In a measurement of quantum efficiency o...

In a measurement of quantum efficiency of photosynthesis in green plants, it was found that 10 quanta of red light of wavelength 6850 Å were needed to release one molecule of `O_(2)`. The average energy storage in this process for 1 mol `O_(2)` evolved is 112 Kcal.
What is the energy conversion efficieny in this experiment?
Given: 1 cal =4.18 J, `N_(A)=6xx10^(23),h=6.63xx10^(-34)` J.s

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In a measurement of quantum efficiency of photosynthesis in plants it was found that 10 quanta of red light of wavelength 6850 A^@ were needed to release one molecule of O_2 the average energy storage in this process is 112 kcal/mol of O_2 evolved.What is the energy conversion efficiency in this experiment?Given=1 cal=4.18J: N_A=6xx10^23 mol^-1 , h=6.63xx10^-34 Js

Bond dissociation on energy of Cl_(2) is 240 kJ/mol. The longest wavelength of photon that can break this bond would be [N_(A)=6xx10^(23), h=6.6xx10^(-34)J/s]

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Calculate the energy in eV for each photon for light of wavelength 4950Å . Take h=6.6xx10^(-34)J-s

How many photons of wavelength , 50 Å are required to produce 0.2 J of energy ? ( h = 6.626 xx 10^(-34) J *s )

The energy of an X-ray photon of wavelength 1.65Å is (h=6.6xx10^(-34)Js,c=3xx10^(4)ms^(-1),ev=1.6xx10^(-19)J)

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