Data Collection: Starting Materials: Maleic anhydride: 0.512 g 0.00522 _mol furan: g 0.011 mol 0.75ml; 0.75...
If I am using 40 mg of maleic anhydride (98.057 g/mol) and 80 mg of anthracene (178.234 g/mol), how would I calculate the theoretical yield in mmol and mg? Also, how do I use this information to find my percent yield of the product?
How do I calculate the theoretical amount of maleic anhydride, theoretical yield, and percent yield? Amount of 3-sulfolene used = 2.29g and 0.0194mol Amount of maleic anhydride used = 1.22g and 0.0124mol Mass of product isolated = 0.94g Experimental Melting Point = 87-89.5 degrees C 05 ( 137-140°C / Summary of Data Amount of 3-sulfolene used (in both grams and moles) Amount of maleic anhydride used in both grams and moles) Theoretical amount of 1,3-butadiene generated (in grams and moles)...
How do I calculate the theoretical amount of maleic anhydride, theoretical yield, and percent yield? Amount of 3-sulfolene used = 2.29g and 0.0194mol Amount of maleic anhydride used = 1.22g and 0.0124mol Mass of product isolated = 0.94g Experimental Melting Point = 87-89.5 degrees C Summary of Data Amount of 3-sulfolene used (in both grams and moles) Amount of maleic anhydride used in both grams and moles) Theoretical amount of 1,3-butadiene generated (in grams and moles) Mass of product isolated...
Reaction is Diels-Alder Reaction: 0.6 g (Anthracene) + 0.3 g (maleic anhydride) --> product [9,10-dihydroanthreceno-9,10-endo- α, β-succinic anhydride] 0.70 grams obtained. When vacuumed, xylened and isolated, the product yielded 0.70 grams product. Please show how to calculate % yield with the weights above (Theoretical + Actual).
Calculations SHOW all work for any credit-SF and UN count: 1) 1.08 g antracene to mmol a. 0.52 g maleic anhydride to mmol b. Amount of product IN GRAMS produced from 1.08 g of anthracene c. Amount of product formed IN GRAMS produced from 0.52 g maleic anhydride d. * Based on the calculations from a and b, which reagent is considered the limiting reagent? Which reagent is in excess? e. Convert the theoretical yield (amount of product produced by...
2 dibenzalacetone acetone benzaldehyde MW- 106.13 g/mol bp-1 78°C d 1.04 g/mL MW 234.30 g/mol mp #110-1110 MW-58.08 g/mol bp 56°C d 0.79 g/mL Its bs Reaction Setup (3 pts) S. OS Initial quantity of NaOH: S. I Initial quantity of benzaldehyde: mL Initial quantity of acetone: mL Theoretical yield of dibenzalacetone based on benzaldehyde: (show calculations) Theoretical yield of dibenzalacetone based on acetone 9 (show calculations) ce tone Limiting Reagent: Product Data (10 pts) fivAL Mass: 3.3g Percent Yield:...
1. Mass of salicylic acid (g) 2.0089 5.10ml & 2. Volume of acetic anhydride (mL) Limiting reactant is (circle one): Salicylic Acid or Acetic Anhydride Calculation for Limiting Reactant: 3. Theoretical yield of aspirin (9) Calculation for Theoretical Yield of aspirin: 4. Mass of filter paper 0.3369 N 5. Mass of filter paper + aspirin 2.471g 6. Experimental Yield of aspirin (g) 7. Percent Yield Synthesis of Aspirin An early oral pain reliever, salicylic acid, was determined to cause stomach...
help with # 7 Data Table: Reactant 1 Identity_NaCO,H,O 124.00 g/mol Mass 1.02 g Reactant 2 Identity_MnS0, H,0 169.02 g/mol Mass_1.04 g Observation of chemical reaction. Include observations about color of precipitate! Immediately after adding the two aqueous solutions together a pale pink precipitate formed. 1.49 g Mass of filter paper + precipitate Mass of filter paper Mass of precipitate (actual yield) 0.83 g 0.66 g Analysis: 1. Write the balanced chemical equation for this reaction. 2. Use a solubility...
4. When 10 g of benzene (Molar mass 78 g/mol) reacts with 9 mL of concentrated HNO3 (16 M) and 9 mL of H2SO4 (18 M), 8.1 g of nitrobenzene (molar mass 123 g/mol) and 1.2 g of an unknown compound with a high boiling point are obtained. a. Identify the limiting reagent. b. Calculate the percent yield of nitrobenzene. c. Give the name and structure of the most probable side product with the high melting point. d. Explain, with...
please help me ! do you think this is good so far ? Results/Data • Aspirin synthesis salicylic acid: 2.0 g Acetic anhydride: 2 mL d= 1.082g/mL sodium acetate: 0.4 g • Experimental yield of aspirin: 2.4 g FORMATION OF ESTERS II. PREPARATION OF ACETYL SALICYLIC ACID (ASPIRIN): 1 Complete the table below by entering appropriate values into the empty boxes. Show calculations for all entries clearly below. Reactants Chemical MW Grams of Moles of Moles of Limiting Melting Formula...