If the electron in a Hydrogen atom makes `6.25xx10^(15)` revolutions in one second, the current is

In hydrogen atom, the electron makes 6.6 xx 10^(15) revolutions per second around the nucleus in an orbit of radius 0.5 xx 10^(-10)m . It is equivalent to a current nearly

In hydrogen atom, the electron makes 6.6 xx 10^(15) revolutions per second around the nucleus in an orbit of radius 0.5 xx 10^(-10)m . It is equivalent to a current nearly

In hydrogen atom, the electron makes 6.6 xx 10^(15) revolutions per second around the nucleus in an orbit of radius 0.5 xx 10^(-10)m . It is equivalent to a current nearly

An electron revolves aroung a nucleus in a circular orbit of radius 0.60Å . Find the equivalent electric current in the orbit if it completes 5.4 xx10^(15) revolutions in one second. Given charge on electrons is 1.6 xx10^(-19)C .

The period of revolution of the electron in the third orbit in a hydrogen atom is 4.132 xx 10^(-15) s . Hence find the period in the 5th Bohr orbit.

According to Bohr's theory, the ratio of the times taken by the electron in a hydrogen atom to complete one revolution in orbits corresponding to ground and first excited states is

In a hydrogen atom, the electron makes about 0.6xx10^(16) revolutions per second around the nucleus. Determine the average current at any point on the orbit of the electron.

In a hydrogen atom the electron moves in an orbit of radius 0.5 Ao making 10 revolutions per second, the magnetic moment associated with the orbital motion of the electron will be

The frequency of revolution of electrons of electron in its orbit arount some nucleus is 3xx10^(15) revolutions per seconds . If we consider the motion of electron as one loop of current , what should be the magnitude of equivalent electric current ?