Let `n_r` and `n_b` be respectively the number of photons emitted by a red bulb and a blue blub of equal power in a given time.

Two bulbs 'A' and 'B' emit red light and yellow light at 8000 "Å" and 4000 "Å" respectively. The number of photons emitted by both the bulbs per second is the same. If the red bulb is labelled as 100 watts, find the wattage of the yellow bulb.

A bulb of 40 W is producing a light of wavelength 620 nm with 80% of efficiency , then the number of photons emitted by the bulb in 20 seconds are : ( 1eV = 1.6 xx 10^(-19) J , hc = 12400 eV )

Two sources A and B have same power . The wavelength of radiation of A is lambda_a and that of B is lambda_b .The number of photons emitted per second by A and B are n_a and n_b respectively, then

Is it always true that for two sources of equal intensity, the number of photons emitted in a given time are equal?

Let n(A) = m and n(B) = n, then the number of non-empty relations from A to B is

A red bulb and violet bulb of equal power emits n_(R ) and n_(v) number of photons in a given time, then

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

Monochromatic light of frequency 6.0xx10^(14)Hz is produced by a laser. The power emitted is 2xx10^(-3)W . The number of photons emitted, on an average, by the source per second is nxx10^(15) where n is an integer. Find the value of n?

Let A and B infinite sets containing m and n elements respectively. The number of relations that can be defined from A to B is

In a Young's double slit experiment using red and blue lights of wavelengths 600 nm and 480 nm respectively, the value of n for which the nth red fringe coincides with (n+1) th blue fringe is