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Given the structure of an aldehyde and a ketone, predict the structure of the reaction product...
Analysis Questions 1. Given the structure of an aldehyde and a ketone, predict the structure of the reaction produc...
Analysis Questions 1. Given the structure of an aldehyde and a ketone, predict the structure of the reaction product. Use the table below to practice and to predict the possible products your class synthesized. HẠC CHỊ acetone cyclopentanone benzaldehyde Product #1, m.p. 113 °C Product #2, m.p. 189 °C NA trans-cinnamaldehyde Product #3, m.p. 144 °C 2. Include the IR spectrum of your product. Label important peaks with corresponding functional group. 3. Include the melting point your product. 4. Draw...
Codes: Aldehyde: ZPA Ketone: BCK Amount of material started with: 2 mL of aldehyde and 0.5...
Codes:
Aldehyde: ZPA
Ketone: BCK
Amount of material started with: 2 mL of aldehyde and 0.5 mL
of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1 Ethanol/Acetone
6.1724 7.6069 7.5891 Z-8, CDC13 Z-B, CDC13 7.2839 2724 7.6069 7.5891 4.061 7.0012 6.9836 7.2839 7.2 6.08.18 8862 7.0 4.0666 7.0012 6.9836 3.9987 -3.1154 Ippm] Ippm] Aldehydes ketones Cyclopentanone Cyclohexanone Acetone Benzaldehyde p-tolualdehyde p-anisaldehyde Cinnamaldehyde 113 °C 175 °C 129-130 °C 144 °C 189 °C 235-236 °C 212 °C...
Aldehyde: ZPA Ketone: BCK Amount of material started with: 2 mL of aldehyde and 0.5 mL...
Aldehyde: ZPA
Ketone: BCK
Amount of material
started with: 2 mL of aldehyde and 0.5 mL of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1
Ethanol/Acetone
1) structure of product
2)theoretical yield
3)isolated and percent yield
6.1724 7.6069 7.5891 Z-8, CDC13 Z-B, CDC13 7.2839 2724 7.6069 7.5891 4.061 7.0012 6.9836 7.2839 7.2 6.08.18 8862 7.0 4.0666 7.0012 6.9836 3.9987 -3.1154 Ippm] Ippm] component. The possible aldehydes are benzaldehyde, 4-methylbenzaldehyde (p-tolualdehyde), 4-methoxybenzaldehyde (p-anisaldehyde), and E-3-phenyl-2-propenal (cinnamaldehyde). The...
Aldehyde: ZPA Ketone: BCK Amount of material started with: 2 mL of aldehyde and 0.5 mL...
Aldehyde: ZPA
Ketone: BCK
Amount of material started with: 2 mL of aldehyde and 0.5 mL
of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1 Ethanol/Acetone
Aldehydes ketones Cyclopentanone Cyclohexanone Acetone Benzaldehyde p-tolualdehyde p-anisaldehyde Cinnamaldehyde 113 °C 175 °C 129-130 C 144 °C 189 °C 235-236 °C 212 °C 225 °C 118°C 170 °C 159 °C 180°C 4-methyl cyclohexanone 98-99 °C 113-113.5 °C 141-142 °C 163-164 °C 6.1724 7.6069 7.5891 Z-8, CDC13 Z-B, CDC13 7.2839 2724...
Aldol-dehydration reaction Please draw all 25 products formed from the reaction of the below ketones and...
Aldol-dehydration reaction Please draw all 25
products formed from the reaction of the below ketones and
aldehydes. Mechanism is not necessary.
acetone cyclopentanone cyclohexanone 4-methylcyclohexanone cycloheptanone H H CHO H CHO Meo benzaldehyde 4-methylbenzaldehyde (p-tolualdehyde) 4-methoxybenzaldehyde p-anisaldehyde E-3-phenylpropenal (cinnamaldehyde) 2-furaldehyde (furfural) Ketone Aldehyde acetone cyclopentanone cyclohexanone 4-Me-cyclohexanone cyloheptanone benzaldehyde 113 °C 189-190 °C 118-119 °C 98-99 °C 106-107°C tolualdehyde 175 °C 233-235 °C 170 °C 134-136 °C 131-133°C anisaldehyde 129-130 °C 212-214°C 160-162 °C 136 °C 128-129°C cinnamaldehyde 144-145 °C...
Aldehyde: ZPA Ketone: BCK Amount of material started with: 2 mL of aldehyde and 0.5 mL...
Aldehyde: ZPA
Ketone: BCK
Amount of material started with: 2 mL of aldehyde and 0.5 mL
of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1 Ethanol/Acetone
please ans 1 and 2 (label ans).
UNKNOWN KETONE IS CYCLOPENTAONE
UNKOWN ALDEHYDE IS 4-methoxybenzaldehyde
4 457 05 1267 0 1278 49 LP 00051 BL000 BCK 6 PER 12 160 TESIS Ota TL 6201 11 ESTI 29 TEZE LT SELF 09 200 18 DIL 0 ore 1400 28 2004 25...
This experiment was based on Aldol-dehydration reaction using unknown aldehydes and ketones. We carried out an...
This experiment was based on Aldol-dehydration reaction using
unknown aldehydes and ketones. We carried out an aldol condensation
between an unknown aldehyde and an unknown ketone. Here are the
list of possible unknown aldehydes and ketones that were used.
Here is the NMR of the final product. Please predict the
structure given the melting point is 163 degrees Celsius.
The analysis of the 1H NMR spectrum should include a detailed
assignment of each of the NMR resonances to the protons...
S Ketone Aldehyde 9. Based upon the procedure given below, answer the following questions about the...
S Ketone Aldehyde 9. Based upon the procedure given below, answer the following questions about the aldol condensation reaction: "In a clean 50 mL Erlenmeyer flask, add the ketone (0.5 g), aldehyde (2.0 mL), 95 % ethanol (10 mL) and 2 M aqueous sodium hydroxi de." Assume the aldehyde and ketone are the answers you provided in Question 8. a. Determine the limiting reagent for the above reaction. Only perform calculations on the organic reactants. Write out all calculations to...
Indicate structure of unknown, structure of alcohol product, an percent yield based upon IR spectrum and...
Indicate structure of unknown, structure of alcohol product,
an percent yield based upon IR spectrum and information
provided.
Therefore, multiply the calculated amount of sodium borohydride in grams by two to this. Before starting the experiment, show the instructor all of your calculations, Table 1 - Possible assigned unknown aldehyde/ketone. Structure Name benzaldehyde H octanal (octyl aldehyde) CH3(CH2).CH hexanal H 3-methyl butanal (isoamyl aldehyde) H 3-methyl-2-butenal (isopentenyl aldehyde) Н. 3,7-dimethyl-2,6-octadienal (citral) H camphor acetophenone 100 mm 6 TRANSHUTTANCE D 4000...
This is the H NMR spectrum for the product of a reaction between either benzaldehyde, 4-methybenzaldehyde,...
This is the H NMR spectrum for the product of a reaction between either benzaldehyde, 4-methybenzaldehyde, 4-methoxybenzaldehyde, or cinnamaldehyde with either acetone, cyclopentanone, cyclohexanone, 4-methylcyclohexanone. Assign the peaks in the 1H NMR spectrum to this product. Hand-draw the structure on the NMR spectrum and label each set of inequivalent protons. Use these labels in assigning the peaks. In some cases, the aromatic peaks may overlap, so it is acceptable to assign multiple groups of protons to a series of overlapping...
Analysis Questions 1. Given the structure of an aldehyde and a ketone, predict the structure of the reaction product. Use the table below to practice and to predict the possible products your class synthesized. HẠC CHỊ acetone cyclopentanone benzaldehyde Product #1, m.p. 113 °C Product #2, m.p. 189 °C NA trans-cinnamaldehyde Product #3, m.p. 144 °C 2. Include the IR spectrum of your product. Label important peaks with corresponding functional group. 3. Include the melting point your product. 4. Draw...
Codes:
Aldehyde: ZPA
Ketone: BCK
Amount of material started with: 2 mL of aldehyde and 0.5 mL
of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1 Ethanol/Acetone
6.1724 7.6069 7.5891 Z-8, CDC13 Z-B, CDC13 7.2839 2724 7.6069 7.5891 4.061 7.0012 6.9836 7.2839 7.2 6.08.18 8862 7.0 4.0666 7.0012 6.9836 3.9987 -3.1154 Ippm] Ippm] Aldehydes ketones Cyclopentanone Cyclohexanone Acetone Benzaldehyde p-tolualdehyde p-anisaldehyde Cinnamaldehyde 113 °C 175 °C 129-130 °C 144 °C 189 °C 235-236 °C 212 °C...
Aldehyde: ZPA
Ketone: BCK
Amount of material
started with: 2 mL of aldehyde and 0.5 mL of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1
Ethanol/Acetone
1) structure of product
2)theoretical yield
3)isolated and percent yield
6.1724 7.6069 7.5891 Z-8, CDC13 Z-B, CDC13 7.2839 2724 7.6069 7.5891 4.061 7.0012 6.9836 7.2839 7.2 6.08.18 8862 7.0 4.0666 7.0012 6.9836 3.9987 -3.1154 Ippm] Ippm] component. The possible aldehydes are benzaldehyde, 4-methylbenzaldehyde (p-tolualdehyde), 4-methoxybenzaldehyde (p-anisaldehyde), and E-3-phenyl-2-propenal (cinnamaldehyde). The...
Aldehyde: ZPA
Ketone: BCK
Amount of material started with: 2 mL of aldehyde and 0.5 mL
of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1 Ethanol/Acetone
Aldehydes ketones Cyclopentanone Cyclohexanone Acetone Benzaldehyde p-tolualdehyde p-anisaldehyde Cinnamaldehyde 113 °C 175 °C 129-130 C 144 °C 189 °C 235-236 °C 212 °C 225 °C 118°C 170 °C 159 °C 180°C 4-methyl cyclohexanone 98-99 °C 113-113.5 °C 141-142 °C 163-164 °C 6.1724 7.6069 7.5891 Z-8, CDC13 Z-B, CDC13 7.2839 2724...
Aldol-dehydration reaction Please draw all 25
products formed from the reaction of the below ketones and
aldehydes. Mechanism is not necessary.
acetone cyclopentanone cyclohexanone 4-methylcyclohexanone cycloheptanone H H CHO H CHO Meo benzaldehyde 4-methylbenzaldehyde (p-tolualdehyde) 4-methoxybenzaldehyde p-anisaldehyde E-3-phenylpropenal (cinnamaldehyde) 2-furaldehyde (furfural) Ketone Aldehyde acetone cyclopentanone cyclohexanone 4-Me-cyclohexanone cyloheptanone benzaldehyde 113 °C 189-190 °C 118-119 °C 98-99 °C 106-107°C tolualdehyde 175 °C 233-235 °C 170 °C 134-136 °C 131-133°C anisaldehyde 129-130 °C 212-214°C 160-162 °C 136 °C 128-129°C cinnamaldehyde 144-145 °C...
Aldehyde: ZPA
Ketone: BCK
Amount of material started with: 2 mL of aldehyde and 0.5 mL
of Ketone
Recrystallized Mass: 1.53 g
Melting Range: 196-200 C
Recrystallization Solvent: 9:1 Ethanol/Acetone
please ans 1 and 2 (label ans).
UNKNOWN KETONE IS CYCLOPENTAONE
UNKOWN ALDEHYDE IS 4-methoxybenzaldehyde
4 457 05 1267 0 1278 49 LP 00051 BL000 BCK 6 PER 12 160 TESIS Ota TL 6201 11 ESTI 29 TEZE LT SELF 09 200 18 DIL 0 ore 1400 28 2004 25...
This experiment was based on Aldol-dehydration reaction using
unknown aldehydes and ketones. We carried out an aldol condensation
between an unknown aldehyde and an unknown ketone. Here are the
list of possible unknown aldehydes and ketones that were used.
Here is the NMR of the final product. Please predict the
structure given the melting point is 163 degrees Celsius.
The analysis of the 1H NMR spectrum should include a detailed
assignment of each of the NMR resonances to the protons...
S Ketone Aldehyde 9. Based upon the procedure given below, answer the following questions about the aldol condensation reaction: "In a clean 50 mL Erlenmeyer flask, add the ketone (0.5 g), aldehyde (2.0 mL), 95 % ethanol (10 mL) and 2 M aqueous sodium hydroxi de." Assume the aldehyde and ketone are the answers you provided in Question 8. a. Determine the limiting reagent for the above reaction. Only perform calculations on the organic reactants. Write out all calculations to...
Indicate structure of unknown, structure of alcohol product,
an percent yield based upon IR spectrum and information
provided.
Therefore, multiply the calculated amount of sodium borohydride in grams by two to this. Before starting the experiment, show the instructor all of your calculations, Table 1 - Possible assigned unknown aldehyde/ketone. Structure Name benzaldehyde H octanal (octyl aldehyde) CH3(CH2).CH hexanal H 3-methyl butanal (isoamyl aldehyde) H 3-methyl-2-butenal (isopentenyl aldehyde) Н. 3,7-dimethyl-2,6-octadienal (citral) H camphor acetophenone 100 mm 6 TRANSHUTTANCE D 4000...
This is the H NMR spectrum for the product of a reaction between either benzaldehyde, 4-methybenzaldehyde, 4-methoxybenzaldehyde, or cinnamaldehyde with either acetone, cyclopentanone, cyclohexanone, 4-methylcyclohexanone. Assign the peaks in the 1H NMR spectrum to this product. Hand-draw the structure on the NMR spectrum and label each set of inequivalent protons. Use these labels in assigning the peaks. In some cases, the aromatic peaks may overlap, so it is acceptable to assign multiple groups of protons to a series of overlapping...
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