The enegry level diagram for an hydrogen-like atom is shown in the figure. The radius of its first Bohr orbit is

The radius of the first Bohr orbit for H^(o+) is

The energy level excitation potential of a hydrogen -like atom is shown in Figure a Find the value of Z b If initially the atom is in the ground state ,then (i) determine its excitation potential, and m (ii) determine its ionization potential. c Can it absorbe a photom of 42 eV ? d Can it absorbe a photom of 56 eV ? e Calculate the radius of its first Bohr orbit. f Calculate the kinectic and potential energy of an electron in the first orbit.

In Bohr's theory for hydrogen -like atoms

When hydrogen atom is in its first excited level, its radius is

The ratio of radius of second orbit of hydrogen to the radius of its first orbit is :

A mu-meson ("charge -e , mass = 207 m, where m is mass of electron") can be captured by a proton to form a hydrogen - like ''mesic'' atom. Calculate the radius of the first Bohr orbit , the binding energy and the wavelength of the line in the Lyman series for such an atom. The mass of the proton is 1836 times the mass of the electron. The radius of the first Bohr orbit and the binding energy of hydrogen are 0.529 Å and 13.6 e V , repectively. Take R = 1.67 xx 109678 cm^(-1)

If the radius of the second Bohr of hydrogen atom is r_(2) the radius of the third Bohr orbit will be

Which hydrogen -like species will have the same r adius as that of Bohr orbit of hydrogen atom ?

Which hydrogen -like species will have the same r adius as that of Bohr orbit of hydrogen atom ?

In Bohr's model, the atomic radius of the first orbit of Hydrogen atom is r_(0) then the radius of the third orbit is