Consider a diffraction grating that produces a second-order maximum for 735 nm red light at an angle of 67.5°.
What is the distance, in meters, between lines on such a diffraction grating?
Consider a diffraction grating that produces a second-order maximum for 735 nm red light at an angle of 67.5°.
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...
What is the distance between lines on a diffraction grating that produces a second order maximum for 685 nm red light at an angle of 46.6 degrees
Light of wavelength 590 nm illuminates a diffraction grating. The second-order maximum is at angle 40.5 How many lines per millimeter does this grating have?
Light of wavelength 600 nm illuminates a diffraction grating. The second-order maximum is at angle 38.7 ∘. How many lines per millimeter does this grating have?
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 2.5 cm wide produces a deviation of 42◦ in the second order peak with light of 550 nm wavelength. (a) What is the total number of lines on the grating? (b) If a screen is located at 1.8 m from the grating, where is the position of the first order maximum for that same wavelength? (c) For which wavelength the third order maximum overlaps with the second order maximum of 550 nm wavelength?
m) in the second-order 3. (10 points) in a particular diffraction grating pattern the red component (700 maximum is deviated at an angle of 26 a) How many lines per centimeter does the rating have? If yo hed fy DIE - b) If the grating is illuminated with white light, how many maxima of the complete visible spectrum would be produced? White light ranges from 700 nm to 400 nm
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. :)
The light shining on a diffraction grating has a wavelength of 485 nm (in vacuum). The grating produces a second-order bright fringe whose position is defined by an angle of 8.09°. How many lines per centimeter does the grating have?
The light shining on a diffraction grating has a wavelength of 495 nm (in vacuum). The grating produces a second-order bright fringe whose position is defined by an angle of 9.34. How many lines per centimeter does the grating have?