Lifetimes of the molecules in the excited states are often measured by using pulsed radiation source of duration nearly in the nano second range. If the radiation source has the duration of `2` ns and the number of photons emitted during the pulse is `2.5xx10^(15)`, calculate the energy of the source.

Nitrogen laser produces a radiation at a wavelength of 337.1 nm. If the number of photons emitted per second is 5.6 xx 10^(24) , calculate the power of this laser.

Nitrogen laser produces a radiation at a wavelength of 337.1nm . If the number of photons emitted is 5.6 xx 10^(24) . Calculate the energy of this laser

According to Planck's quantum theory of light, every source of radiation emits photons (i.e., packets of energy ) which travel in all directions with the same speed (i.e., speed of light). Each photon is of energy E=hv=hc//lambda , where h is Planck's constant, v is the frequency and lambda is wavelength of radiation emitted. The photons emitted from different sources of radiation are different. Read the above passage and answer the following questions: (i) on what factors does the number of photons emitted per second from a source of radiations depends? (ii) Why are the high energy photons not vissible to eye? (iii) Which basic values do you learn from this study?

A monochromatic source emitting light of wavelength, 600nm, has a power output of 66W. Caculate the number of photons emitted by this source in 2minuts. Use h=6.6xx10(-34)Js .

A monochromatic light source of frequency 6xx10^(14)Hz is emitting energy at the rate 2xx10^(-3)J//s . Calculate the number of photons emitted per seconds by source.

A 100 watt bulb radiates 15% of energy given in the form of visible light . If wavelength of the visible photons are nearly 5,000Å , then calculate the number of visible light photons emitted per second.

A cylindrical rod of some laser material 5xx10^-2 m long and 10^-2m in diameter contains 2xx10^25 ions per m^3 . If on excitation all the ions are in the upper energy level and de-excite simultaneously emitting photons in the same direction , calculate the maximum energy contained in a polse of radiation of wavlength 6.6xx10^-7 m. If the pulse lasts for 10^-7s , calculate the average power of the laser during the pulse.

A monochromatic source of light emits photons of frequency 6 xx 10^(14 )Hz . The power emitted by the source is 8 x 10^(-3)W. Calculate the number of photons emitted per second. (Take h = 6.63 xx 10^(-34) Js )