3. A particular diffraction grating has 1 300 grooves per millimeter, and 15.0 mm of illuminated area. a) Assuming an incident angle of 45.0°, calculate the diffraction angle for first-order light at 625 nm. b) What wavelength of light would give this same diffraction angle in the second order? )What is the first-order resolving power of the grating? d) What must be the separation (in nm) of two first-order spectral lines centered at 625 nm if they are to be resolved? e) What is the angular dispersion (in degrees) between the two lines in part (d) asthey emerge from the grating?

3. A particular diffraction grating has 1 300 grooves per millimeter, and 15.0 mm of illuminated area. a) Assuming an incident angle of 45.0°, calculate the diffraction angle for first-order light at 625 nm. b) What wavelength of light would give this same diffraction angle in the second order? )What is the first-order resolving power of the grating? d) What must be the separation (in nm) of two first-order spectral lines centered at 625 nm if they are to be resolved? e) What is the angular dispersion (in degrees) between the two lines in part (d) asthey emerge from the grating?

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Question

3. A particular diffraction grating has 1 300 grooves per millimeter, and 15.0 mm of illuminated area.
a) Assuming an incident angle of 45.0°, calculate the diffraction angle for first-order light at 625 nm.
b) What wavelength of light would give this same diffraction angle in the second order?
)What is the first-order resolving power of the grating?
d) What must be the separation (in nm) of two first-order spectral lines centered at 625 nm if they are to be
resolved?
e) What is the angular dispersion (in degrees) between the two lines in part (d) asthey emerge from the
grating?

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