Please solve and plot using MATLAB:
Please solve and plot with MATLAB: Thank you
`Hey,
Note: Brother in case of any queries, just comment in box I would be very happy to assist all your queries
clc
clear all
alam=2:0.1:10;
th=-20:1:20;
[ALAM,TH]=meshgrid(alam,th)
al=pi*ALAM.*sind(TH);
Z=(sin(al)./al).^2;
surf(ALAM,TH,Z);
xlabel('a/\lambda');
ylabel('\theta(deg)');
zlabel('Relative intensity')
Kindly revert for any queries
Thanks.
A monochromatic light that passes through a Incident slit produces on a screen a diffraction patt...
MATLAB When monochromatic light passes through a narrow slit it produces on a screen a diffraction pattern consisting of bright and dark fringes. The intensity of the bright fringes, I, as a function of can be calculated by: where Where is the light wave length and a is the width of the slit. Plot the relative intenstiy I / Imax as a function of for -20o <= <= 20o. Make one plot that contains three graphs for the cases a...
MATLAB , chapter 5 figure(n) Create new figure i# window, 3130%) When monochromatic light passes through a narrow slit it produces on a sCreen a diffraction pattern consisting of bright and dark fringes. The intensity of the bright fringes, I. as a fimc- tion of e can be calculated by Incident light sin c 2 where a TUCI sin e ax where A is the light wave length and a is the width of the slit. Plot the relative intensity...
When monochromatic light passes through a narrow slit it produces on a screen a diffraction pattern consisting of bright and dark fringes. The intensity of the bright fringes, I, as a function of can be calculated by: where Where is the light wave length and a is the width of the slit. Plot the relative intenstiy I / Imax as a function of for -20o <= <= 20o. Make one plot that contains three graphs for the cases a =...
Monochromatic light (λ 470 nm) passes through two slits and onto a screen 3.0 m away. (a) If two nearby bright fringes are separated by 16 mm, what is the slit spacing? (b) If the slit spacing is reduced by a factor of two, what is the new distance between bright fringes?
An intense monochromatic light incident on a diffraction grating with slit spacing d is causing an increase of the grating temperature. How should the frequency of the light be changed so that the position of bright fringes does not change. (Consider that the thermal expansion of the diffraction grating does not damage the slits.) Select one: a. f should be increased. b. f has no effect on the position of the bright fringes. c. f should be decreased. d. f...
Monochromatic 545-nm light is incident on a 15-μm-wide slit. If the diffraction pattern is cast on a screen 510 mm from the slit, what is the linear distance from the center of the pattern to the n = 4 dark fringe?
Monochromatic light (? = 440 nm) passes through two slits and onto a screen 3.0 m away. (a) If two nearby bright fringes are separated by 10 mm, what is the slit spacing? (b) If the slit spacing is reduced by a factor of four, what is the new distance between bright fringes? m
Monochromatic light of wavelength 544 nm from a distant source passes through a slit that is 0.0330 mm wide. In the resulting diffraction pattern, the intensity at the center of the central maximum (θ = 0∘) is 5.00×10−5 W/m2 What is the intensity at a point on the screen that corresponds to θ = 1.20∘? Express your answer with the appropriate units.
7. In a single-slit diffraction experiment, a beam of monochromatic light passes through a slit of width 11.0 um. If the fourth dark fringe of the resulting diffraction pattern is at an angle of 6.31°, what is the wavelength of the light? a) 302 nm b) 413 nm c) 602 nm d) 720 nm e) 827 nm
An intense monochromatic light incident on a diffraction grating with slit spacing d is causing an increase of the grating temperature. How should the frequency of the light be changed so that the position of bright fringes does not change.