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Problem #2. Alkene Spectroscopy a) Draw in two of the major fragmentation products of the radical...
29. The mass spectrum of the compound shown below has significant fragmentation peaks at m/z 85,...
29. The mass spectrum of the compound shown below has significant fragmentation peaks at m/z 85, 58, 57, 43, and 42. which two of these peaks are due to α-cleavage, and which one of therm is due to a McLafferty rearrangement? 30. Draw the expected 'H NMR spectrum for PhC02CH(CH3)2. Show correct shifts, multiplicities, and # of H-atoms. Finally, indicate which diagnostic IR absorptions you would expect to see for this compound. 6 4 2 0 PPM IR absorbances:
A. One mechanism of fragmentation is loss of a neutral radical by cleavage of a bond...
A. One mechanism of fragmentation is loss of a neutral radical by cleavage of a bond from which one electron has been lost. What is the m/z ratio of the most stable cationic fragment that can be generated from dexchlorpheniramine by this mechanism? Show the structure of the fragment and discuss charge stabilization. B. The base peak in the dexchlorpheniramine mass spectrum occurs at m/z 203. A peak with relative intensity 33.1 occurs at m/z 205. Interpret this information with...
for the following 2 compounds, please calculate, and show the calculations for, the degree of unsaturation, assign the IR spectrum peaks, assign the 13C NMR peaks, assign the 1H NMR peaks, and draw th...
for the following 2 compounds, please calculate, and
show the calculations for, the degree of unsaturation, assign the
IR spectrum peaks, assign the 13C NMR peaks, assign the 1H NMR
peaks, and draw the structure for the unknown compound.
CHIM 245 Spectroscopy Problem Set #2 In this problem set there are two unknown compounds. You are provided with the formula, IR spectrum, "C NMR spectrum, and 'H NMR spectrum for each compound. Each unknown is worth 10 points, with an...
Combined Spectroscopy Problem: Determine the structure of the following comp on the IR, 'H & C...
Combined Spectroscopy Problem: Determine the structure of the following comp on the IR, 'H & C NMR information given. Draw the bond line structure for ne following compounds based ne structure for full credit. 52.A C1H160 molecule shows a broad IR peak at 3400 cm: absorptions at 3045 and 2 strong absorptions at 1600, 1498 cm '; and 1205 cm! The ratio of carbon-bonded hya its 'H-NMR spectrum is, 6:3:2:2:1:1, with a corresponding signal multiplicity of d, a, a, 4:4...
draw the structure for the spectroscopy and show steps and label each part Mass Spectrum (not...
draw the structure for the spectroscopy and show steps
and label each part
Mass Spectrum (not shown): [M] = 302 (75%), 304 (100%), 306 (25%) m/z (all listed are strong (s) unless otherwise IR Spectrum (not shown): 3090, 2985, 2850, 2750, 1715, 1610, 1500 cm indicated) 'H NMR Spectrum (400 MHz, CDCI, 25 °C) t(J = 2 Hz) t(J= 2 Hz) +(J= 2 Hz) 2H 6H 3H 1H 1H 1H PPM HC NMR Spectrum (with DEPT), proton-decoupled (125 MHz, CDCI,...
Problem #6. Draw the line structure in the box that fits each set of criteria. ALL...
Problem #6. Draw the line structure in the box that fits each set of criteria. ALL of these compounds are hydrocarbons (C and H only). Hint: figure out the formula based on the mass. Divide the mass by 14 (the mass of a CH). a) MS: 124 m/z (M) IR: no peaks between 1600-2200 cm Spiro ring system Achiral 3 peaks in the 3C NMR spectrum MS: 124 m/z (MT) IR: no peaks between 1600 - 2200 cm Fused ring...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal IR absorption bands above 1500 cm-1 3) Draw the structure of the compound 4) Label the protons on your structure with letters and assign them to peaks on the NMR spectrum (see the example below). в OHD 3.5- 3. 2.5 1.0 PPM 0.5 Each problem contains the formula of the compound, the IR spectrum (with axes in cm vs. % transmission), and the...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal IR absorption bands above 1500 cm-1 3) Draw the structure of the compound 4) Label the protons on your structure with letters and assign them to peaks on the NMR spectrum (see the example below). в OHD 3.5- 3. 2.5 1.0 PPM 0.5 Each problem contains the formula of the compound, the IR spectrum (with axes in cm vs. % transmission), and the...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal IR absorption bands above 1500 cm-1 3) Draw the structure of the compound 4) Label the protons on your structure with letters and assign them to peaks on the NMR spectrum (see the example below). в OHD 3.5- 3. 2.5 1.0 PPM 0.5 Each problem contains the formula of the compound, the IR spectrum (with axes in cm vs. % transmission), and the...
Shown below is the peak list of chemical shifts, multiplicities, numbers of protons (from integration), and...
Shown below is the peak list of chemical shifts, multiplicities,
numbers of protons (from integration), and coupling constants for
the 1H NMR spectrum in Question 4.
a) Draw the chemical structure of trans-4-nitrochalcone. Circle
the proton or protons that you would attempt to identify in the 1H
NMR spectrum as evidence that the expected trans-isomer was formed
(rather than the cis-isomer).
b) Identify the peak or peaks in the peak list that
correspond(s) to the proton or protons circled in...
29. The mass spectrum of the compound shown below has significant fragmentation peaks at m/z 85, 58, 57, 43, and 42. which two of these peaks are due to α-cleavage, and which one of therm is due to a McLafferty rearrangement? 30. Draw the expected 'H NMR spectrum for PhC02CH(CH3)2. Show correct shifts, multiplicities, and # of H-atoms. Finally, indicate which diagnostic IR absorptions you would expect to see for this compound. 6 4 2 0 PPM IR absorbances:
for the following 2 compounds, please calculate, and
show the calculations for, the degree of unsaturation, assign the
IR spectrum peaks, assign the 13C NMR peaks, assign the 1H NMR
peaks, and draw the structure for the unknown compound.
CHIM 245 Spectroscopy Problem Set #2 In this problem set there are two unknown compounds. You are provided with the formula, IR spectrum, "C NMR spectrum, and 'H NMR spectrum for each compound. Each unknown is worth 10 points, with an...
Combined Spectroscopy Problem: Determine the structure of the following comp on the IR, 'H & C NMR information given. Draw the bond line structure for ne following compounds based ne structure for full credit. 52.A C1H160 molecule shows a broad IR peak at 3400 cm: absorptions at 3045 and 2 strong absorptions at 1600, 1498 cm '; and 1205 cm! The ratio of carbon-bonded hya its 'H-NMR spectrum is, 6:3:2:2:1:1, with a corresponding signal multiplicity of d, a, a, 4:4...
draw the structure for the spectroscopy and show steps
and label each part
Mass Spectrum (not shown): [M] = 302 (75%), 304 (100%), 306 (25%) m/z (all listed are strong (s) unless otherwise IR Spectrum (not shown): 3090, 2985, 2850, 2750, 1715, 1610, 1500 cm indicated) 'H NMR Spectrum (400 MHz, CDCI, 25 °C) t(J = 2 Hz) t(J= 2 Hz) +(J= 2 Hz) 2H 6H 3H 1H 1H 1H PPM HC NMR Spectrum (with DEPT), proton-decoupled (125 MHz, CDCI,...
Problem #6. Draw the line structure in the box that fits each set of criteria. ALL of these compounds are hydrocarbons (C and H only). Hint: figure out the formula based on the mass. Divide the mass by 14 (the mass of a CH). a) MS: 124 m/z (M) IR: no peaks between 1600-2200 cm Spiro ring system Achiral 3 peaks in the 3C NMR spectrum MS: 124 m/z (MT) IR: no peaks between 1600 - 2200 cm Fused ring...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal IR absorption bands above 1500 cm-1 3) Draw the structure of the compound 4) Label the protons on your structure with letters and assign them to peaks on the NMR spectrum (see the example below). в OHD 3.5- 3. 2.5 1.0 PPM 0.5 Each problem contains the formula of the compound, the IR spectrum (with axes in cm vs. % transmission), and the...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal IR absorption bands above 1500 cm-1 3) Draw the structure of the compound 4) Label the protons on your structure with letters and assign them to peaks on the NMR spectrum (see the example below). в OHD 3.5- 3. 2.5 1.0 PPM 0.5 Each problem contains the formula of the compound, the IR spectrum (with axes in cm vs. % transmission), and the...
Spectroscopy Problems For each problem, you must: 1) Calculate the degree of unsaturation. 2) Assign the principal IR absorption bands above 1500 cm-1 3) Draw the structure of the compound 4) Label the protons on your structure with letters and assign them to peaks on the NMR spectrum (see the example below). в OHD 3.5- 3. 2.5 1.0 PPM 0.5 Each problem contains the formula of the compound, the IR spectrum (with axes in cm vs. % transmission), and the...
Shown below is the peak list of chemical shifts, multiplicities,
numbers of protons (from integration), and coupling constants for
the 1H NMR spectrum in Question 4.
a) Draw the chemical structure of trans-4-nitrochalcone. Circle
the proton or protons that you would attempt to identify in the 1H
NMR spectrum as evidence that the expected trans-isomer was formed
(rather than the cis-isomer).
b) Identify the peak or peaks in the peak list that
correspond(s) to the proton or protons circled in...
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