when an electron jumps from the fourth orbit to the second orbit, one gets the

The wavelength of the radiation emitted with an electron jumps from the fourth orbit to the second orbit in an hydrogen atom is 20.36 cm. what is the wavelength of radiation emitted for the same transition in He^+ ?

When an electron jumps from higher orbit to the second orbit in hydrogen, the radiation emitted out will be in (R=1.09xx10^(7)m^(-1))

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

When an electron jumps from higher orbit to the second orbit in He^(+) ion,the radiation emitted out will be in (R=1.09times10^(7)m^(-1))

A) electron jumps from the fourth orbit to the second orbit in Be^(3+) ion,its A) K .E.increases B) speed increases C) frequency of revolution increases D) P.E.decreases

The wavelength of radiation emitted is lambda_(0) when an electron jumps from the third to the second orbit of hydrogen atom. For the electron jump from the fourth to the second orbit of hydrogen atom, the wavelength of radiation emitted will be

In Bohr's model of hydrogen atom, an electron jumps from the fifth orbit to the second orbit . Which line of the Balmer series is produced in this transition ?

The wavelength or radiations emitted is lambda_(0) when an electron in hydrogen atom jumps from the third orbit to second. If in the H-atom itself, the electron jumps from fourth orbit to second orbit, the wavelength of emitted radiation will be

the wavelength of radiation emitted is lambda_0 when an electron jumps. From the third to second orbit of hydrogen atom. For the electron jumping from the fourth to the second orbit of the hydrogen atom, the wavelength of radiation emitted will be