(C) The total magnetic field $(B)$ inside a material is the sum of the magnetic field due to external current $(B_0 = \mu_0 H)$ and the magnetic field

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(C) The total magnetic field $(B)$ inside a material is the sum of the magnetic field due to external current $(B_0 = \mu_0 H)$ and the magnetic field due to magnetization $(B_m = \mu_0 M)$.$B = B_0 + B_m = \mu_0 H + \mu_0 M = \mu_0(H + M)$.Since the magnetization $(M)$ is related to the magnetic intensity $(H)$ by the susceptibility $(\chi)$ as $M = \chi H$,we substitute this into the equation:$B = \mu_0(H + \chi H) = \mu_0 H(1 + \chi)$.Rearranging this gives the ratio:$\frac{B}{H} = \mu_0(1 + \chi)$.

Class 12 Physics Magnetism and Matter Magnetization, Magnetic Induction Susceptibility

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The correct relation between total magnetic field $(B)$,magnetic intensity $(H)$,permeability of free space $(\mu_0)$ and susceptibility $(\chi)$ is

MHT CET 2024 All MHT CET

A
$\frac{B}{H}=\mu_0(1-\chi)$
B
$\frac{B}{H}=\mu_0(1+\chi)^2$
C
$\frac{B}{H}=\mu_0(1+\chi)$
D
$\frac{B}{H}=\mu_0(1-\chi)^2$

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Magnetism and Matter

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Magnetization, Magnetic Induction Susceptibility

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The magnetic susceptibility of the material of a rod is $499$. Permeability of vacuum is $4 \pi \times 10^{-7} \ H/m$. The absolute permeability of the material of the rod in $H/m$ is:

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The correct relation between total magnetic field $(B)$,magnetic intensity $(H)$,permeability of free space $(\mu_0)$ and susceptibility $(\chi)$ is

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The relative permeability of iron is $5500$. What will be its magnetic susceptibility?

At a temperature of $30\,^oC$,the susceptibility of a ferromagnetic material is found to be $\chi$. Its susceptibility at $333\,^oC$ is....$\chi$.

The magnetic moment produced in a sample of $2 \text{ g}$ is $8 \times 10^{-7} \text{ A} \cdot \text{m}^2$. If its density is $4 \text{ g/cm}^3$, then the magnetization of the sample is: (in $\text{ A/m}$)

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