An electron moving in a circular orbit of radius r makes n rotations per second. The magnetic field produced at the centre has magnitude

Q: An electron moving in a circular orbit of radius $r$ makes $n$ rotations per second. The magnetic field produced at the centre has magnitude

d Current in the orbit, $I=\frac{e}{T}$ $I=\frac{e}{(2 \pi / \omega)}=\frac{\omega e}{2 \pi}=\frac{(2 \pi n) e}{2 \pi}=n e$ Magnetic field at centre of current carrying circular coil is given by $B=\frac{\mu_{0} I}{2 r}=\frac{\mu_{0} n e}{2 r}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

An electron moving in a circular orbit of radius $r$ makes $n$ rotations per second. The magnetic field produced at the centre has magnitude

A$\;\frac{{{\mu _0}ne}}{{2\pi r}}$
B
zero
C$\;\frac{{{\mu _0}{n^2}e}}{r}$
D$\;\frac{{{\mu _0}ne}}{{2r}}$

AIPMT 2015, Medium

STD 11 Science
NEET
STD 12 - 4. Moving charges and magnetism
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
A wire of length $L$ is bent in the form of a circular coil and current $i$ is passed through it. If this coil is placed in a magnetic field then the torque acting on the coil will be maximum when the number of turns is
View Solution
2
A galvanometer has a coil of resistance $100\, ohm$ and gives a full scale deflection for $30\, mA$ current. If it is to work as a voltmeter of $30\, volt$ range, the resistance required to be added will be.....$Ω$
View Solution
3
“On flowing current in a conducting wire the magnetic field produces around it.” It is a law of
View Solution
4
A horizontal rod of mass $10\, gm$ and length $10\, cm$ is placed on a smooth plane inclined at an angle of $60^\circ $ with the horizontal, with the length of the rod parallel to the edge of the inclined plane. A uniform magnetic field of induction $B$ is applied vertically downwards. If the current through the rod is $1.73$ $ampere$, then the value of $B$ for which the rod remains stationary on the inclined plane is......$Tesla$
View Solution
5
A wire length $2\,m$ carrying a current of $1\,A$ is bent to form a circle. The magnetic moment of the coil is
View Solution
6
A current of $1.5\, {A}$ is flowing through a triangle, of side $9\, {cm}$ each. The magnetic field at the centroid of the triangle is

(Assume that the current is flowing in the clockwise direction.)
View Solution
7
A loop in form of four connected semi-circular wires carrying current $I$ lies in the $x-y$ plane as shown in the figure. The unit vector $\hat k$ is coming out of the plane of the paper. The magnetic moment of the current loop is
View Solution
8
A particle of charge per unit mass $\alpha$ is released from origin with a velocity $\bar{v}=v_0 \vec{i}$ in a uniform magnetic field $\bar{B}=-B_0 \hat{k}$. If the particle passes through $(0, y, 0)$ then $y$ is equal to
View Solution
9
What is the magnitude of magnetic force per unit length on a wire carrying a current of $8\,A$ and making an angle of $30^o$ with the direction of a uniform magnetic field of $0.15\, T$ ?.....$Nm^{-1}$
View Solution
10
Consider the magnetic field produced by a finitely long current carrying wire.
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free