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For the following questions draw the structure of the compound
based off of the molecular formula...
3) For the following questions draw the structure of the compound based off of the molecular formula and NMR that is gi...
3) For the following questions draw the structure of the compound based off of the molecular formula and NMR that is given. a) CsH10 Draw the structure of the compound. 10 H CH10 PPM b) C3H100 Draw the structure of the compound. ЗН ЗН CgH100 d, 240, 2H 6 PPM c) C6H12O2 (IR stretch: C=0 stretch at 1737 cm) Draw the structure of the compound. 6H tsep, 1H C6H1202
Identify what structure these are based on the NMR and DRAW the structure. 4) Chemical Formula:...
Identify what structure these are based on the NMR and DRAW the
structure.
4) Chemical Formula: Cl,BrO:S IR: strong broad peak at 3300cm1, strong peak 1720 cm1 Singlet, 3H Quartet, 2H Singlet, 1H Triplet, 2H Triplet, 1H 12 10 PPM
Please give the structure based on the NMR spectra depicted. Compound G: Molecular formula = C9H12. Key Infrared signal...
Please give the structure based on the NMR spectra depicted.
Compound G: Molecular formula = C9H12. Key Infrared signal: 3082, 749, 699 cm 5H, m 3H, t 2H, sextet 2H, t 10 Heoe-ese Pprn Draw your final in this box. Compound H: Molecular formula C$H10O. Infrared signal: 2874, 2719, 1726 cm 3H, t 9-10 2H, 2H, t udd sextet 1H, singlet 2H, pentet 1.5 2.0 1.0 PPM 3.0 t0 5 10.0 9 9.0 8.5 8.0 7.5 7.0 6.5 PPM Draw...
Draw the structure that gives the NMR below. The compound has the molecular formula, CsH1002. Signal...
Draw the structure that gives the NMR below. The compound has the molecular formula, CsH1002. Signal at 4.38 (broad singlet, 1H), 3.49 (triplet, 2H), 2.40 (triplet, 2H), 2.10 (singlet, 3H), and 1.86 (pentet, 2H). IR shows a broad band at 3350 cm and a strong band at 1710 cm (in addition to others). Make sure to indicate (label) which hydrogen gives which signal. PPM
3) What is the structure of the compound in the following 1H-NMR spectrum with the molecular formula C2H, NO and a...
3) What is the structure of the compound in the following 1H-NMR spectrum with the molecular formula C2H, NO and a characteristic IR stretch near 1700 cm?? Relative integration is shown. a) Explain the multiplicity and the chemical shift of each signal b) Indicate in each signal how you would calculate the coupling constants (). Give an approximate value (range) for each of the expected J values c) Indicate the 'H coupling showing the above-indicated J values ? PPM
Draw the structure of the compound whose molecular formula is C9H10O and has the following proton...
Draw the structure of the compound whose molecular formula is
C9H10O and has the following proton NMR data:
Draw the structure of the compound whose molecular formula is C9H100 and has the following proton NMR data: triplet at 1.2 ppm, integrates to 3H quartet at 2.7 ppm, integrates to 2H doublet at 7.3 ppm, integrates to 2H doublet at 7.7 ppm, integrates to 2H singlet at 9.9 ppm, integrates to 1H Take a photo of your answer and upload it...
Draw a structure for the compound with molecular formula CsH..O and with the following spectroscope data....
Draw a structure for the compound with molecular formula CsH..O and with the following spectroscope data. IR: 1720 cm 'H NMR: 0.9 88 (triplet, 3H), 1.7 8 (sextet, 2H), 2.1 8 (singlet, 3H), 2.48 (triplet, 2H) Please draw the spectrum to help you work out the answer. Your spectrum will be graded. After drawing your structure, label the protons with the expected chemical shift given in the list.
3. Determine the structure for the compound with formula C H15BrO from the given NMR spectra....
3. Determine the structure for the compound with formula C H15BrO from the given NMR spectra. Use an inverted tree diagram to determine the coupling for the signals at 2.75 and 3.05 ppm. The compound shows a signal at 1705 cm' in the IR. (20 pts 6H ЗН 2H 1H 1H 1H 1H PPM
Draw the structure of the compound whose molecular formula is C9H10O and has the following proton...
Draw the structure of the compound whose molecular formula is
C9H10O and has the following proton NMR
data:
triplet at 1.2 ppm, integrates to 3H
quartet at 2.7 ppm, integrates to 2H
doublet at 7.3 ppm, integrates to 2H
doublet at 7.7 ppm, integrates to 2H
singlet at 9.9 ppm, integrates to 1H
What are the reagents needed for each of the following
transformations?
CH3CH2OH a., CH3CH2Br 6 ChọCH2CHCH3 CH3CH2CCH3 CH3CH2CCH3
9. SPECTROSCOPY NMR Use the following information to determine the structure of the compound with molecular...
9. SPECTROSCOPY NMR Use the following information to determine the structure of the compound with molecular formula CH1604. The IR shown a strong signal at 1740 with no signal above 3000. 1H NMR 6H 6H 2H 1H 7 6 5 3 2 1 0 13C NMR 200 125 100 75 50 25 175 150 Final Structure
3) For the following questions draw the structure of the compound based off of the molecular formula and NMR that is given. a) CsH10 Draw the structure of the compound. 10 H CH10 PPM b) C3H100 Draw the structure of the compound. ЗН ЗН CgH100 d, 240, 2H 6 PPM c) C6H12O2 (IR stretch: C=0 stretch at 1737 cm) Draw the structure of the compound. 6H tsep, 1H C6H1202
Identify what structure these are based on the NMR and DRAW the
structure.
4) Chemical Formula: Cl,BrO:S IR: strong broad peak at 3300cm1, strong peak 1720 cm1 Singlet, 3H Quartet, 2H Singlet, 1H Triplet, 2H Triplet, 1H 12 10 PPM
Please give the structure based on the NMR spectra depicted.
Compound G: Molecular formula = C9H12. Key Infrared signal: 3082, 749, 699 cm 5H, m 3H, t 2H, sextet 2H, t 10 Heoe-ese Pprn Draw your final in this box. Compound H: Molecular formula C$H10O. Infrared signal: 2874, 2719, 1726 cm 3H, t 9-10 2H, 2H, t udd sextet 1H, singlet 2H, pentet 1.5 2.0 1.0 PPM 3.0 t0 5 10.0 9 9.0 8.5 8.0 7.5 7.0 6.5 PPM Draw...
Draw the structure that gives the NMR below. The compound has the molecular formula, CsH1002. Signal at 4.38 (broad singlet, 1H), 3.49 (triplet, 2H), 2.40 (triplet, 2H), 2.10 (singlet, 3H), and 1.86 (pentet, 2H). IR shows a broad band at 3350 cm and a strong band at 1710 cm (in addition to others). Make sure to indicate (label) which hydrogen gives which signal. PPM
3) What is the structure of the compound in the following 1H-NMR spectrum with the molecular formula C2H, NO and a characteristic IR stretch near 1700 cm?? Relative integration is shown. a) Explain the multiplicity and the chemical shift of each signal b) Indicate in each signal how you would calculate the coupling constants (). Give an approximate value (range) for each of the expected J values c) Indicate the 'H coupling showing the above-indicated J values ? PPM
Draw the structure of the compound whose molecular formula is
C9H10O and has the following proton NMR data:
Draw the structure of the compound whose molecular formula is C9H100 and has the following proton NMR data: triplet at 1.2 ppm, integrates to 3H quartet at 2.7 ppm, integrates to 2H doublet at 7.3 ppm, integrates to 2H doublet at 7.7 ppm, integrates to 2H singlet at 9.9 ppm, integrates to 1H Take a photo of your answer and upload it...
Draw a structure for the compound with molecular formula CsH..O and with the following spectroscope data. IR: 1720 cm 'H NMR: 0.9 88 (triplet, 3H), 1.7 8 (sextet, 2H), 2.1 8 (singlet, 3H), 2.48 (triplet, 2H) Please draw the spectrum to help you work out the answer. Your spectrum will be graded. After drawing your structure, label the protons with the expected chemical shift given in the list.
3. Determine the structure for the compound with formula C H15BrO from the given NMR spectra. Use an inverted tree diagram to determine the coupling for the signals at 2.75 and 3.05 ppm. The compound shows a signal at 1705 cm' in the IR. (20 pts 6H ЗН 2H 1H 1H 1H 1H PPM
Draw the structure of the compound whose molecular formula is
C9H10O and has the following proton NMR
data:
triplet at 1.2 ppm, integrates to 3H
quartet at 2.7 ppm, integrates to 2H
doublet at 7.3 ppm, integrates to 2H
doublet at 7.7 ppm, integrates to 2H
singlet at 9.9 ppm, integrates to 1H
What are the reagents needed for each of the following
transformations?
CH3CH2OH a., CH3CH2Br 6 ChọCH2CHCH3 CH3CH2CCH3 CH3CH2CCH3
9. SPECTROSCOPY NMR Use the following information to determine the structure of the compound with molecular formula CH1604. The IR shown a strong signal at 1740 with no signal above 3000. 1H NMR 6H 6H 2H 1H 7 6 5 3 2 1 0 13C NMR 200 125 100 75 50 25 175 150 Final Structure
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