Calculate the wavelength of the radiation that would cause photo dissociation of chlorine molecule if the `Cl-Cl` bond energy is `243kJ//mol`.

Calculate the wavelength of light required to break the bond between two chlorine atoms in a chlorine molecule. The Cl- Cl bond energy is 243 kJ mol^(-1) (h=6.6 xx10^(-34)Js,c=3xx10^8m//s, Avogadro's number =6.02xx10^(23)mol^(-1) )

Calculate the wavelength of light required to break the bond between two chlorine atoms in a chlorine molecule. The Cl- Cl bond energy is 243 kJ mol^(-1) (h=6.6 xx10^(-34)Js,c=3xx10^8m//s, Avogadro's number =6.02xx10^(23)mol^(-1) )

Calculate the wavelength of light required to break the bond between two Cl atoms in Cl_(2) molecules ((BE)_(Cl-Cl)= 243 kJ mol^(-1))

Calculate the wavelength of light required to break the bond between two Cl atoms in Cl_(2) molecules ((BE)_(Cl-Cl)= 243 kJ mol^(-1))

Calculate the wavelength of light required to break the bond between two Cl atoms in Cl_(2) molecules ((BE)_(Cl-Cl)= 243 kJ mol^(-1))

On absorbing light of wavelength 3800 A, bromine molecule undergoes dissociation and form atoms. The kinetic energy of one bromine atom assuming that one quantum of radiation is absorbed by each molecule would be (Bond energy of Br_2=190(kJ) / (mol)