Suppose you have a grating with 8400 lines per cm, 1cm=0.01 m. You send a beam of white light through it and observe the

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Suppose You Have A Grating With 8400 Lines Per Cm 1cm 0 01 M You Send A Beam Of White Light Through It And Observe The 1 (35.48 KiB) Viewed 53 times

Suppose You Have A Grating With 8400 Lines Per Cm 1cm 0 01 M You Send A Beam Of White Light Through It And Observe The 2 (25.33 KiB) Viewed 53 times

Suppose You Have A Grating With 8400 Lines Per Cm 1cm 0 01 M You Send A Beam Of White Light Through It And Observe The 3 (25.44 KiB) Viewed 53 times

Suppose You Have A Grating With 8400 Lines Per Cm 1cm 0 01 M You Send A Beam Of White Light Through It And Observe The 4 (25.6 KiB) Viewed 53 times

Suppose you have a grating with 8400 lines per cm, 1cm=0.01 m. You send a beam of white light through it and observe the interference pattern on a screen at a distance of L = 2.00 m from the grating The wavelength of white light is between 380.0 nm (Violet) and 760.0 nm (red), 1nm = 10m. = Part A - What is the separation d between two adjacent lines on the grating? The unit is um = 106m. Keep 3 digits after the decimal point. View Available Hint(s) Vo] ΑΣΦ ? da jum Submit Part B. For the shortest wavelength of 380.0 nm (violet), find the angle of the first order maximum (Bright fringe) relative to the incident beam Keep 2 digits after the decimal point, ΤΟ ΑΣφ Violet Submit Request Answer

Part C. For the shortest wavelength of 380.0 nm (violet), find the distance between the first order maximum (bright) and the center of the central maximum (bright) on the screen. The unit is m. Koop 3 digits after the decimal point. VE ΑΣΦ * * ? Vivelet m Submit Request Answer Part D. For the longest wavelength of 760.0 nm (red), find the angle of the first order maximum (Bright fringe) relative to the incident boam. Koop 2 digits after the decimal point. ΨΗ ΑΣφ ? Submit Request Answer

Part E. For the longest wavelength of 760.0 nm (red), find the distance between the first order maximum (bright) and the center of the contral maximum (bright) on the screen. The unit is m. Keep 3 digits after the decimal point. 190 AXD ? Wired m m Submit Request Answer PartF- New situation: for the green light, find the angle of the 2nd order maximum (Bright fringe) relative to the incident beam Keep 2 digits after the decimal point. ΨΗ ΑΣφ 3 ? . ваrееn в Submit Request Answer

Part G - New situation: What is the separation dnew between two adjacent lines on the new grating? The unit is um = 10-6 m. Keep 3 digits after the decimal point. 19 ΑΣφ der um Submit Request Answer Part H - New situation: Find the number of lines per centimeter on the new grating. Enter an integer. ΑΣφ ? new grating number of lines per cm lines por cm Submit Request Answer