A diffraction grating 34.0mm wide has 6000.0 rulings. Light of wavelength 689.0nm is incident perpendicularly on the grating. Compute the a)Largest and b) Second largest value of angle at which maxima appear on a distant viewing screen.
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A diffraction grating 34.0mm wide has 6000.0 rulings. Light of wavelength 689.0nm is incident perpendicularly on the grating. Compute the
a)Largest and
b) Second largest value of angle at which maxima appear on a distant viewing screen.
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- When the light of a wavelength λ = 561 nm is incident on a diffraction grating the first maximum after the center one is found to occur at an angle of θ1 = 7.5 degrees. Part (a) Write an expression for the grating's line density, n, in terms of the given quantities. Part (b) Calculate this spacing in lines per centimeter? Part (c) Find the angle of the second-order intensity maximum, θ2, in degrees.The hydrogen spectrum includes a red line at 656 nm and a blue-violet line at 434 nm. What are the angular separations between these two spectral lines for all visible orders obtained with a diffraction grating that has 5,000 grooves/cm? (In this problem assume that the light is incident normally on the gratings.)What are the angles for the first three maxima of a diffraction grating with 2500 lines/cm and light of wavelength 410?
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