(B) The units for the given physical quantities are as follows:$1$. Magnetic field intensity $(H)$ is measured in $A \cdot m^{-1}$. Thus,$(A)-(iv)$.$2

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$(A)-(iv), (B)-(i), (C)-(iii), (D)-(ii)$

(B) The units for the given physical quantities are as follows:$1$. Magnetic field intensity $(H)$ is measured in $A \cdot m^{-1}$. Thus,$(A)-(iv)$.$2$. Magnetic flux $(\phi)$ is measured in Weber $(Wb)$. Thus,$(B)-(i)$.$3$. Magnetic pole strength $(m)$ is measured in Ampere-meter $(A \cdot m)$. Thus,$(C)-(iii)$.$4$. Magnetic induction $(B)$ is measured in $Wb \cdot m^{-2}$ (or Tesla). Thus,$(D)-(ii)$.Therefore,the correct matching is $(A)-(iv), (B)-(i), (C)-(iii), (D)-(ii)$.The correct option is $(B)$.

Class 12 Physics Magnetism and Matter Mix Examples-Magnetism and Matter

Medium

Some physical quantities are given in List-$I$ and their related units are given in List-$II$. Match the correct pairs.
List-$I$ List-$II$
$(A)$ Magnetic field intensity $(i)$ $Wb$
$(B)$ Magnetic flux (ii) $Wb \cdot m^{-2}$
$(C)$ Magnetic pole strength (iii) $A \cdot m$
$(D)$ Magnetic induction (iv) $A \cdot m^{-1}$

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A
$(A)-(i), (B)-(ii), (C)-(iii), (D)-(v)$
B
$(A)-(iv), (B)-(i), (C)-(iii), (D)-(ii)$
C
$(A)-(iv), (B)-(i), (C)-(v), (D)-(ii)$
D
$(A)-(ii), (B)-(iii), (C)-(i), (D)-(iv)$

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Mix Examples-Magnetism and Matter

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Two identical bar magnets are fixed with their centres at a distance $d$ apart. $A$ stationary charge $Q$ is placed at $P$ in between the gap of the two magnets at a distance $D$ from the center $O$ as shown in the figure.

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Many of the diagrams given in the figure show magnetic field lines (thick lines in the figure) wrongly. Point out what is wrong with them. Some of them may describe electrostatic field lines correctly. Point out which ones.

Medium

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Two short magnets of magnetic moment $1000 \, A m^2$ are placed as shown at the corners of a square of side $10 \, cm$. The net magnetic induction at $P$ is....$T$

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Assertion: We cannot think of a magnetic field configuration with three poles.
Reason: $A$ bar magnet does exert a torque on itself due to its own field.

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For a ferromagnetic material,the relative permeability $(\mu_r)$ versus magnetic intensity $(H)$ has the following shape:

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List-$I$	List-$II$
$(A)$ Magnetic field intensity	$(i)$ $Wb$
$(B)$ Magnetic flux	(ii) $Wb \cdot m^{-2}$
$(C)$ Magnetic pole strength	(iii) $A \cdot m$
$(D)$ Magnetic induction	(iv) $A \cdot m^{-1}$

Similar Questions

Two identical bar magnets are fixed with their centres at a distance $d$ apart. $A$ stationary charge $Q$ is placed at $P$ in between the gap of the two magnets at a distance $D$ from the center $O$ as shown in the figure.

Many of the diagrams given in the figure show magnetic field lines (thick lines in the figure) wrongly. Point out what is wrong with them. Some of them may describe electrostatic field lines correctly. Point out which ones.

Two short magnets of magnetic moment $1000 \, A m^2$ are placed as shown at the corners of a square of side $10 \, cm$. The net magnetic induction at $P$ is....$T$

Assertion: We cannot think of a magnetic field configuration with three poles.Reason: $A$ bar magnet does exert a torque on itself due to its own field.

For a ferromagnetic material,the relative permeability $(\mu_r)$ versus magnetic intensity $(H)$ has the following shape:

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Assertion: We cannot think of a magnetic field configuration with three poles.
Reason: $A$ bar magnet does exert a torque on itself due to its own field.