Calculate the period of revolution of an electron revolving in the first orbit of hydrogen atom. Given radius of first orbit `= 0.53 Å` and `c = 3 xx 10^(8) " ms"^(-1)`

The energy of an electron revolving in the first orbit of hydrogen atom is

Calculate the frequency of revolution of electron in the first Bohr orbit of hydrogen atom, if radius of first Bohr orbit is 0.5Å and velocity of electron in the first orbit is 2.24xx10^6m//s .

Calculate the velocity of an electron in Bhor's first orbit of hydrogen atom. (Given r=0.53 xx 10^(-10)m )

Calculate the orbital period of the electron in the first excited state of hydrogen atom.

Calculate the frequency of rtevolution of electron in the first Bohr orbit of hydrogen atom,if the radius of the first Bohr orbit is 0.5 overset @A and the velocity of electron in the first orbit is 2.24 xx 10^6 m s^(-1) .

On the basis of Bohr's theory, calculate the velocity and time period of revolution of the electron in the innermost orbit (n = 1) of the hydrogen atom. Given : Bohr's Radius (r_(1)) = 0.53 Å . Data: n=1, r_(1)=0.53, Å=0.53xx 10^(-10) m, v= ?, T=?

Calculate the frequency of revolution of the electron in this second Bohr orbit of the hydrogen atom. The radius of the orbit is 2.14 Å and the speed of the electron in the orbit is 1.09 xx 10^(6) m//s .

Radius of first orbit of hydrogen is 0.53 Å . The radius in fourth orbit is: