Calculate the magnetic field induction at the centre of a hydrogen atom caused by an electron moving along the first Bohrorbit.

Calculate the value of X if magnetic field strength at the centre of a hydrogen atom caused by an electron moving along the first Bohr orbits is (X)/(2)T .

Calcualte the value of X if magnetic field strength at the centre of a hydrogen atom caused by an electron moving along the first Bohr orbits is (x)/(2)T .

The magnetic fieold at the centre of a hydrogen atom due to the motion of the electron in the first Bohr orbit is B . The magnetic field at the centre due to the motion of the electron in the second Bohr orbit will be (B)/(2^(x)) Find value of x.

The magnetic fieold at the centre of a hydrogen atom due to the motion of the electron in the first Bohr orbit is B . The magnetic field at the centre due to the motion of the electron in the second Bohr orbit will be (B)/(2^(x)) Find value of x.

The magnetic fieold at the centre of a hydrogen atom due to the motion of the electron in the first Bohr orbit is B . The magnetic field at the centre due to the motion of the electron in the second Bohr orbit will be (B)/(2^(x)) Find value of x.

Magnetic field induction at the centre of a circular coil shown in the figure is

Calculate the magnetic field induction at the centre of a square shaped coil of side 10 cm, if it carries of current of 1A.

The magnetic field induction produced at the centre of orbit due to an electron revolving in n^(th) orbit of hydrogen atom is proportional to

The magnetic field induction produced at the centre of orbit due to an electron revolving in n^(th) orbit of hydrogen atom is proportional to

Find an expression fot the magneitc dipole moment and magnetic field induction at the centre of Bohr'r hypothetical hydrogen atom in the n th orbit of the electron in terms of universal constant.