Find the angle for the third-order maximum for 581 nm wavelength light falling on a diffraction grating having 1520 lines per centimeter.
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- Find the angle for the third-order maximum for 571 nm wavelength light falling on a diffraction grating having 1540 lines per centimeter.What is the highest order maximum that can be obtained with a diffraction grating that has 900 lines per mm for light of a wavelength of 450 nm? Question 7 options: m = 6 m = 5 m = 4 m = 3 None of the other responses are correct.The wavelengths of the visible spectrum are approximately 400nm (violet) to 700nm (red). Find the angular width of the first-order visible spectrum produced by a transmission diffraction grating with 405 lines per millimeter when white light falls normally on the grating.Give your answer in degrees.
- Light of wavelength of 550nm is incident perpendicularly on a diffraction grating. The angle between the two first-order diffraction maxima on opposite sides of the zeroth-order maximum is 20°. What is the grating spacing?In your laboratory, 540nm light falls on a pinhole 0.0038mm in diameter. Diffraction maxima are observed on a screen 5.0m away. Calculate the distance from the central maximum to the first interference maximum.A diffraction grating has a grating constant of 415 lines/mm. If composite light with wavelengths of 601 nm and 461 nm are incident upon the grating, what is there angular separation in the 1st order spectrum? Answer this with a positive number of degrees.
- Find the angle for the third-order maximum for 557 nm wavelength light falling on a diffraction grating having 1510 lines per centimeter.A diffraction grating is 2.30 cm wide and contains 2100 lines. When used with light of a certain wavelength, a third order maximum is formed at an angle of 21.0 degrees. What is the wavelength (in nm)?