The dissociation energy of H(2) is 430.5...

The dissociation energy of `H_(2)` is 430.53 `kJ*mol^-1`. If hydrogen is dissociated by illumination with radiation of wavelength 253.7 nm, the fraction of the radiant energy which will be converted into kinetic energy is given by-

Similar Questions

Explore conceptually related problems

The dissociation energy of H_(2) is 430.53 kJ mol^(-1), If H_(2) is of dissociated by illumination with radiation of wavelength 253.7 nm , the fraction of the radiant energy which will be converted into ikinetic energy is given by

The dissociation energy of H_(2) is 430.53 kJ mol^(-1), If H_(2) is dissociated by illuminating with radiation of wavelength 253.7 nm , the fraction of the radiant energy which will be converted into kinetic energy is given by

The dissociation energy of H_(2) is 430.53 kJ mol^(-1), If H_(2) is of disociated by illamition wityh radiation of wavelength 253.7 nm , the fraction of the radiant energy which will be converted into ikinetic energy is given by

The dissociation energy of H_2 is 430.53 kj/mole.if H_2 is dissociated by illumination with radiations of wavelength 253.7 nm the fraction of the radiant energy which will be converted into kinetic energy is given by

The ionisation energy of H is 1312 kJ mol^(- 1) . How much energy is required to ionise 100 gram atoms of hydrogen?

Electromagnetic radiation of wavelength 242 nm is just sufficient to ionise the sodium atom .Calculate the ionisation energy of sodium in Kj mol^(-1)

Electromagnetic radiation of wavelength 242 nm is just sufficient to ionise the sodium atom. Calculate the ionisation energy of sodium in kJ mol^(-1)

The dissociation energy of `H_(2)` is 430.53 `kJ*mol^-1`. If hydrogen is dissociated by illumination with radiation of wavelength 253.7 nm, the fraction of the radiant energy which will be converted into kinetic energy is given by-

Similar Questions

Recommended Questions