The arrangement for a mirror experiment is shown in figure. S is a point source of frequency `6xx10^(14)Hz`. D and C represent the two ends of a mirror placed horizontally and LOM represents the screen.

Calculate the number of fringes

The arrangement for a mirror experiment is shown in figure. S is a point source of frequency 6xx10^(14)Hz . D and C represent the two ends of a mirror placed horizontally and LOM represents the screen. Find the fringe width of the fringe pattern ?

The arrangement for a mirror experiment is shown in figure. S is a point source of frequency 6xx10^(14)Hz . D and C represent the two ends of a mirror placed horizontally and LOM represents the screen. Determine the width of the region where the fringes will be visible

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.

In Young's double slit experiment , the light has a frequency of 6 xx 10^(14) Hz and the distance between the centres of adjacent fringes is 0.75 mm . If the screen is 1.5m away, what is the distance between the slits ?

A point source has been placed as shown in the figure-. What is the length on the screen that will receive reflected light from the mirror ?

In the figure shown S is a point monochromatic light source of frequency 6xx10^(14)Hz .M is a concave mirror of radius of curvature 20 cm and L is a thin converging lens of focal length 3.75 cm AB is the principal axis of M and L. Light reflected from the mirror and refracted from the lens in succession reaches the screen. An interference pattern is obtained on the screen by this arrangement. Q. Distance between two coherent sources whichmakes interference pattern on the screen is

In the figure shown S is a point monochromatic light source of frequency 6xx10^(14)Hz .M is a concave mirror of radius of curvature 20 cm and L is a thin converging lens of focal length 3.75 cm AB is the principal axis of M and L. Light reflected from the mirror and refracted from the lens in succession reaches the screen. An interference pattern is obtained on the screen by this arrangement. Q. Fringe width is

In the figure shown S is a point monochromatic light source of frequency 6xx10^(14)Hz .M is a concave mirror of radius of curvature 20 cm and L is a thin converging lens of focal length 3.75 cm AB is the principal axis of M and L. Light reflected from the mirror and refracted from the lens in succession reaches the screen. An interference pattern is obtained on the screen by this arrangement. Q. If the lens is replaced by another converging lens of focal length (10)/(3)cm and the lens is shifted towards right by 2.5 cm then

Two plane mirrors, a source S of light, emitting wavelengths of lambda_(1) = 4000overset(@)A" and" lambda_(2) = 5600overset(@)A and a screen are arranged as shown in figure. The angle theta shown is 0.05 radian and distance a and b are 1 cm and 38 cm respectively. (a) Find the fringe width of interference pattern formed on screen by the blue light. (b) Calculate the distance of first black line from central bright fringe. (c) Find the distance between two black lines which are nearest to the central bright fringe.