`O_(2)` undergoes photochemical dissocia tion into one normal oxygen atom one oxygen atom `1.967 eV` more energetic than normal .The dissociation of `O_(2)` into two bnormal atoms of oxygen required `498 kJ mol^(-1)` what is the maximum wavelength effective for photochemical dissociation of `O_(2)`?

O_(2) undergoes photochemical dissociation into one normal oxygen atom and one excited oxygen atom. Excited oxygen atom is 1.967 eV more energetic than normal . The dissociation of O_(2) into two normal atoms of oxygen required 498 kJ mol^(-1) , what is the maximum wavelength effective for photochemical dissociation of O_(2) ?

O_(2) undergoes photochemical dissociation into one normal oxygen atom and one excited oxygen atom. Excited oxygen atom is 1.967 eV more energetic than normal . The dissociation of O_(2) into two normal atoms of oxygen required 498 kJ mol^(-1) , what is the maximum wavelength effective for photochemical dissociation of O_(2) ?

N_(2) undergoes photochemical dissociation into one normal N- atom and one N- atom having 0.1eV more energy than normal N- atom. The dissociation of N_(2) into two normal atom of N requires 289.5 KJ//mol energy. The maximum wavelength effective for photochemical dissociation of N_(2) in nm is P nm ( 1 eV = 96.5 KJ/mol). Find the value of (P)/(100) .

N_(2) undergoes photochemical dissociation into one normal N- atom and one N- atom having 0.1eV more energy than normal N- atom. The dissociation of N_(2) into two normal atom of N requires 289.5 KJ//mol energy. The maximum wavelength effective for photochemical dissociation of N_(2) in nm is P nm ( 1 eV = 96.5 KJ/mol). Find the value of (P)/(100) .

Ozone in the upper atmoshphere absorbs ultraviolet radiation which induces the following chemical reaction O_(3)(g)rightarrowO_(2)(g)+O(g) O_(2) produced in the above photochemical dissociation undergoes further dissociation into one normal oxygen atom (O) and more energetic oxygen atom O** . O_(2)(g) rightarrowO+O** (O**) has 1 eV more energy than(O) and normal dissociation energy of O_(2) is 480 kJ "mol"^(-1) . [1 eV/Photon =96 kJ "mol"^(-1) ] What is the maximum wavelength effective for the photochemical dissociation of O_(2) molecule

Ozone in the upper atmoshphere absorbs ultraviolet radiation which induces the following chemical reaction O_(3)(g)rightarrowO_(2)(g)+O(g) O_(2) produced in the above photochemical dissociation undergoes further dissociation into one normal oxygen atom (O) and more energetic oxygen atom O** . O_(2)(g) rightarrowO+O** (O**) has 1 eV more energy than(O) and normal dissociation energy of O_(2) is 480 kJ "mol"^(-1) . [1 eV/Photon =96 kJ "mol"^(-1) ] What is the maximum wavelength effective for the photochemical dissociation of O_(2) molecule

Ozone in the upper atmoshphere absorbs ultraviolet radiation which induces the following chemical reaction O_(3)(g)rightarrowO_(2)(g)+O(g) O_(2) produced in the above photochemical dissociation undergoes further dissociation into one normal oxygen atom (O) and more energetic oxygen atom O** . O_(2)(g) rightarrowO+O** (O**) has 1 eV more energy than(O) and normal dissociation energy of O_(2) is 480 kJ "mol"^(-1) . [1 eV/Photon =96 kJ "mol"^(-1) ] What is the maximum wavelength effective for the photochemical dissociation of O_(2) molecule

Hydrogen when subjected to photon disocation, yieds one normal atom and atom possessing 1.97 eV more energy than normal atom .The bond dissociation energy of hydrogen molecule into normal atom is 103 kcal mol^(-1) . Campate the wavelength of effective photon for photo dissociation of hydrogen molecule in the given case

Hydrogen when subjected to photon disocation, yieds one normal atom and atom possessing 1.97 eV more energy than normal atom .The bond dissociation energy of hydrogen molecule into normal atom is 103 kcal mol^(-1) . Campate the wavelength of effective photon for photo dissociation of hydrogen molecule in the given case