The velocity of an electron in the second Bohr orbit of an element is `1.1 xx 10^(6) s^(-1)` Its velocity in the third orbit is

The velocity of an electron in the first Bohr orbit of hydrogen atom is 2.19 xx 10^(6)ms^(-1) . Its velocity in the second orbit would be

If the velocity of an electron in its first orbit of hydrogen atom is 2.1 xx10^(6) m/s, then its velocity in the third orbit is

The velocity of the electron in the first Bohr's orbit is 2.181xx10^(6) m//s . The linear velocity of electron in third orbit is

The angular velocity of an electron occupying the second Bohr orbit of He^(+) ion is ("in" sec^(-)) :

If the velocity of an electron in the first orbit of hydrogen atom is approximately 2.2xx10^(8) cm//s is velocity in the fourth orbit would be

Calculate the energy of an electron in the second Bohr's orbit of an excited hydrogen atom the energy of electron in the first Bohr orbit is -2.18 xx 10^(-11) erg

The speed of the electron in the first orbit is 2.182 xx 10^(6) m//s , the speed of electron in the third orbit is

The velocity of the electron is maximum in the Bohr's first orbit.