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Which of the compounds will give the following 13C NMR and DEPT data? Broadband decoupled 13C...
Determine the correct structure of the compound, which shows following 13C NMR DEPT-135 data is 13C NMR DEPT-135: negative peaks at δ30.2, 31.9, 61.8, 114.7 ppm; positive peak at 130.4 ppm
Please help! Q.4. Determine the correct structure of the compound, which shows following 13C NMR DEPT-135 data is 13C NMR DEPT-135: negative peaks at δ30.2, 31.9, 61.8, 114.7 ppm; positive peak at 130.4 ppm
Which peak would NOT be in either the decoupled 13C or 1H NMR spectra of the molecule shown below? a)a singlet around 65 ppm (13C) b)a quartet around 2. 1 ppm (1M) c)a doublet around 1. 1 ppm (1H) d)a singlet around 170 ppm (13C) e) a singlet around 220 ppm (13C) f) a singlet around 3. 5 ppm (1H) 2) For which pair of molecules below would decoupled l3C NMR spectroscopy not be effective in easily telling apart?
Propose a structure that fits the following spectroscopic data: C5H10O IR: 1716 cm−1 Broadband decoupled 13C NMR: 7.93, 35.50, 212.07 δ DEPT Experiments show: signal at 7.93 δ as CH3 and signal at 35.50 δ as CH2
The broadband proton-decoupled 13C NMR spectrum of a hexyl chloride exhibits six signals. Which of these structures could be the correct one for the compound? The broadband proton-decoupled 13c NMR spectrum of a hexyl chloride exhibits six signals. Which of these structures could be the correct one for the compound? Note diastereotopic groups are possible CH3 CH3CCH2CH2CI CH3 CH3 CHACHCHCH2CH3 CH3 CH3CCHCH3 CI CH3CH2CCH20% CH3 O CH3 CH3 CH3C-CHCH3
Propose a reasonable structure based on the molecular formula, the 1H NMR, and the proton–decoupled 13C NMR data below. The unknown compound has a molecular formula of C7H16O and * = CH2 by DEPT. Propose a reasonable structure based on the molecular formula, the 'H NMR, and the proton-decoupled 13C NMR data below. The unknown compound has a molecular formula of C7H160 and * = CH2 by DEPT. 'H NMR 3H 8H 13C NMR 2H (CH3)4 Si 26 VIH them...
What would the structure look like using the mass spec with a parent peak of 162, IR, C-NMR and H-NMR? TRETTENCEI Singlet doublet Singlet triplet muitplet PPM halides 13C NMR: Broadband in provided below. DEPT data is in the provided table. 200 180 160 140 120 100 PPM 80 60 40 20 0 DEPT-135 positive DEPT-90 positive PPM 191 149 138 137 135 128 126 positive positive positive positive positive positive positive positive positive positive
Draw the structure of the compound C10H12O that exhibits the 13C-NMR spectrum and DEPT data below. Impurity peaks are omitted from the DEPT data list. The triplet at 77 ppm is CDCl3. Draw the structure of the compound C10H120 that exhibits the 13C-NMR spectrum and DEPT data below. Impurity peaks are omitted from the DEPT data list. The triplet at 77 ppm is CDCl Used with p n from Aldrich Chemical Co., Inc. Solvent CDCls Shift DEPT 90 DEPT 135...
Draw the structure that corresponds to the following molecular formula and proton decoupled 13C NMR-DEPT spectral data set (attached protons in parentheses): Molecular Formula: C4H6O Spectral data: ? 27.2 (3H), ? 127.8 (2H), ? 136.4 (1H), ? 197.7 (zero H).
1. Use the 'H NMR, 13C NMR, mass spectrometry and IR dat of a compound to determine its structure. IR Spectrum Mass Spectrometry Data relative abund 77 105 117 133 147 148 100 1H NMR Data 2H 24 ) H !! 13C NMR Data There are two unresolved lines between 130 and 131 ppa. TTTTTTTT 160 140 120 100 80 60 20 PPM 0 DEPT 135: positive: 18.4, 55.1, 113.9, 123.3, 126.9, 130.5 ppm DEPT 90: 113.9, 123.3, 126.9, 130.5...