84. Consider the following generic reaction: A + 2B + C + D If this reaction...
Instructions: Use the following reaction to answer the questions in part ad Tom aspirin acetic acid Salicylic P.M. - 138g/mol acetic anhydride P.M. -102.1g/mol PM180.2g/mol a. Calculate the theoretical yield if 6.0g of salicylic acid are reacted with 12mL of acetic anhydride (density 1.08g/ml) b. What is the limiting REAGENT and what is the excess REAGENT? c. How many moles of excess reagent did not react with the limiting reagent? d. f 6.9 g of aspirin are produced in an...
Consider the following generic reaction: A+2B→C+3D, with ΔH = 111 kJ . Determine the value of ΔH for each of the following related reactions. A. 3A+6B→3C+9D B. C+3D→A+2B C. 1/2C+3/2D→1/2A+B
Consider the generic reaction: A + 2B --> AB2 Hrxn = -155 kJ If a reaction mixture contains 5 mol A and 8 mol B, how much heat is emitted of absorbed once the reaction has occurred to the greatest extent possible?
10) Consider the hypothetical reaction: 3A2+ 2B C+ 2D If 6.0 moles with 2.0 moles of B, what is the maximum amount of C that can be formed? A) 6.0 mol E) 5.0 mol D) 1.0 mol C) 2.0 mol B) 8.0 mol ues 11) 11) What is the mass of 4.35 moles of aluminum? A) 9.78 x 1022 g B) 2.62 x 1024 C)0.163 g D) 117 g E) 27.8 g g 12) 12) Choose the best classification of...
Consider the hypothetical reaction: 3A2 + 2B → C + 2D If 6.0 moles of A are mixed with 2.0 moles of B, what is the maximum amount of C that can be formed?
10) 10) Consider the hypothetical reaction: 3A2 + 2B - C + 2D Ir 6.0 moles of A are mixed with 2.0 moles of B, what is the maximum amount of C that can be formed? A) 6.0 mol B) 8.0 mol C) 2.0 mol D) 1.0 mol E) 5.0 mol 11) What is the mass of 4.35 moles of aluminum? A) 9.78 x 1022 B) 2.62 x 1024 g C) 0.1638 D) 1178 E) 27.8 g 12) 12) Choose...
6. Consider the generic chemical equation: 2A+UB 3C If 10.0 moles of each reactant were used to complete that reaction, which of the following is true. a. A is the limiting reactant and 10.0 moles of C will be produced b. A is the limiting reactant and 20.0 moles of C will be produced. c. Bis the limiting reactant and 7.50 moles of C will be produced d. B is the limiting reactant and 22.5 moles of C will be...
Consider the reaction: Fe + 2HCl ----> FeCl2 + H2 a) In one experiment, 0.40 moles of Fe and 0.75 moles of HCl were mixed: b) What is the limiting reactant? c) How many grams of H2 can be formed, based on the amount of the limiting reactant in this particular reaction mixture? d) How many grams of which reactant will be unreacted in this experiment?
Consider the following generic chemical reaction: A(g) +33(g) C(g) + D(g) 3.0 mol of A and 3.0 mol of B are initially placed in a 2.0L container and the resulting reaction is allowed to come to equilibrium. It is found that at equilibrium, the mixture contains 0.60 mol of D. With this information, determine the concentrations of A, B, C at equilibrium? [A] -0.30 M [B] = 0.90 M (C) -0.30 M (A) - 1.2M [B) - 0.60 M (C)...
Solve this problem To identify a limiting reagent problem >Amounts (mol, g, etc.) for two different reactants (reactants) are given. Example: Consider the balanced equation shown below. If 2.0 mol RuCl, is reacted with 5.0 mol Li,S, how many moles of Ru,S, can be formed? How many moles of which reagent are left? Step 1: Convert both reactants to moles of the same product. Step 2: Identify the limiting reagent by comparing moles of product determined in Step 1. The...