A laser used to weld detached retinas emits light with a wavelength of 652 nm in pulses that are 20.0ms in duration. The average power during each pulse is 0.6 W. then,

A pulsed laser emits light at a wavelength of 694.4 nm. The pulse duration is 12 ps, and the energy per pulse is 0.150 J. (a) What is the length of the pulse? (b) How many photons are emitted in each pulse?

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 ruby laser produces radiations of wavelength, 662.6nm in pulse whose duration are 10^(-9)s . If the laser produces 0.39 J of energy per pulse, how many protons are produced in each pulse?

In YDSE wavelength of light used is 500 nm and slit width is 0.05 mm . then the angular fringe width will be.

A laser light of wavelength 660 nm is used to weld Retina detachment. If a laser pulse of width 60 ms and power 0.5 kW is used, the approximate number of photons in the pulse are (Take Planck's Constant, h=6.62xx10^(-34)Js )

A monochromatic source emits light of wavelength 550 nm is emitted by a source . Find the number of photons emitted by the source in 90 seconds if power of source is 60 W.

A monochromatic source emits light of wavelength 500 nm and has a power output of 25 W. Find the number of photons emitted by this source in 5 minutes .