Asked by akhona mbendeni on May 01, 2024
Verified
Provide a structure that is consistent with the data below.
C7H16O
IR (cm-1): 3200-3600 (broad), 2950
1H NMR ( d): 2.8 (1H, broad s), 1.0 (6H, s), 0.9 (9H, s)
13C NMR (d ): 68 (s), 39 (s), 16 (q), 13 (q)
NMR
Nuclear Magnetic Resonance, a spectroscopic technique used to observe local magnetic fields around atomic nuclei, facilitating the determination of molecule structure.
IR
Stands for Infrared Spectroscopy, a technique used to identify and study chemicals through their absorption of infrared radiation.
Broad
Having a wide range, scope, or extent; in NMR, a broad signal suggests a diversity of chemical environments or interactions.
- Understand how to interpret IR spectroscopy data to identify functional groups in organic compounds.
- Recognize and analyze proton NMR (nuclear magnetic resonance) data to deduce hydrogen environments in organic structures.
- Analyze carbon-13 NMR data to determine carbon environments in organic molecules.
Verified Answer
Learning Objectives
- Understand how to interpret IR spectroscopy data to identify functional groups in organic compounds.
- Recognize and analyze proton NMR (nuclear magnetic resonance) data to deduce hydrogen environments in organic structures.
- Analyze carbon-13 NMR data to determine carbon environments in organic molecules.
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