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Part A The first-order line of 607 nm light falling on a diffraction grating is observed...
Diffraction Grating H Part A The first-order line of 576 nm light falling on a diffraction grating is observed at a 13.2° angle. How far apart are the slits? Submit Answer Tries 0/12 Part B At what angle will the third order be observed? Submit Answer Tries 0/12
The first-order line of 589 nm light falling on a diffraction grating is observed at a 15.5 degree angle. a) How far apart are the slits? b) At what angle will the third-order be observed?
Problem 6: The third order line of 550 nm light falling on a diffraction grating is observed at a 26 degree angle. What is the spacing of the grating slits? (6 pus)
A) At what angle will 642 nm light produce a first-order maximum when falling on a grating whose slits are 1.8 × 10-3 cm apart? B)At what angle will 513 nm light produce a second-order maximum when falling on a grating whose slits are 1.19 × 10-3 cm apart? C) A grating that has 3,904 slits per cm produces a third-order fringe at a 21.7° angle. What wavelength of light is being used in nm?
The atomic emission spectrum of a light source is analyzed with a diffraction grating. A thick line near 589.0 nm is observed. In order to resolve the thick line into two fine lines in first order, you replace with a 2.450 cm long diffraction grating, and you barely observed two distinct first order spectral lines at 589.0 and 589.6 nm on a screen 5.000 m away. a. What is the resolving power of the grating? b. What is the slit...
a. How many lines per millimetre are required in a grating if the first-order diffraction line at 500 nm is to be observed at a reflection angle of 10 deg when the angle of incidence is 60 deg? I got 2080 line/mm for this part, which is the right answer! need help with part b b. What wavelength would have a second-order diffraction line at the same position as (a)? Your answer should have units of nanometers (nm).
Light of wavelength 500 nm is incident normally on a diffraction grating. The third-order maximum of the diffraction pattern is observed at 32.0°. (a) What is the number of rulings per centimeter for the grating?_________grooves/cm (b) Determine the total number of primary maxima that can be observed in this situation.__________
Light of wavelength 500 nm is incident normally on a diffraction grating. The third-order maximum of the diffraction pattern is observed at 32.0°. (a) What is the number of rulings per centimeter for the grating? grooves/cm (b) Determine the total number of primary maxima that can be observed in this situation.
Part A At what angle will 530-nm light produce a second-order maximum when falling on a grating whose slits are 1.25x10-3 cm apart? Express your answer using three significant figures. Submit Request Answer
Light of wavelength 490.00 nm is incident normally on a diffraction grating, and the first-order maximum is observed to be 31.0° from the normal. How many slits per millimeter are marked on the grating? number of slits per millimeter: TOOLS x109