Textbook Question
Predict the splitting pattern for each of the indicated hydrogens in Assessment 15.59.
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15. Analytical Techniques:IR, NMR, Mass Spect
1H NMR:Spin-Splitting Patterns
4:51 minutesProblem 11a
Textbook Question
Propose a structure that corresponds to each spectrum.
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Verified step by step guidance1
Step 1: Analyze the molecular formula provided in the spectrum (C₃H₇Cl). This indicates the compound contains three carbons, seven hydrogens, and one chlorine atom. The presence of chlorine suggests the molecule is likely an alkyl halide.
Step 2: Examine the chemical shifts (δ values) in the spectrum. The peaks are observed at approximately 3.6 ppm, 1.9 ppm, and 1.1 ppm. These shifts correspond to protons in different chemical environments.
Step 3: Interpret the splitting patterns (multiplets) for each peak. The peak at 3.6 ppm is a triplet, indicating it is adjacent to two equivalent protons. The peak at 1.9 ppm is a multiplet, suggesting it is adjacent to multiple non-equivalent protons. The peak at 1.1 ppm is a doublet, indicating it is adjacent to one equivalent proton.
Step 4: Assign the chemical environments based on the shifts and splitting patterns. The peak at 3.6 ppm corresponds to the CH₂ group bonded to chlorine (Cl-CH₂-). The peak at 1.9 ppm corresponds to the CH group in the middle of the chain (-CH-). The peak at 1.1 ppm corresponds to the CH₃ group at the end of the chain (-CH₃).
Step 5: Propose the structure based on the analysis. The molecule is likely 1-chloropropane (CH₃-CH₂-CH₂Cl), as this structure matches the molecular formula and the observed NMR data.
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Video duration:
4mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Spectroscopy
Spectroscopy is a technique used to measure the interaction between matter and electromagnetic radiation. It provides valuable information about the structure, composition, and properties of molecules. Different types of spectroscopy, such as NMR, IR, and UV-Vis, can reveal specific details about molecular structure, functional groups, and electronic transitions.
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Molecular Structure
Molecular structure refers to the arrangement of atoms within a molecule, including the types of bonds and the spatial orientation of atoms. Understanding molecular structure is crucial for interpreting spectra, as the specific arrangement of atoms influences how a molecule interacts with light and other forms of radiation, leading to characteristic spectral features.
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Functional Groups
Functional groups are specific groups of atoms within molecules that are responsible for the characteristic chemical reactions of those molecules. Identifying functional groups is essential for predicting how a molecule will behave in a spectrum, as different groups absorb and emit energy at distinct wavelengths, providing clues to the overall structure of the compound.
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