A certain dye absorbs light of `lamda = 4000 Å` and then fluresces light of `5000 Å`. Assuming that under given conditions `50 %` of the absorbed energy is re-emitted out as fluorescence, calculate the ratio of number of quanta emitted out to the number of quanta absorbed.

A certain dye absorbs light of lambda = 4000 "Å" and then flurescences light of lambda = 5000"Å" . Assuming that under given conditions 50 % of the absorbed energy is re-emitted out as fluorescence , calculate the ratio of the number of quanta emitted out to the number of quanta absorbed :

A dye obsorbs light of lambda = 4530 Å and then flaorescences light of 5000Å .Assuming that uinder given condition 47% of the obserbed energy is re-emited out so flaurescence , calculate the ratio of quants emitted out to the number of quanta obserbed

A certain day absorbs lights of lamda=400 nm and then fluorescence light of wavelength 500 mn. Assuming that under given condition 40% of the absorbed energy is re-emitted as fluorescence, calculate the ratio of quanta obserbed to number of quanta emitted out.

A certain dye absorbs 4530A^(@) and fluoresence at 5080A^(@) these being wavelength of maximum absorption that under given condition 47% of the absorbed energy is emitted. Calculate the ratio of the no of quanta emitted to the number absorbed.

The power of a bulb is 60 milliwatt and the wavelength of light is 6000 Å. Calculate the number of photons/sec. emitted by the bulb ?

A blube emits light of lambda = 4500 Å . The bulb is rated as 150 watt and 8% of the energy is emitted as light. Number of photons emitted by bulb per second is : ["Take" hc = 12400 eVÅ]

Light of wavelength 5000 Å and intensity of 3.96 xx 10^(-3) watt//cm^(2) is incident on the surface of photo metal . If 1% of the incident photons only emit photo electrons , then the number of electrons emitted per unit area per second from the surface will be