Chapter 26-Homework Problem 26.36 24 of 24 Constants Part A A diffraction grating has 5570 lines/cm....
A diffraction grating has 5500 lines/cm . When a beam of monochromatic light goes through it, the second pair of bright spots occurs at ±26.0 cm from the central spot on a screen 43.0 cm past the grating. A. What is the wavelength of this light? B. How far from the central spot does the next pair of bright spots occur on the screen?
A diffraction grating has 5590 lines/cm . When a beam of monochromatic light goes through it, the second pair of bright spots occurs at ±26.0 cm from the central spot on a screen 43.0 cm past the grating. A) What is the wavelength of this light? B) How far from the central spot does the next pair of bright spots occur on the screen? Please include steps so I can follow along and understand!
hi if you could please help that would be appreciated Part A If a diffraction grating produces a third-order bright spot for red light (of wavelength 690 nm )at 67.0 from the central maximum, at what angle will the second-order bright spot be for violet light (of wavelength 445 nm)? VA ? Submit Request Answer Constants A slit 0.330 mm wide is illuminated by parallel rays of light that have a wavelength of 560 nm. The diffraction pattern is observed...
A thin beam of laser light of wavelength 514 nm passes through a diffraction grating having 3952 lines/cm. The resulting pattern is viewed on a distant curved screen that can show all bright fringes up to and including ?90.0? from the central spot. If the experiment were performed with all of the apparatus under water (which has an index of refraction of 1.33), what would be the TOTAL number of bright spots that would show up on the screen?
Short Answer (6 points diffraction grating has 5150 lines diffraction per centimeter ruled on it. It is illuminated by a laser with wavelength 633 nm. The a) What is the angular separation between the first- and the third-order bright spots on the same side of the central maximum? pattern is observed on a very wide screen 2.0 meters behind the diffraction grating. b) How many bright spots would you observe on the screen?
A diffraction grating has 5150 lines per centimeter ruled on it. What is the angular separation between the first- and the third-order bright spots on the same side of the central maximum when the grating is illuminated by a beam of light with wavelength 633 nm? Knowns, Finds, and Carefully-Drawn & Labeled Diagram
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...
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...
If a diffraction grating produces a third-order bright spot for red light of wavelength 700 nm, at 65° from the central maximum at what angle will the second order bright spot be for violet light of wavelength 400 nm? How many lines per mm on this grating? If a diffraction grating produces a third-order bright spot for red light of wavelength 700 nm, at 65° from the central maximum at what angle will the second order bright spot be for...
If the scientist uses a diffraction grating with 500 lines per mm and laser with a wavelength of 680 nm, what angle will a line from the grating to the second order bright spot make with the line from the grating to the central bright spot?