7) The enthalpy of the following reaction at 1.00 atm and 298.15K is -56.9kJmol-1 H* (aq) + OH (aq) H,O When 2mol of an aqueous acid (H (aq)) reacts with 2mol of an aqueous base (OH (aq) in a thermally isolated constant pressure calorimeter initially at 298.15K, the temperature was observed to increase to 304.35K. In the exact same calorimeter, the hydrolysis of 1.7mol of aqueous adenosine 5’- triphosphate (ATP) caused an increase in temperature from 298.15K to 300.95K. (a) What is the enthalpy of hydrolysis per mol of ATP?
7) The enthalpy of the following reaction at 1.00 atm and 298.15K is -56.9kJmol-1 H* (aq) + OH (aq) H,O When 2mol of an aqueous acid (H (aq)) reacts with 2mol of an aqueous base (OH (aq) in a thermally isolated constant pressure calorimeter initially at 298.15K, the temperature was observed to increase to 304.35K. In the exact same calorimeter, the hydrolysis of 1.7mol of aqueous adenosine 5’- triphosphate (ATP) caused an increase in temperature from 298.15K to 300.95K. (a) What is the enthalpy of hydrolysis per mol of ATP?
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Chapter1: Chemical Foundations
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Transcribed Image Text:7) The enthalpy of the following reaction at 1.00 atm and 298.15K is -56.9kJmol-1
H* (aq) + OH¯(ag) H,O
When 2mol of an aqueous acid (H"(aq) reacts with 2mol of an aqueous base (OH (aq))
in a thermally isolated constant pressure calorimeter initially at 298.15K, the
temperature was observed to increase to 304.35K.
In the exact same calorimeter, the hydrolysis of 1.7mol of aqueous adenosine 5'-
triphosphate (ATP) caused an increase in temperature from 298.15K to 300.95K.
(a) What is the enthalpy of hydrolysis ner mol of ATP?
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