(1) Determine AT answer (2) Calculate the heat absorbed by the reaction mixture. You may assume the density of the reaction mixture was 1.02 g mL-1 and the specific heat of the reaction mixture was 3.822 Jg¹K¹. answer (3) Calculate the amount of heat absorbed by the calorimeter, thermometer, and stirrer, using the calorimeter constant calculated in Question 2 (4).

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Chapter1: Chemical Foundations
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Enthalpy of Neutralization
3. A student then determined the heat of neutralization for the reaction of sodium
hydroxide and acetic acid, using the procedure described in this module. 100.0 mL
of 0.8500 M NaOH was added to 100.0 mL of 0.8404 M acetic acid. The temperatures
of the acid and base before mixing were both 17.6 C. The highest temperature
reached after mixing was 23.3 C.
(1)
Determine AT
answer
(2) Calculate the heat absorbed by the reaction
mixture. You may assume the density of the reaction
mixture was 1.02 g mL-1 and the specific heat of the
reaction mixture was 3.822 J g¹ K¹.
(4)
answer
(3) Calculate the amount of heat absorbed by
the calorimeter, thermometer, and stirrer, using the
calorimeter constant calculated in Question 2 (4).
answer
Calculate the total heat absorbed.
answer
(5)
Find the total heat released by the reaction
of 100.0 mL of 0.8500M NaOH and 100.0 mL of
0.8404M acetic acid.
answer
(6)
Identify the limiting reagent and briefly ex-
plain why it is limiting.
(7)
answer
Find AH neutzn for the reaction.
answer
Transcribed Image Text:Enthalpy of Neutralization 3. A student then determined the heat of neutralization for the reaction of sodium hydroxide and acetic acid, using the procedure described in this module. 100.0 mL of 0.8500 M NaOH was added to 100.0 mL of 0.8404 M acetic acid. The temperatures of the acid and base before mixing were both 17.6 C. The highest temperature reached after mixing was 23.3 C. (1) Determine AT answer (2) Calculate the heat absorbed by the reaction mixture. You may assume the density of the reaction mixture was 1.02 g mL-1 and the specific heat of the reaction mixture was 3.822 J g¹ K¹. (4) answer (3) Calculate the amount of heat absorbed by the calorimeter, thermometer, and stirrer, using the calorimeter constant calculated in Question 2 (4). answer Calculate the total heat absorbed. answer (5) Find the total heat released by the reaction of 100.0 mL of 0.8500M NaOH and 100.0 mL of 0.8404M acetic acid. answer (6) Identify the limiting reagent and briefly ex- plain why it is limiting. (7) answer Find AH neutzn for the reaction. answer
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