Constants:c = 3.00 x 10°m/sh = 6.63 x 1034 Js (h = approx 7 x 1034 Js )NAV= 6.02 x 102molecules/mole (NAV = approx 6 x 102°molecules/mole)If it requires 420 kJ/mol of energy to dissociate 1 mole of X2 to 2 moles of X, wouldphotons having a A = 3 nm have enough energy?

Here we will calculate energy for photon. Then compare

Nav = 6.02 x 102°molecules/mole (NAv = approx 6 x 1023molecules/mole) %3D If it requires 420 kJ/mol of energy to dissociate 1 mole of X2 to 2 moles of X, would photons having a A = 3 nm have enough energy?

Nav = 6.02 x 102°molecules/mole (NAv = approx 6 x 1023molecules/mole) %3D If it requires 420 kJ/mol of energy to dissociate 1 mole of X2 to 2 moles of X, would photons having a A = 3 nm have enough energy?

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Question

Constants:
c = 3.00 x 10°m/s
h = 6.63 x 1034 Js (h = approx 7 x 1034 Js )
NAV
= 6.02 x 102molecules/mole (NAV = approx 6 x 102°molecules/mole)
If it requires 420 kJ/mol of energy to dissociate 1 mole of X2 to 2 moles of X, would
photons having a A = 3 nm have enough energy?

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