The magnetic induction at the centre of ...

The magnetic induction at the centre of a current carrying circular coil of radius `10cm` is `5sqrt(5)` times the magnetic induction at a point on its axis. The distance of the point from the centre of the coild in `cm` is

0.1 m

0.2 m

0.05 m

0.25 m

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

MAGNETIC EFFECT OF ELECTRIC CURRENT
TARGET PUBLICATION|Exercise Evaluation Test|12 Videos
MAGNETIC EFFECT OF ELECTRIC CURRENT
TARGET PUBLICATION|Exercise Critical Thinking Introduction|38 Videos
FRICTION IS SOLIDS AND LIQUIDS
TARGET PUBLICATION|Exercise MCQ (EVALUATION TEST)|21 Videos
MAGNETISM
TARGET PUBLICATION|Exercise MCQs|150 Videos

Similar Questions

Explore conceptually related problems

The magnetic field at the centre of a current - carrying loop of radius 0.1m is 5^(3/2) times that at a point along its axis.What is the distance (in m ) of this point from the centre of the loop

A circular coil of radius 5 cm has 169 turns carries a current of 2.6 A . The magnetic induction at a point on the axis at a distance of 12 cm from the centre of the coil is

The intensity of magnetic induction at the centre of a current - carrying circular coil is B_(1) and at a point on its axis at a distance equal to its radius from the centre is B_(2) , then B_(1)//B_(2) is

The magnetic field B due to a current carrying circular loop of radius 12cm at its centre is 0.5xx10^-4T . Find the magnetic field due to this loop at a point on the axis at a distance of 5.0cm from the centre.

The magnetic field due to a current-carrying circular loop of radius 10cm at its centre is 0*60xx10^-4T . Find the magnetic field due to this loop at a point on the axis at a distance of 4cm from the centre.

The magnetic field B due to a current- carrying circular loop of radius 12cm at its center is 0.50 xx (10^-4) T . Find the magnetic field due to this loop at a point on the axis at a distance of 5.0 cm from the centre.

At very close point on the axis of a current carrying circular coil (xltltltR) of radius 'R', the value of magnetic field decreses by a fraction of 5% with respect to centre value. The position of the point from the centre of the coil is :-

TARGET PUBLICATION-MAGNETIC EFFECT OF ELECTRIC CURRENT -Competitive Thinking Introduction

Magnetic field due to a ring having n turns at a distance x on its axi...
Text Solution
|
The magnetic field due to a current carrying circular loop of radius 3...
Text Solution
|
The magnetic induction at the centre of a current carrying circular co...
Text Solution
|
A circular coil of radius R carries a current i. The magnetic field at...
Text Solution
|
Magnetic fields at two points on the axis of a circular coil at a dist...
Text Solution
|
If a proton is projected in a direction perpendicular to a uniform mag...
Text Solution
|
A charged particle moving with velocity vis subjected to electric fiel...
Text Solution
|
A charged particle is moved along a magnetic field line. The magnetic ...
Text Solution
|
A particle of mass 'm' and charge 'q' is incident on XZ plane with vel...
Text Solution
|
A charged particle is released from rest in a region of steady and uni...
Text Solution
|
A positively charged particle projected towards east is deflected towa...
Text Solution
|
A loop of flexible conducting wire lies in a magnetic field of 2.0 T w...
Text Solution
|
If a particle of charge 10^(-12) coulomb moving along thehat(x)-direct...
Text Solution
|
A proton is moving perpendicular to a uniform magnetic field of 2.5 te...
Text Solution
|
A current of 5 ampere is flowing in a wire of length 1.5 metres. A for...
Text Solution
|
A conductor in the form of a right angle ABC with AB=3 cm and BC = 4 c...
Text Solution
|
1 Tesla =
Text Solution
|
A particle of charge q moves with a velocity vecv = ahati in a magneti...
Text Solution
|
The electron in the beam of a television tube move horizontally from s...
Text Solution
|
A vertical wire carrying a current in the upward direction is placed i...
Text Solution
|