X-ray diffraction is used to study the structure of crystallized proteins, nucleic acids, and other biological macromolecules. It was actually the technique used to study the structure of DNA in the early 1950s. X-rays of wavelength 0.17 nm are to used to study the structure of a protein. One of the maxima in intensity is located at 0.8 rad from the crystal planes responsible for this maximum. Which wavelength of x-ray listed below would give you a maximum at the same location? O 0.26 nm O 0.60 nm O 0.43 nm 0.34 nm Submit Request Answer Part B If this is the first maximum for the X-rays of wavelength 0.17 nm , what is the crystal plane separation of the protein that is responsible? O 0.11 nm O 0.12 nm O ap4 nm O 0.17 nm Submit Request Answer Part C Why can't visible light be used to study the structure of proteins such as this? O The wavelengths of visible light are too long compared to the atomic spacing.

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IReview I Constants I Periodic Table X-ray diffraction is used to study the structure of crystallized proteins, nucleic acids, and other biological macromolecules. It was actually the technique used to study the structure of DNA in the early 1950s. X-rays of wavelength 0.17 nm are to used to study the structure of a protein. One of the maxima in intensity is located at 0.8 rad from the crystal planes responsible for this maximum. Which wavelength of x-ray listed below would give you a maximum at the same location? O 0.26 nm O 0.60 nm 0.43 nm 0.34 nm Submit Request Answer Part B If this is the first maximum for the X-rays of wavelength 0.17 nm , what is the crystal plane separation of the protein that is responsible? O 0.11 nm O 0.12 nm O O24 nm O 0.17 nm Submit Request Answer Part C Why can't visible light be used to study the structure of proteins such as this? O The wavelengths of visible light are too long compared to the atomic spacing. P Pearson Copyright © 2021 Pearson Education Inc. All rights reserved. | Terms of Use | Privacy Policy | Permissions | Contact Us |

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Review I Constants I Periodic Ta A quantum system has three energy levels, so three wavelengths appear in its emission spectrum. The shortest observed wavelength is 263 nm ; light with a 454 nm wavelength is also observed. Part A What is the third wavelength? Express your answer with the appropriate units. Value Units Submit Request Answer Next > Provide Feedback MacBook Air