Wave Optics and Introduction to quantum physics Please put answer next to the nu

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Wave Optics and Introduction to quantum physics

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What is the distance between fringes (in millimeters) produced by a diffraction grating having 119 lines per centimeter for 693 nm light, if the screen is 1.96 m away? At what angle, in degrees, is the second minimum for 606 nm light falling on a single slit of width 2.07 mu m? Find the distance between two slits that produces the first minimum for 597 nm violet light at an angle of 46.1 degree. Give your answer in microns.

Explanation / Answer

given

d= 1/N = 1/119 lines/cm = 8.4 * 10^-5 m

L = 1.96 m

lamda = 693 * 10^-9 m

condition for diffraction maximum is

d ( y/L) = m lamda

for first fringe

d ( y1/L) = lamda

y1 = lamda L/d

= 693* 10^-9 ( 1.96)/8.4* 10^-5

=16.17 mm

for secodn firge

y2 = m lamda L/d

= 2* 693* 10^-9 ( 1.96)/8.4* 10^-5

=2* 16.17 mm

y2- y1 = 16.17 mm

(b)

theta = sin^-1 ( m lamda/ d)

= sin^-1 ( 2 ( 606* 10^-9)/2.07* 10^-6)

=35.83 degree

(c)

d= m lamda/ sin theta

= 1 ( 597* 10^-9)/sin 46.1

=0.828 * 10^-6 m

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