Deduce the expression for the magnetic d...

Deduce the expression for the magnetic dipole moment of an electron orbiting around the central nucleus.

Both 'A' and 'R' are true and 'R' is the correct explanation of 'A'.

Both 'A' and 'R' are true and 'R' is not the correct explanation of 'A'

'A' is true and 'R' is false

'A' is false and 'R' is false

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

MOVING CHARGES AND MAGNETISM
AAKASH SERIES|Exercise EXERCISE-II|79 Videos
MOVING CHARGES AND MAGNETISM
AAKASH SERIES|Exercise EXERCISE-III|49 Videos
MOVING CHARGES AND MAGNETISM
AAKASH SERIES|Exercise EXERCISE-IA|142 Videos
MOTION IN A STRAIGHT LINE
AAKASH SERIES|Exercise very Short answer type question|15 Videos
NUCLEAR PHYSICS
AAKASH SERIES|Exercise ADDITIONAL PRACTICE PRACTICE SHEET (ADVANCED) Integer Type Questions|3 Videos

Similar Questions

Explore conceptually related problems

Deduce an expression for the magnetic dipole moment of an electron orbiting around the central nucleus.

Unit of magnetic dipole moment is

Derive an expression for the magnetic moment (vec mu) of an electron revolving around the nucleus in termsof its angular momentum (vecl) . What is the direction of the magnetic moment of the electron with respect to its angular momentum?

The minimum magnetic dipole moment of electron in hydrogen atom is

Magnetic dipole moment of rectangular loop is

The electric dipole moment of an electron and a proton 4.3 nm apart, is

Find an expression for the magnetic dipole moment and magnetic field induction at the center of Bohr's hypothetical hydrogen atom in the nth orbit of the electron in terms of universal constant.

The ratio of magnetic dipole moment to angular momentum of electron is

Magnetic moment of an electron in nth orbit of hydrogen atom is

AAKASH SERIES-MOVING CHARGES AND MAGNETISM-EXERCISE-IB

(A) : A current carrying circular loop, free to turn, when placed in a...
Text Solution
|
Ampere's circuital law is given by
Text Solution
|
Deduce the expression for the magnetic dipole moment of an electron or...
Text Solution
|
(A) : The microscopic roots of magnetism can be traced back to intrins...
Text Solution
|
(A) : The magnetic field at the centre of a circular coil carrying cur...
Text Solution
|
A long solonoid carrying a current produces a magnetic field along its...
Text Solution
|
(A) : The magnetic field at the centre of a circular coil carrying cur...
Text Solution
|
Ratio of magnetic dipole moment to the angular momentum for hydrogen l...
Text Solution
|
Assertion: When radius of circular loop carrying current is doubled, i...
Text Solution
|
Assertion : A planar circular loop of area A and carrying current I is...
Text Solution
|
Assertion : A charged particle can be accelerated in a cyclotron by th...
Text Solution
|
Magnetic induction at a point due to a small element of current carryi...
Text Solution
|
A current I flows along an inflinitely long straight thin walled tube....
Text Solution
|
(A) : Ampere's law holds for steady currents in straight conductor whi...
Text Solution
|
(A) : A spark occur between the poles of a switch when the switch is o...
Text Solution
|
STATEMENT-1: In electric circuits, wires carrying currents in opposite...
Text Solution
|
Assertion : Two parallel conducting wires carrying currents in opposit...
Text Solution
|
(A) : Torque on the coil is always maximum, when coil is suspended in ...
Text Solution
|
(A) : In case of M.C.G the torque on the coil is maximum in any positi...
Text Solution
|
Assertion : Earth's magnetic field does not affect the working of a mo...
Text Solution
|