Assume that the incident x-ray beam in the figure below is not monochromatic but contains wavelengths in a band from 95.0pm to 139pm. Will diffracted beams, associated with planes shown, occur? If so, what wavelengths are diffracted? Assume d=275pm. (where pm-picometer = 10-¹2 meters). Incident beam direction 42.2° II I II I
Assume that the incident x-ray beam in the figure below is not monochromatic but contains wavelengths in a band from 95.0pm to 139pm. Will diffracted beams, associated with planes shown, occur? If so, what wavelengths are diffracted? Assume d=275pm. (where pm-picometer = 10-¹2 meters). Incident beam direction 42.2° II I II I
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![Assume that the incident x-ray beam in the figure below is not monochromatic but
contains wavelengths in a band from 95.0pm to 139pm. Will diffracted beams,
associated with planes shown, occur? If so, what wavelengths are diffracted? Assume
d=275pm. (where pm-picometer = 10-¹² meters).
Incident
beam
direction
42.2°
d](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8334bf9f-036f-42c6-8278-821b6fa1dd3e%2F7710ea38-99df-4ab7-a4eb-6e957db05d0a%2Ffdnci5_processed.png&w=3840&q=75)
Transcribed Image Text:Assume that the incident x-ray beam in the figure below is not monochromatic but
contains wavelengths in a band from 95.0pm to 139pm. Will diffracted beams,
associated with planes shown, occur? If so, what wavelengths are diffracted? Assume
d=275pm. (where pm-picometer = 10-¹² meters).
Incident
beam
direction
42.2°
d
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