An electron jumps from 3rd to 2nd orbit of hydrogen atom. Taking the Rydberg constant as `10^(7) m^(-1)`, what will be the frequency of the radiation emitted?

An electron jumps from 5th orbit to 4th orbit of hydrogen atom. Taking the Rydberg constant as 10^(7) per meter. What will be the frequency of radiation emitted ?

An electron jumps from the 4th orbit to the 2nd orbit of hydrogen atom. Given the Rydberg's constant R = 10^(5) cm^(-1) . The frequency in Hz of the emitted radiation will be

An electron jumps from the 4th orbit to the 1st orbit of hydrogen atom. Given the Rydberg's constant R=10^(5) cm^(-1) . The frequency in Hz of the emitted radiation will be

A sample of hydrogen gas in its ground state is irrdation with photon of 10.2eV energies The radiation from the above the sample is used to irradiate two other the sample of excited ionized He^(+) and excited ionized Li^(2+) , respectively . Both the ionized sample absorb the incident radiation. An electron jumps from the 4^(th) orbit to 2^(nd) orbit of hydrogen atom . .Given the Rydberg's constant r=10^(5)cm^(-1) , the frequency in hertz of the emitted radiation will be

An electron jumps from the 4th orbit to the 2nd orbit of hydrogen atom.Given : the Rydberg's constant R=10^(5)cm^-1 .The frequency in Hz of the emitted radiation will be

An electron jumps from the fourth orbit to the second orbit hydrogen atom. Given the Rydberg's constant R = 10^(7) cm^(-1) . The frequecny , in Hz , of the emitted radiation will be

An electron jumps from the 3rd orbit to the ground orbit in the hydrogen atom. If R_H= 10^7 /m then the frequency of the radiation emitted in the transition is

An electron is moving in 3rd orbit of Hydrogen atom . The frequency of moving electron is