Deduce the following structure of the compound given their IR, H1 NMR, 13C NMR spectra, and...

Question

Question

Deduce the following structure of the compound given their IR, H1 NMR, 13C NMR spectra, and assign IR functional group absorptions and assign the structure's protons and carbons to their respective spectral resonances.

Compound 6 1756 IR Spectrum uid Sm) 15820 4000 3000 2000 1600 1200 800 V (cm) 100 55 Mass Spectrum 71 80 70 60 No significant

science chemistry

Add a comment Improve this question Transcribed image text

Answer 1

Answer #1

Peak & at 1820 & 1735 an is (participat due to in resonance CH3 - CH₂ - CHg със от 2 a! - CH₂ - CH₂ - CH₂ ч чала На – ось, €н

Add a comment

Answer 2

Similar Homework Help Questions

Deduce the following structure of the compound given their IR, H1 NMR, 13C NMR spectra, and...

Deduce the following structure of the compound given their IR, H1 NMR, 13C NMR spectra, and assign IR functional group absorptions and assign the structure's protons and carbons to their respective spectral resonances. Compound 4 Da- U6)+20 IR Spectrum Oquid fim) 1760 800 1200 2000 1600 3000 4000 v (cm) Mass Spectrum 100 43 No significant UV absorption above 220 nm M146 (1% ) 87 20 CH1004 280 40 80 120 m/e 160 200 240 13C NMR Spectrum (1000 MHz,...
Deduce the structure of the following 7 compounds given their IR, 'H NMR, and 13C NMR...

Deduce the structure of the following 7 compounds given their IR, 'H NMR, and 13C NMR spect ra, and draw their structure in the space provided below. For full credit, assign IR functional group absorptions and assign the structure's protons and carbons to their respective spectral resonances. For questions 8-10, provide a step- by-step mechanism for the transformations shown. The quiz must be turned in at the beginning of class on Wednesday, November 20, 2019 Compound 6: C$H14O3 Compound 6...
9. Using H NMR, C13 and IR draw the structure and assign IR functional group as...

9. Using H NMR, C13 and IR draw the structure and assign IR functional group as well as the structure’s protons and carbons to their respective spectral resonances. NOTE: the integration values at the top of the page are left to right not right to left d9: CsHeO IR Spectrum quid im) 3410 3000 4000 2000 1600 1200 800 v (om) Mass Spectrum No significant UV absorption above 220 nrm M (1%) 71 CsHaoo 260 200 240 160 120 m/e...

Compound 2 IR Spectrum Chri) 4000 3000 2000 18001200 vom",000 1200000 100 Mass Spectrum UV Spectrum...

Compound 2 IR Spectrum Chri) 4000 3000 2000 18001200 vom",000 1200000 100 Mass Spectrum UV Spectrum M 220 (1) 2. max 253 nm 0091626) 2. max 250 nm (09, 2.7) 2. max 264 nm (09,06 2.5) PS.... CH2O3 solvent thanol 40 80 120 160 200 240 280 13C NMR Spectrum (100 MHE COCI, solution) DEPT CH CH CH proton decoupled 30 128 ppm 200 - 160 120 80 40 08 (ppm) 'H NMR Spectrum (400MHE. COCI, solution Exchanges wie Do...
Label the spectra and propose a structure for the compound. Compound 5 IR Spectrum Olquid fim...

Label the spectra and propose a structure for the compound. Compound 5 IR Spectrum Olquid fim 1740 4000 3000 20 ,1600 1200 300 100% Mass Spectrum M = 150/152 (15) CH,40, CI 240 280 40 80 120 160 200 13C NMR Spectrum (500 M , CDC, son DEPT CH CH CH selvon proton decoupled 200 160 120 80 40 0 8 (ppm) 'H NMR Spectrum (200 MH. COCI, solution 10 9 8 7 6 5 4 3 2 (ppm)
V (em) 100 Mass Spectrum No significant UV absorption above 210 nm 40E 8 C3H6 O2 40 80 120 160 20...

determine the compound structure based on the spectrums. V (em) 100 Mass Spectrum No significant UV absorption above 210 nm 40E 8 C3H6 O2 40 80 120 160 200 240 280 m/e 13C NMR Spectrum (500 Mrz. Coci, solution) protion coupled proton decoupled 200 80 40 0 δ(ppm) 160 120 H NMR Spectrum (100 MHz, CDC, soluton) TMS expansion 4x 10 9 8 6 5 4 3 2 1 0 6 (ppm) V (em) 100 Mass Spectrum No significant UV...

Find the compounds using NMR and IR: Problem 85 IR Spectrum (liquid fiim) 1720 1600 2000...

Find the compounds using NMR and IR: Problem 85 IR Spectrum (liquid fiim) 1720 1600 2000 v (cm) 800 3000 1200 4000 100 Mass Spectrum 73 140 138 80 No significant UV 60 115 absorption above 220 nm 40 M 194/196 (1% ) 20 CeH1102Br 120 160 200 240 280 40 80 m/e 13C NMR Spectrum (50.0 MHz, CDCI, solution) DEPT CH, Cн, сн! solvent proton decoupled 8 (ppm) 160 120 40 200 80 H NMR Spectrum (200 MHz, CDCI,...
Label the spectra and propose a structure for the compound. Compound 1 IR Spectrum liquid mi...

Label the spectra and propose a structure for the compound. Compound 1 IR Spectrum liquid mi 4000 3000 2000 1600 1200 1200 V on Mass Spectrum UV Spectrum 2. max 252 mm (10910622) 2. max 257 nm (log, 2.3) 2 mar 262 nm (10910€ 2.2) 2. max 254 nm (1090€ 2.2) 2.mex 268 nm logo 2.0) solvent thanol M 150 Coto2 40 80 240 120 m 200 280 160 /e 13C NMR Spectrum (100 M-2. CDC, solution ansion DEPT CH...
Label the spectra and propose a structure for the compound. Compound 6 1 1755 IR Spectrum...

Label the spectra and propose a structure for the compound. Compound 6 1 1755 IR Spectrum quid fim 1120 4000 3000 2000 V (cm 16001200800 ) Mass Spectrum So base peak M" 158 (<1%) No significant UV absorption above 220 nm C₂ H₂ 403 280 40 80 120 160 200 240 13C NMR Spectrum 150.0 MHz, CDCI, solution) DEPT Chut Chitch! proton decoupled 200 160 120 80 40 0 8 (ppm) TH NMR Spectrum 2200 MHZ. CDC, solution) 150 10...

Find the compounds using IR and NMR: Problem 25 2251 IR Spectrum (liquid film) 800 1600...

Find the compounds using IR and NMR: Problem 25 2251 IR Spectrum (liquid film) 800 1600 1200 4000 3000 2000 v (cm) 100 Mass Spectrum M 117 80 77 60 91 40 20 CgH7N 200 80 120 160 240 280 40 m/e expansion 13C NMR Spectrum (100.0 MHz, CDCI, solution) 130 129 ppm DEPT CH Cн,! сн! expansion 130 129 ppm solvent proton decoupled (ppm) 40 200 160 120 80 H NMR Spectrum (400 MHz. CDCI, solution) TMS 10 7...

Deduce the following structure of the compound given their IR, H1 NMR, 13C NMR spectra, and...

Homework Answers