Calculate the energy required to excited one litre of hydrogen gas at `1` atm and `298 K` to the excited state of atomic hydrogen. The energy for the disociation of H-H bond is `436 kJ mol^(-1)`. Also calculate the minimum frequency of photon to break this bond.

Calculated the energy required to excite one litre of hydrogen gas at 1atm and 298K to the first excited state of atomic hydorgen. The enegry for the dissociation of H-H bond is 436 kJ mol^(-1) .

Calculated the energy required to excite one litre of hydrogen gas at 1atm and 298K to the first excited state of atomic hydorgen. The enegry for the dissociation of H-H bond is 436 kJ mol^(-1) .

Find the energy required to excite 1.10L od hydrogen gas at 1.0 nm and 298 K to the first excited state of atomic hydrogen .The energy required for the dissacitation of H-H bond is 436 kJ mol^(-1) .Also calculate the minimum frequency of a photon to break this bond

Find the energy required to excite 1L od hydrogen gas at 1.0 nm and 298 K to the first excited state of atomic hydrogen .The energy required for the dissacitation of H-H bond is 436 kJ mol^(-1)

Calculate the energy required to excite two line of hydrogen gas at 1 atm and 298K to the first excited state of atomic hydrogen .The energy fior the disociation of H_(2) bond of photon to break this bond

Calculate the energy (in KJ) required to excite one litre of hydrogen gas at 1 atm and 298 K to the first excited state of atomic hydrogen. The energy for the dissociation of H-H id 436 KJ mol^(-1) . Give your answer excluding decimal places.

Bond energy of F_2 is 150 kJ mol^(-1) . Calculate the minimum frequency of photon to break this bond.

Calculate the energy (in eV units) required to ionised 1 mol of hydrogen atoms.