(A) $1$. For the hollow cylindrical conductor of radius $R$ carrying current $I$,the magnetic field $B_{cyl}$ inside $(r < R)$ is $0$ by Ampere's Law,

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(A) $1$. For the hollow cylindrical conductor of radius $R$ carrying current $I$,the magnetic field $B_{cyl}$ inside $(r R)$ it is $B_{cyl} = \frac{\mu_0 I}{2 \pi r}$ (tangential).$2$. For the infinite solenoid of radius $2R$ carrying current $I$,the magnetic field $B_{sol}$ inside $(r 2R)$ it is $0$.$3$. Region $0 $4$. Region $R $5$. Region $r > 2R$: $B_{cyl} = \frac{\mu_0 I}{2 \pi r}$ (tangential) and $B_{sol} = 0$. Thus,$B = \frac{\mu_0 I}{2 \pi r} \neq 0$. Statement $(D)$ is correct.$6$. Therefore,the correct statements are $(A)$ and $(D)$.

Class 12 Physics Moving Charges and Magnetism Ampere’s circuital law and its application (Solenoid and Toroid)

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$A$ steady current $I$ flows along an infinitely long hollow cylindrical conductor of radius $R$. This cylinder is placed coaxially inside an infinite solenoid of radius $2R$. The solenoid has $n$ turns per unit length and carries a steady current $I$. Consider a point $P$ at a distance $r$ from the common axis. The correct statement$(s)$ is (are) :
$(A)$ In the region $0 < r < R$,the magnetic field is non-zero.
$(B)$ In the region $R < r < 2R$,the magnetic field is along the common axis.
$(C)$ In the region $R < r < 2R$,the magnetic field is tangential to the circle of radius $r$,centered on the axis.
$(D)$ In the region $r > 2R$,the magnetic field is non-zero.

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A
$(A, D)$
B
$(B, D)$
C
$(B, C)$
D
$(A, C)$

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Moving Charges and Magnetism

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Ampere’s circuital law and its application (Solenoid and Toroid)

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$A$ uniform current is flowing along the length of an infinite,straight,thin,hollow cylinder of radius $R$. The magnetic field $B$ produced at a perpendicular distance $d$ from the axis of the cylinder is plotted in a graph. Which of the following figures looks like the plot?

EasyWBJEE 2018

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The magnetic flux near the axis and inside the air core solenoid of length $60 \, cm$ carrying current '$I$' is $1.57 \times 10^{-6} \, Wb$. Its magnetic moment will be $[\mu_0 = 4 \pi \times 10^{-7} \, SI \, unit$ and cross-sectional area is very small as compared to the length of the solenoid.] (in $Am^2$)

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The number of turns per unit length of a long solenoid is $10 \, \text{turns/cm}$. If its average radius is $5 \, \text{cm}$ and it carries a current of $10 \, \text{A}$, then the ratio of flux densities obtained at the centre and at the end on the axis will be:

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$A$ coaxial cable having radii $a, b$ and $c$ carries equal and opposite currents of magnitude $i$ in the inner and outer conductors. What is the magnitude of the magnetic induction at point $P$ outside of the cable at a distance $r$ from the axis?

Medium

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An infinitely long hollow conducting cylinder with inner radius $R/2$ and outer radius $R$ carries a uniform current density $J$ along its length. The magnitude of the magnetic field,$|\vec{B}|$ as a function of the radial distance $r$ from the axis is best represented by:

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$A$ uniform current is flowing along the length of an infinite,straight,thin,hollow cylinder of radius $R$. The magnetic field $B$ produced at a perpendicular distance $d$ from the axis of the cylinder is plotted in a graph. Which of the following figures looks like the plot?

The number of turns per unit length of a long solenoid is $10 \, \text{turns/cm}$. If its average radius is $5 \, \text{cm}$ and it carries a current of $10 \, \text{A}$, then the ratio of flux densities obtained at the centre and at the end on the axis will be:

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