(A) The magnetic field on the axis of a circular current loop at a distance $y$ is given by $B_y = \frac{\mu_0 I r^2}{2(y^2 + r^2)^{3/2}}$.For $y \gg

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$\frac{\mu_0 \pi r^3 n \sigma}{y^3}$

(A) The magnetic field on the axis of a circular current loop at a distance $y$ is given by $B_y = \frac{\mu_0 I r^2}{2(y^2 + r^2)^{3/2}}$.For $y \gg r$,this simplifies to $B_y \approx \frac{\mu_0 I r^2}{2y^3}$.The current $I$ produced by the rotating charged rod is $I = \frac{q}{T} = qn$,where $q = \sigma(2 \pi r)$.Thus,$I = \sigma(2 \pi r)n$.Substituting $I$ into the magnetic field formula:$B_y = \frac{\mu_0 (\sigma 2 \pi r n) r^2}{2y^3} = \frac{\mu_0 \sigma \pi r^3 n}{y^3}$.

Class 12 Physics Moving Charges and Magnetism Biot-Savart's Law and its application

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$A$ thin rod is bent in the shape of a small circle of radius $r$. If the charge per unit length of the rod is $\sigma$,and if the circle is rotated about its axis at the rate of $n$ rotations per second,the magnetic induction at a point on the axis at a large distance $y$ from the centre is

A
$\frac{\mu_0 \pi r^3 n \sigma}{y^3}$
B
$\frac{2 \mu_0 \pi r^3 n \sigma}{y^3}$
C
$\left( \frac{\mu_0}{4 \pi} \right) \frac{r^3 n \sigma}{y^3}$
D
$\left( \frac{\mu_0}{2 \pi} \right) \frac{r^3 n \sigma}{y^3}$

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Moving Charges and Magnetism

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Biot-Savart's Law and its application

$A$ current $I$ flows around a closed path in the horizontal plane as shown in the figure. The path consists of eight arcs with alternating radii $r$ and $2r$. Each segment of arc subtends an equal angle at the common centre $P$. The magnetic field produced by the current path at point $P$ is

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Two infinitely long wires carry currents $4 \text{ A}$ and $3 \text{ A}$ placed along the $X$-axis and $Y$-axis respectively. The magnetic field at a point $P(0, 0, d) \text{ m}$ will be ...... $\text{T}$.

EasyAP EAMCET 2018

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$A$ long straight wire carries a current of $\pi \, A$. The magnetic field due to it will be $5 \times 10^{-5} \, Wb/m^2$ at what distance from the wire? $[\mu_0 = \text{permeability of free space}]$

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The magnetic induction at a point $P$ which is distant $4 \, cm$ from a long current-carrying wire is $10^{-8} \, T$. The magnetic field induction at a distance $12 \, cm$ from the same current would be:

EasyAIPMT 1990

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$A$ circular coil is in the $y-z$ plane with its centre at the origin. The coil carries a constant current. Assuming the direction of the magnetic field at $x = -25 \, cm$ to be the positive direction of the magnetic field,which of the following graphs shows the variation of the magnetic field along the $x-$ axis?

Medium

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$A$ thin rod is bent in the shape of a small circle of radius $r$. If the charge per unit length of the rod is $\sigma$,and if the circle is rotated about its axis at the rate of $n$ rotations per second,the magnetic induction at a point on the axis at a large distance $y$ from the centre is

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$A$ current $I$ flows around a closed path in the horizontal plane as shown in the figure. The path consists of eight arcs with alternating radii $r$ and $2r$. Each segment of arc subtends an equal angle at the common centre $P$. The magnetic field produced by the current path at point $P$ is

Two infinitely long wires carry currents $4 \text{ A}$ and $3 \text{ A}$ placed along the $X$-axis and $Y$-axis respectively. The magnetic field at a point $P(0, 0, d) \text{ m}$ will be ...... $\text{T}$.

$A$ long straight wire carries a current of $\pi \, A$. The magnetic field due to it will be $5 \times 10^{-5} \, Wb/m^2$ at what distance from the wire? $[\mu_0 = \text{permeability of free space}]$

The magnetic induction at a point $P$ which is distant $4 \, cm$ from a long current-carrying wire is $10^{-8} \, T$. The magnetic field induction at a distance $12 \, cm$ from the same current would be:

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