The electron energy in hydrogen atom is given by `E_(n) = (-21.7 xx 10^(-12)/(n^(2))) erg` Calculate the energy required to remove an electron completely from the `n = 2` .What is the longest wavelength (in cm) of light can be used to cases this transition ?

The electron energy in hydrogen atom is given by E=(-21.7 xx 10^(-12))ln^2 ergs. Calculate the energy required to remove an electron completely from the n=2 orbit. What is the longest wavelength in cm of light that can be used to cause this transition?

The electron energy in hydrogen atom is given by E_(n)=-(2.18 xx 10^(-18))/(n^2) J . Calculate the energy required to remove an electron completely from the n=2 orbit. What is the longest wavelength of light in cm that can be used to cause this transition?

The electron energy in hydrogen atom is given by E_(n)=(-2.18xx10^(-8))//n^(2)J . Calculate the energy required to remove an electron completely from the n=2 orbit. What is the longest wavelength of light in cm that can be used to cause this transition?

The electron energy in hydrogen atom is given by E_(n) = (-2,18 xx 10^(18)) //m^(2) n^(2)J Calculate the energy required to remove an electron completely from the n=2 orbit .What is the longest wavelength of ligth in cm that can be used to cause this transitiion ?

The electron energy in hydrogen atom is given by E_(n) =(-21.7xx10^(12))/n^(2)ergs . Calculate the energy requried to remove an e^(-) completely from n=2 orbit . What is the largest wavelenght in cm of light that can be used to cause this transition .

The electron in hydrogen atom is given by E_n = (-2.18 xx 10^-18)//n^2 J . Calculate the energy required to remove an electron completely from the n = 2 orbit. What is the longest wavelength of light in cm that can be used to cause this transition?