A diffraction grating with 335 lines/mm is 1.5 m in front of a screen. What is the wavelength of light whose first-order maxima will be 16.4 cm from the central maximum on the screen?
A diffraction grating with 335 lines/mm is 1.5 m in front of a screen. What is...
Monochromatic light shines on a diffraction grating with 8,600 lines uniformly distributed over 1.8 cm. The grating is illuminated using a laser of 630 nm wavelength. A diffraction pattern is formed on a screen located at 1.7 m away from the grating. (a) What is the angle of the first-order maximum of the 630-nm light incident upon the grating? (b) What is the separation on the screen between the first and the second order maxima? (c) What is the highest...
Light from an argon laser strikes a diffraction grating that has 5,816 lines per cm. The central and first-order principal maxima are separated by 0.5 m on a wall 1.52 m from the grating. What is the wavelength of the laser light in nm? Enter an integer.
2. Light of wavelength 545 nm passes through a diffraction grating with 1.35 x103 slits/cm The diffraction pattern is observed on a screen 1.70 cm from the grating. a) Determine the separation distance between the adjacent maxima on the screen. b) A second monochromatic light illuminates the diffraction grating simultancously. The second-order maximum of the second light falls midway between the central maximum and the first-order maximum for the first light on the screen. Determine the wavelength of the second...
2. A diffraction grating has 300 lines per mm. The grating is used to observe normally incident light with a wavelength of 440 nm. The grating is placed 1.3 m from a screen. Where on the screen will the first order bright line appear?
Question 3: Light of wavelength 500 nm falls upon a diffraction grating with 800 lines/mm. a) Find the angle for the second order maximum and b) the distance between this second order and the central maximum on a screen 2.0 m away
A diffraction grating with an unknown number of lines per mm, is illuminated by light at a wavelength l = 633 mm, and the first order diffraction pattern is seen at an angle β= 45.OO. Light of a second wavelength is shone on to the grating, whose second order diffraction pattern is seen at l = 62.00. What is the wavelength of the second beam?
Light emitted by element X passes through a diffraction grating that has 1200 slits/mm/mm. The interference pattern is observed on a screen 80.0 cmcm behind the grating. First-order maxima are observed at distances of 58.5 cmcm , 65.4 cmcm , and 90.6 cmcm from the central maximum. What are the wavelengths of light emitted by element X?
2. You have a diffraction grating with 2500 lines/cm. You also have a light source that emits light at 2 different wavelengths, 540 nm and 690 nm, at the same time. The screen for your experiment is 1.2 meters from the diffraction grating. A. What is the line spacing for the grating? B. What is the difference in the angle of the 2nd bright fringe for each wavelength for this grating? C. Which wavelength is closer to the center of...
Consider light with a wavelength of 519 nm is passing through a diffraction grating with 1208 lines per cm. At what distance from the central bright maximum will the 1st order maximum be seen on a screen placed 1.20 m from the diffraction grating. Give your answer in centimeters (cm) with 3 significant figures please. :)
please answer all questions ints) A monochromatic light is passing a diffraction grating. The maximum diffraction order of the maxima observed 3. (15 poi on a screen behind the the screen? diffraction grating is 5. What is the maximum angle at which the first order maxima can be observed on 4. (15 points) (Unpolarized light of an intensity lo passes through three successive Polaroid sheets each of whose axis makes a same angle θ with the preceding ints) A monochromatic...