153977 Assertion (A) : Non- polar materials do not have any permanent dipole moment.
Reason (R) : When a non-polar material is placed in an electric field, the centre of the positive charge distribution of it's individual atom or molecule coincides with the centre of the negative charge distribution.
In the light of above statements, choose the most appropriate answer from the options given below.

153981 Assertion (A): It is more difficult to move a magnet into a coil with more loops
Reason ( $R$ ): This is because emf induced in each current loop resists the motion of the magnet

153984 What is the magnitude of the equatorial field due to a bar magnet of length $5.0 \mathrm{~cm}$ at a distance $75 \mathrm{~cm}$ from its mid point? The magnetic moment of the bar magnet is 0.75 $\mathbf{A m}^{2}$.

153985 Circular loop having radius $r$, carrying current I, produces magnetic field at the centre loop is B. What will be the magnetic dipole moment of this loop?

153977 Assertion (A) : Non- polar materials do not have any permanent dipole moment.
Reason (R) : When a non-polar material is placed in an electric field, the centre of the positive charge distribution of it's individual atom or molecule coincides with the centre of the negative charge distribution.
In the light of above statements, choose the most appropriate answer from the options given below.

153981 Assertion (A): It is more difficult to move a magnet into a coil with more loops
Reason ( $R$ ): This is because emf induced in each current loop resists the motion of the magnet

153984 What is the magnitude of the equatorial field due to a bar magnet of length $5.0 \mathrm{~cm}$ at a distance $75 \mathrm{~cm}$ from its mid point? The magnetic moment of the bar magnet is 0.75 $\mathbf{A m}^{2}$.

153985 Circular loop having radius $r$, carrying current I, produces magnetic field at the centre loop is B. What will be the magnetic dipole moment of this loop?

153977 Assertion (A) : Non- polar materials do not have any permanent dipole moment.
Reason (R) : When a non-polar material is placed in an electric field, the centre of the positive charge distribution of it's individual atom or molecule coincides with the centre of the negative charge distribution.
In the light of above statements, choose the most appropriate answer from the options given below.

153981 Assertion (A): It is more difficult to move a magnet into a coil with more loops
Reason ( $R$ ): This is because emf induced in each current loop resists the motion of the magnet

153984 What is the magnitude of the equatorial field due to a bar magnet of length $5.0 \mathrm{~cm}$ at a distance $75 \mathrm{~cm}$ from its mid point? The magnetic moment of the bar magnet is 0.75 $\mathbf{A m}^{2}$.

153985 Circular loop having radius $r$, carrying current I, produces magnetic field at the centre loop is B. What will be the magnetic dipole moment of this loop?

153977 Assertion (A) : Non- polar materials do not have any permanent dipole moment.
Reason (R) : When a non-polar material is placed in an electric field, the centre of the positive charge distribution of it's individual atom or molecule coincides with the centre of the negative charge distribution.
In the light of above statements, choose the most appropriate answer from the options given below.

153981 Assertion (A): It is more difficult to move a magnet into a coil with more loops
Reason ( $R$ ): This is because emf induced in each current loop resists the motion of the magnet

153984 What is the magnitude of the equatorial field due to a bar magnet of length $5.0 \mathrm{~cm}$ at a distance $75 \mathrm{~cm}$ from its mid point? The magnetic moment of the bar magnet is 0.75 $\mathbf{A m}^{2}$.

153985 Circular loop having radius $r$, carrying current I, produces magnetic field at the centre loop is B. What will be the magnetic dipole moment of this loop?