The distance of `n^(th)` bright fringe to the `(n+1)^(th)` dark fringe in Young's experiment is equal to:

The distance of nth bright fringe to the nth dark fringe in Young's experiment is equal to

In Young's double slit experiment separation between slits is 1mm, distance of screen from slits is 2m. If wavelength of incident light is 500 nm. Determine (i) fringe width (ii) angular fringe width (iii) distance between 4 th bright fringe and 3rd dark fringe (iv) If whole arrangement is immersed in water (mu_(w)=4//3) , new angular fringe width.

A beam of light consists of two wavelengths, 6300Å and 5600Å . This beam of light is used to obtain an interference pattern in YDSE. If 4^("th") bright fringe of 6300Å coincides with the n^("th") dark fringe of 5600Å from the central line, then find the value of n.

In a Young's double-slit experiment , the slits are separated by 0.28 mm and screen is placed 1.4 m away . The distance between the central bright fringe and the fourth bright fringe is measured to be 1.2 cm . Determine the wavelength of light used in the experiment .

In a Young's double-slit experiment , the slits are separated by 0.28 mm and screen is placed 1.4 m away . The distance between the central bright fringe and the fourth bright fringe is measured to be 1.2 cm . Determine the wavelength of light used in the experiment .

How does the fringe width of interference fringes change, when the whole apparatus of Young's experiment is kept in a liquid of refractive index 1.3 ?

A beam of light consisting of two wavelength 6300 A^(@) and lambda A^(@) is used to obtain interference frings in a Young's double slit experiment. If 4^(th) bright fringe of 6300 A^(@) coincides with 5^(th) dark fringe of lambdaA^(@) , the value of lambda (in A^(@) ) is

In the figure is shown Young's double slit experiment. Q is the position of the first bright fringe on the right side of O. P is the 11^(th) bright fringe on the other side, as measured from Q. If the wavelength of the light used is 600 nm . Then S_(1)B will be equal to

Answer the following: (a) what are coherent sources of light ? Two slits in Young's double slit experiments are illuminated by two different sodium lamps emitting light of the same wavelength. Why is no interference pattern observed? (b) Obtain the condition for getting dark and bright fringes in Young's experiment. Hence write the expression for the fringe width. (c) If s is the size of the source and its distance from the plane of the two slits, what should be the criterion for the interference fringes to be seen?

A beam of light consisting of two wavelengths 650 nm and 520 nm is used to obtain interference fringes in a Young's double slit experiment. (a) Find the distance of the third bright fringe on the screen from the central maximum for the wavelength 650 nm . (b) What is the least distance from the central maximum where the bright fringes due to both the wavelengths coincide? The distance between the slits is 2 mm and the distance between the plane of the slits and screen is 120 cm .