For Maxima path difference (?) Should be n lambda .
And for minimum it should be (n+0.5) lambda .
Its not given that if it is maxima or minima at The screen .
So not enough information.
Option (e)
How long is the "?" distance'? All slits are evenly spaced in this course approximately equal...
Two slits: How bright is the given spot on the screen? diffraction equal top view, not to scale| screen A bright B medium bright C dark D not enough information front vievw, different scale
Narrow, equally spaced vertical slits with equal widths are located at a distance of D = 2.17 m from a screen. The intensity pattern in the figure is observed when light with wavelength = 470 nm from a laser passes through the slits, illuminating them uniformly. The screen is perpendicular to the laser beam. Calculate the width of the slits. Use the cm scale to measure distances on the screen. 0 1 2 3 4 5 6 7 8 9...
Narrow, equally spaced vertical slits with equal widths are located at a distance of D = 3.13 m from a screen. The intensity pattern in the figure is observed when light with wavelength = 470 nm from a aser passes through the slits, illuminăting them uniformly. The screen is perpendicular to the laser beam. 444-4 8 9 cm 3 4 5 0 1 2 6 7 The number of slits is ... Submit Answer Tries 0/3 Calculate the center to...
For the first 8-slit extinction, how long is the marked distance? A (12)λ C D E (78)λ (1)λ (2)λ far away screen
PLEASE ANSWER 3 AND 5 SHOW ALL ALGEBRA STEPS D) More information needed. 3. Monochromatic light falling on two slits 0.5 mm apart produces the second order fringe at 0.15 angle. The interference pattern from the slits is projected onto a screen that is 3.00 m away (a) What is the wavelength of the light used (in nm)? (b) What is the separation distance (in mm) on the screen of the second bright fringe from the central bright fringe? (c)...
A light source containing two wavelengths, red and green, is incident on two slits separated by a distance "d". The resulting pattern is observed on a screen a distance "L"away. 1. Draw a diagram indicating the source, the slits, the screen and the resulting zeroth, first and second order pattern observed on the screen. Clearly label the color(s) of the spots. (10 Points) Op 2. In the two 2. In the two-slit experiment described above, a third-order bright fringe for...
The figure below is a long, massless stick with evenly spaced marks. The distance between two adjacent marks is 10.10 cm. In each of the following problems a pivot will be placed at a point on the stick. The pivot will hold that point fixed, but allow the stick to rotate. You will be finding conditions that will keep the stick in static equilibrium given different forces. All forces will be applied to the stick perpendicular to the length G...
The figure below is a long, massless stick with evenly spaced marks. The distance between two adjacent marks is 9.00 cm. In each of the following problems a pivot will be placed at a point on the stick. The pivot will hold that point fixed, but allow the stick to rotate. You will be finding conditions that will keep the stick in static equilibrium given different forces. All forces will be applied to the stick perpendicular to the length of...
do all questions with full answers *Question 241: Two Slit Interference A Young's two slit experiment is set up with two slits separated by a distance 0.1 mm. A screen is placed 20 cm from the slits. If light of wavelength 500 nm is shone through the slits how far apart (on the screen) are the successive maxima? Select one: O a. 0.5 mm O b. 1 mm O c. 1 cm d. 1 nm O e. 31 cm *Question...
Problem 7 (20 points): Each graph below shows the relative intensity versus 0 for a double slit experiment. The horizontal scale is the same for all graphs. The only possible differences among the cases are the values of the slit width (a) and distance between the centers of the slits (d). Case For each of the three cases, calculate the ratio- a) 0.5 b) Rank the cases according to distance between the centers Case 2 of the slits (d), from...