A 60 W bulb is placed at a distance of 4 m from you. The bulb is emtting light of wavelength 600 nm uniformly in all directions. In 0.1 s, how many photons enter your eye if the pupil of the eye is having a diameter of 2mm? [take `hc=1240eV-nm]`

A 100 W sodium lamp is radiating light of wavelength 5890A , uniformly in all directions, a. At what rate, photons are emitted from the lamp? b. At what distance from the lamp, the average flux is 1 photon( cm^2-s)^-1? c. What are the photon flux and photon density at 2m from the lamp?

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 )

A sample of hydrogen atom is in excited state (all the atoms ). The photons emitted from this sample are made to pass through a filter through which light having wavelength greater than 800 nm can only pass. Only one type of photons are found to pass the filter. The sample's excited state initially is [Take h c = 1240 eV -nm , ground state energy of hydrogen atom = - 13.6 eV] .

A sensor is exposed for 0.1 s to a 200 W lamp 10m away The sensor has an opening that is 20 mm in diameter. How many photons enter the sensor if the wavelength of light is 600nm? Assume that all the energy of the lamp is given off as light.

In Young's double slit experiment , the two slits 0.20 mm apart are illuminated by monochromatic light of wavelength 600 nm . The screen 1.0 m away from the slits . (a) Find the distance of the second (i) bright fringe , (ii) dark fringe from the central maximum . (b) How will the fringe pattern change if the screen is moved away from the slits ?

In a Young's double slit experiment, a parallel beam containing wavelengths lambda_(1)=4000Å and lambda_(2)=5600Å is incident at an angle phi=30^(@) on a diaphragm having narrow slits at separation d=2mm. The screen is placed at a distance D =40 cm from the slits. a mica slab of thickness t=5mm is placed in front of one of the slits and whole of the apparatus is submerged in water. if the central bright fringe is observed at C, determine. (i) The refractive index of the slab (ii) The distance of first black line from C both wavelength are in air. take mu_(w)=4/3

The path of photoelectrons emitted due to electromagnetic radiation incident on a sample of material A, is found to have a maximum bending radius of 0.1 m in a magnetic field of ((sqrt2)/(3))xx10^-4 T. When the radiation is incident normally on a double slit having a slit separation of 0.1mm, it is observed that there are 10 fringes in a width of 3.1 cm on a screen placed at a distance of 1 m from the double slit. Find the work function of the material. and the corresponding threshold wavelength. What sould be the wavelength of the incident light so that the bending radius is one-half of what it was before? Given that mass of the electron =0.5Me(V)/(c^2) , hc=12400eV-A

A point source of monochromatic light of 1.0 mW is placed at a distance of 5.0 m from a metal surface. Light falls perpendicularly on the surface. Assume wave theory of light to hold and also that all the light falling on the circular area with radius =1.0 xx 10^-9m (which is few times the diameter of an atom) is absorbed by a single electron on the surface. Calculate the time required by the electron to receive sufficient energy to come out of the metal if the work function of the metal is 2.0eV .

In a Young's double slit experiment, the light sources is at distance l_1 = 20mu m and l_2 = 40 mu m form the main slit. The light of wavelength lambda = 500nm is incident on slits separated at a distance 10mu m . A screen is placed at a distance D = 2 away from the slits as shown in figure. Find (a) the values of theta relative to the central line where maxima appear on the screen? (b) how many maxima will appear on the screen? what should be the minimum thickness of a slab of refractive index 1.5 placed on the path of one of the ray so that minima occurs at C ? .

In Young's double-slit experiment, a point source is placed on a solid slab of refractive index 6//5 at a distance of 2 mm from two slits spaced 3 mm apart as shown and at equal distacne from both the slits. The screen is at a distance of 1 m from the slits. Wavelength of light used is 500 nm. a. Find the position of the central maximum. b. Find the order of the fringe formed at O. c. A film of refractive index 1.8 is to be placed in front of S_(1) so that central maxima is formed where 200th maxima was formed. Find the thickness of film.