1.5\times10^{-4}\,A\,m^2\), \(0.9998\)
ⓒ. \(+0.60\,A\,m^{-1}\), \(+1.5\times10^{-4}\,A\,m^2\), \(1.0002\)
ⓓ. \(+0.60\,A\,m^{-1}\), \(-1.5\times10^{-4}\,A\,m^2\), \(0.9998\)
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