The ratio between acceleration of the electron in singley ionized helium atom and duby ionized lithium aomt (both in ground state) is (x/27). Find value of n.

The ratio of the acceleration of the ground state electron in a singly ionized helium atom and doubly ionized lith ium atom is (x)/(y) . Find (x+y) .

What is the ratio between the total acceleration of the electron in singly ionized helium atom and a hydrogen atom, when both are in ground state?

The longest wavelength that the singly ionized helium atom in its ground state will obsorb is

The magnitude of acceleration of the electron in the n^(th) orbit of hydrogen atom is a_(H) and that of singly ionized helium atom is a_(He) . The ratio a_(H):a_(He) is

Hydrogen (H) , deuterium (D) , singly ionized helium (He^(+)) and doubly ionized lithium (Li) all have one electron around the nucleus. Consider n = 2 to n = 1 transition. The wavelength of emitted radiations are lambda_(1), lambda_(2), lambda_(3) and lambda_(4) respectively. then approximately

Determine the maximum wavelength of incident radiation that can be used to remove tha remaining electron from a singly ionized helium atom He^(+)(Z=2) . Assume the electron is in its ground state

Hydrogen (H), deuterium (D), singly ionized helium ( He^(+) ) and doubly ionized lithium (Li^(++)) all have one electron around the nucleus. Consider n = 2 to n = 1 transition. The wavelengths of emitted radiations are lamda_(1), lamda_(2) lamda_(3) and lamda_(4) respectively. Then approximately