Complete the table for the reaction
Compound | MW | Equivalents | mmol | g | density | mL |
Acetic Acid (glacial) | 60.05 | 1.049 | ||||
Isopentyl alcohol | 88.15 | 0.810 | ||||
18 M sulfuric acid | XXX | XXX | XXX | XXX | 0.022 |
Complete the table for the reaction Compound MW Equivalents mmol g density mL Acetic Acid (glacial)...
Complete the table 2. Complete the following table: Compound MW equivalents mmo mL density Acetic acid, conc. 5.84 glacial) Isopentyl 2.92 alcohol Sulfuric (I8M) acid, conc. XXX 0.016 3. Calculate the theoretical yield for the synthesis of isopentyl acetate.
Compound MW equivalents mmol g density mL Sulfuric Acid (18 M) XXX XXX XXX 1.711 methyl benzoate 0.820 sulfuric acid (18 M) XXX XXX XXX 0.546 nitric acid XXX XXX XXX 0.560 1. Complete the following table: (hint keep track of your units) 2. What is the theoretical yield for this reaction?
1. Complete the following table: (Hint-Keep track of your units) equivalents mmol density mL Compound sulfuric acid (18M) MW XXX XXX XXX 0.840 2.96 1.04 0.302 benzaldehyde sulfuric acid (18M) nitric acid (15.9M) XXX XXX XXX 0.280 XXX XXX XXX 0.372 2. What is the theoretical yield for this reaction (nitration of benzaldehyde)?
Prelab Questions. Complete the following table: (hint keep track of your units) MW equivalents mmol ml density XXX 0.920 XXX XXX Compound sulfuric acid (18M) methyl benzoate sulfuric acid 1.088 0.440 XXX XXX XXX 0.460 (18M) XXX 0.440 XXX XXX nitric acid (15.9M) 2. What is the theoretical yield for this reaction? 3. Why is an ice bath employed in the nitration of methyl benzoate? (hint: look at the energy diagram shown on pg 1 of the experiment)
Calculate the volume (mL) of 3 methyl-1-butanol (0.809 g/mL) and glacial acetic acid (1.049 g/mL) by using the densities and moles. Please show your work. 3-methyl-1-butanol= 0.12 moles (molecular weight= 88.15 g/mol) & glacial acetic acid =0.24 moles (molecular weight=60.052 g/mol)
Question #1 Please Complete the following reagent table: Compound Benzaldehyde Amount moles equivalents MW (g/mol) Density (g/mL) 106.1 138.2 102.1 K2CO3 Acetic anhydride trans-cinnamic acid (1) 4 K2CO3 C7HgO Mol. Wt.: 106.12 bp: 178°C C4H6O3 Mol. Wt.: 102.09 CgHgO2 Mol. Wt.: 148.16 bp: 140°C mp: 135°C Compound Benzaldehyde Amount moles equivalents MW (g/mol) Density (g/mL) 106.1 138.2 102.1 K2CO3 Acetic anhydride trans-cinnamic acid (1) 4 K2CO3 C7HgO Mol. Wt.: 106.12 bp: 178°C C4H6O3 Mol. Wt.: 102.09 CgHgO2 Mol. Wt.: 148.16...
Complete reagent table. thank you! LABORATORY 9 OXIDATION OF CYCLOHEXANOL TO CYCLOHEXANONE TABLE 9.1 Reagent Table Cyclohexanol Sodium Acetone Hypochlorite Acetic Acid Cyclohexanone MW (g/mol) 100.20 58.08 74.44 60.05 98.14 mp (C) 16-17 bp (°C) 161 118-119 157 56 density (g/mL) 0.960 1.049 0.970 0.784 0.1 0.78 0.150 6.0 0.3 1.0 mL (6% aq. sol) 1.5 2.5 mmol 1.0 1.6 equiv
Complete the following table Compound MW (g/mol) Density (g/mL) BP (°C) MP (°C) Benzonitrile Sodium Hydroxide Hydrochloric Acid Concentration Concentration Concentration Dependent Dependent Dependent Benzoic Acid
Complete the stoichiometry table using the starting values provided. Reagent MW Grams mmoles Eq. d mL benzoin 3.081 XXX XXX sodium nitrate 1.128 XXX XXX acetic acid (17.4 M, 98%) 13.03 THEORETICAL PRODUCT XXX XXX XXX XXX XXX XXX benzil XXX XXX XXX ALSO, please include the reaction equation in your answer! PLEASE answer ALL parts of this question and I'll be sure to leave you 5 star feedback! Thank you!
show all work Complete the reaction table below for the materials used in this chemical reaction: OH KMnOd CuSO -5H.0 solvent free, 1 h myshon gjort Compound MW, g/mol Rxn Weight or V lg or mL) mmol Equivalents d (g/mL) or M (mmol/mL) 0.962 g/mol alcohol 100.16 4.009 KMnO4 158.03 1.589 CuSO4.5H2O 249.68 0.792 g/mol 250 g ketone 0.50 g semicarbazide HCI 111.53 0.50 g NaOAC 82.03 1.00 g/ml 3 mol/L 0.80 g Page 2 of 6 Calculations & Results...