Concept explainers
Describe the
the splitting pattern for each signal, and the approximate chemical shift?
(a)
Interpretation:
The
Concept introduction:
The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In
Answer to Problem 14.17P
The
The number of NMR signals, the splitting pattern for each signal and the approximate chemical shift values are rightfully stated.
Explanation of Solution
The given compound is ethyl methyl ether
Figure 1
The proton
The
(b)
Interpretation:
The
Concept introduction:
The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In
Answer to Problem 14.17P
The
The number of NMR signals, the splitting pattern for each signal and the approximate chemical shift values are rightfully stated.
Explanation of Solution
The given compound is isopropylpropionate
Figure 2
The proton
The
(c)
Interpretation:
The
Concept introduction:
The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In
Answer to Problem 14.17P
The
The number of NMR signals, the splitting pattern for each signal and the approximate chemical shift values are rightfully stated.
Explanation of Solution
The given compound is
Figure 3
The proton
The
(d)
Interpretation:
The
Concept introduction:
The number of NMR signal in a compound is equal to the number of chemically non-equivalent protons present in that compound. In
Answer to Problem 14.17P
The
The number of NMR signals, the splitting pattern for each signal and the approximate chemical shift values are rightfully stated.
Explanation of Solution
The given compound is
Figure 4
The proton
The
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Chapter 14 Solutions
Organic Chemistry
- Predict the number of signals expected in the 'H-NMR spectrum. 1 B 2 C 3 D 4 E Aarrow_forward1Compound 1 has molecular formula C7H16. It shows three signals in the 1H-NMR spectrum, one at 0.85 ppm, one at 1.02 ppm, and one at 1.62 ppm. The relative integrals of these three signals are 6, 1, and 1, respectively. Compound 2 has molecular formula C7H14. It shows three signals in the 1H-NMR spectrum, one at 0.98 ppm, one at 1.36 ppm, and one at 1.55 ppm. The relative integrals of these three signals are 3, 2, and 2, respectively. Propose structures for compounds 1 and 2, explaining how you reach your conclusion.arrow_forwardA compound with a molecular formula C12H24 exhibits an H+ NMR spectrum with only one signal and a 13 C NMR spectrum with two signals. Draw the structure of the compound.arrow_forward
- Draw the structure of a compound with the molecular formula C9H10O2 that produces the following 1H NMR spectrum and 13C NMR spectrum.arrow_forwardDraw the H1 NMR spectra of ethylcyclopropane. Draw the chemical structure and predict the proton splitting and chemical shifts.arrow_forwardCompound 1 has molecular formula C7H16. It shows three signals in the 1H-NMR spectrum, one at 0.85 ppm, one at 1.02 ppm, and one at 1.62 ppm. The relative integrals of these three signals are 6, 1, and 1, respectively. Compound 2 has molecular formula C7H14. It shows three signals in the 1H-NMR spectrum, one at 0.98 ppm, one at 1.36 ppm, and one at 1.55 ppm. The relative integrals of these three signals are 3, 2, and 2, respectively. Propose structures for compounds 1 and 2, explaining how you reach your conclusion.arrow_forward
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