In bohr's orbit, `(nH)/(2pi)` indicates-

Calculate the velocity of an electron in the first Bohr obit. Also calculate the de Broglie wavelength (in 'm') of the electron. Find the orbital angular momentum (in (h)/(2pi) units) of 3p orbital of hydrogen atom.

To energise an electron from 1st Bohr orbit to the 3rd Bohr orbit for Li^(2+) ion, what is the required energy?

What is the ratio of diameter of first Bohr's orbit in He^+ and H atom?

The velocity of an electron in a certain Bohr's orbit of H atom bears the ratio 1:275 to the velocity of light then find the quantum number (n)of orbit

The ratio of the difference in energy of electron between the first and second Bohr's orbit to that between second and third Bohr's orbit is:

Determine the frequency of revolution of the electron in 2nd Bohr's orbit in hydrogen atom.

if rahe radius of the first Bohr orbit is x, then find the de Broglie wavelength of electron in third orbit.

The energy of an electron moving in nth bohr's orbit of an element is given by E_n=-13.6/(n^2)Z^2 ev/atom (Z=atomic number) The graph of E vs Z^2 will be

According to Bohr's theory mention the expressions of the following parameters for hydrogen atom: (i) radius of Bohr orbit, (ii) velocity of electron , (iii) orbital frequency of electron, (iv) angular momentum of electron, (v) kinetic energy of electron (iv) potential energy of electron.

The ratio of potential energy and total energy of an electron in a bohr orbit of hydrogen like species is :