7. Consider the IR, 'H-NMR and C-NMR spectra of the compound with MF:C,H, 0. 4 pts...
7. Consider the IR, 'H-NMR and C-NMR spectra of the compound with MFC,1,0, Identify the structure of the unknown compound MP pls MW 114 *C 73.6 WW 124 Mass Spee, D relativ mix bund, 27 71 74 LESTE WVELDEN Copyright © 1994 래 TTTT 2.0 3.0 Proton NMR 1.5 1.0 PPM MITTIT 200 TTI TITTI 80 60 40 20 PPM 0 180 160 Y 120 140 100 Carbon 13 NMA 8. Consider the IR, 'H-NMR and 13C-NMR spectra of the...
An alcohol 6. Consider the IR, 'H-NMR and 13C-NMR spectra of the compound with MF: C,H, 0. Identify the structure of the unknown compound. 4 pts MF C7H160 MW 116 *C 72.3 %H 13.9 TS SSTT * TRANSMITTANCE Mass Spec. relati m/z abun 27 29 31 19 42 10 45 18 ze SCI 2870.23 Copyright © 1994 WAVENUMBERS WENUNTERS 124 9.612.5% Proton NMR 2.6 0.5 PPM 604020 PPM 1000 Carbon 13 NNA OH B. D. OH
Identify the structure and draw it based on the formula and the spectroscopy. Justify your answer MF CH40 47 MW 114 C 73.6 SH 12.4 3H 6H Copyright 1994 0.5 2.0 1.0 PPM 3.0 Poton NMR 2.5 1.5 180 160 140 200 80 120 100 20 PPM 0 Carbon 13 NMA ww ab sa ELITSM м М 6е 28 1500 180e 2000 2500 HAVENUMBERS 6H ЗН Copyright 1994 ST'S0T 1289.32 aL L9ET 20 89T 6L 8TLT ALE62 HAVENUMBERS ЗН ©1994...
assign the major absorptions in the IR spectra, assign chemical shifts in both NMR, designate the parent peak in the mass spectra data and assign the major fragments to their corresponding peaks, and finally provide the structure for the formula. MF C9H100 MW 134 SC 10.6 SH 7.5 Mass Spec. Data relative mit abund 5123 77 27 91 100 12 103 105 134 1357 Copyright © 1994 2H2H 2.8 2.PPK Proton NMR 215010 205 206 195 196 PPM Carbon 13...
8. Consider the IR, 'H-NMR and "C-NMR spectra of the compound with MF: C,H, Bro, Identify the structure of the unknown compound 4 pts MF C3HgBroz MW 153 *C 23.6 % 3.3 % Br 52.2 Mass Spec. Das relative m/z abund. 27 78 30 28 33 8 45 41 7 100 CE2 OTA Colt solid sample KBr pellet 1720.me 113171 16 We were unable to transcribe this image
assign the major absorptions in the IR spectra, assign chemical shifts in both NMR, designate the parent peak in the mass spectra data and assign the major fragments to their corresponding peaks, and finally provide the structure for the formula. MF CHE MW 68 %C88.2 *H 11.8 Mass Spec. Data relative m/ abund. 21 3H .. Copyright © 1994 Note 'long-range' coupling. T TTTTTTTTTTTTTTTTT 2.4 2.2 2.0 Proton NMR 1.8 1.6 1.4 1.0 0.8 PPM Carbon 13 NMR
A compound with molecular formula C7H160 displays the following IR and 'H-NMR spectra. The 13C NMR data suggest that there is some symmetry within the molecule. a) Calculate the degrees of unsaturation (DU) for the compound in the space provided below. DU = b) Identify and label the two indicated peaks in the IR spectrum in the boxes provided. Identify and label ALL peaks in the 'H NMR spectrum below. The numbers given on the 'H NMR are integration values...
A compound with molecular formula C7H160 displays the following IR and 'H-NMR spectra. The 13C NMR data suggest that there is some symmetry within the molecule. a) Calculate the degrees of unsaturation (DU) for the compound in the space provided below. DU = b) Identify and label the two indicated peaks in the IR spectrum in the boxes provided. Identify and label ALL peaks in the 'H NMR spectrum below. The numbers given on the 'H NMR are integration values...
4. Determine the structure of an unknown compound whose mass, IR, and 'H-NMR spectra are shown below.. MS 100 43 71 Structure of the unknown compound 50 114 0 40 60 80 100 120 m/z IR H-NMR δ (ppm) 0
CH 203 Organic Chemistry Infrared Spectroscopy Experiment 10 points Based on the following IR and NMR spect sed on the following IR and NMR spectra and with blue molecular formula, formulate the of the compound. Identify regions of your structure that correspond to the pea graph below. Show your organic compound structure here on this page for this laboratory class. - your NMR protons are shown in faction you can tound them to a whole number by protons by a...