Light of wavelength 627 nm is incident normally on a diffraction grating. Two adjacent maxima occur at angles given by sin 0 = 0.22 and sin 8 = 0.36. The fourth-order maxima are missing. (a) What is the separation between adjacent slits? (b) What is the smallest slit width this grating can have? For that slit width, what are the (c) largest, (d) second largest, and (e) third largest values of the order number m of the maxima produced by the grating? (a) Number i (b) Number i (c) Number i (d) Number i (al Numbor Units Units Units Units I Inito
Light of wavelength 627 nm is incident normally on a diffraction grating. Two adjacent maxima occur at angles given by sin 0 = 0.22 and sin 8 = 0.36. The fourth-order maxima are missing. (a) What is the separation between adjacent slits? (b) What is the smallest slit width this grating can have? For that slit width, what are the (c) largest, (d) second largest, and (e) third largest values of the order number m of the maxima produced by the grating? (a) Number i (b) Number i (c) Number i (d) Number i (al Numbor Units Units Units Units I Inito
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Transcribed Image Text:Light of wavelength 627 nm is incident normally on a diffraction grating. Two adjacent maxima occur at angles given by sin 0 = 0.22 and
sin 8 = 0.36. The fourth-order maxima are missing. (a) What is the separation between adjacent slits? (b) What is the smallest slit width
this grating can have? For that slit width, what are the (c) largest, (d) second largest, and (e) third largest values of the order number m
of the maxima produced by the grating?
(a) Number i
(b) Number i
(c) Number i
(d) Number
(e) Number
i
i
Units
Units
Units
Units
Units
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