(D) The relationship between magnetic induction $B$,magnetic field intensity $H$,and relative permeability $\mu_r$ is given by $B = \mu H = \mu_r \mu_

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(D) The relationship between magnetic induction $B$,magnetic field intensity $H$,and relative permeability $\mu_r$ is given by $B = \mu H = \mu_r \mu_0 H$.Here,$B = 1 \ Wb \ m^{-2}$ and $H = 150 \ A \ m^{-1}$.Rearranging the formula to solve for $\mu_r$:$\mu_r = \frac{B}{\mu_0 H}$Substituting the given values:$\mu_r = \frac{1}{(4 \pi \times 10^{-7}) \times 150}$$\mu_r = \frac{1}{600 \pi \times 10^{-7}}$$\mu_r = \frac{10^7}{600 \pi} = \frac{10^5}{6 \pi}$.

Class 12 Physics Magnetism and Matter Magnetization, Magnetic Induction Susceptibility

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The magnetic induction and the intensity of the magnetic field inside an iron core of an electromagnet are $1 \ Wb \ m^{-2}$ and $150 \ A \ m^{-1}$,respectively. The relative permeability of iron is $(\mu_0 = 4 \pi \times 10^{-7} \ H \ m^{-1})$.

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A
$\frac{10^6}{4 \pi}$
B
$\frac{10^6}{6 \pi}$
C
$\frac{10^5}{4 \pi}$
D
$\frac{10^5}{6 \pi}$

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The magnetic induction and the intensity of the magnetic field inside an iron core of an electromagnet are $1 \ Wb \ m^{-2}$ and $150 \ A \ m^{-1}$,respectively. The relative permeability of iron is $(\mu_0 = 4 \pi \times 10^{-7} \ H \ m^{-1})$.

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