8. A student investigates the reaction between H202 (aq) and NAOCI (aq), which is represented by the net-ionic equation shown below: H202 (aq) + OCI (aq) → H20 () + CI (aq) + 02 (g) The student decides to produce 40.0 mL of O2 (g) at a pressure of 0.988 atm and a temperature of 298 K, using the equipment shown below. The student sets up a 250 mL Erlenmeyer flask fitted with a one-hole stopper. The flask is connected to a 50 mL gas-collection tube that initially is completely filled with water. 0.800 M H,O,(aq)- Gas Collection Tube Excess NaOCI(aq). H,O() (a) Calculate the volume of 0.800 M H202(aq) that the student should add to excess NaOCI(aq) to produce 40.0 ml of O2(g) at 0.988 atm and 298 K. [
8. A student investigates the reaction between H202 (aq) and NAOCI (aq), which is represented by the net-ionic equation shown below: H202 (aq) + OCI (aq) → H20 () + CI (aq) + 02 (g) The student decides to produce 40.0 mL of O2 (g) at a pressure of 0.988 atm and a temperature of 298 K, using the equipment shown below. The student sets up a 250 mL Erlenmeyer flask fitted with a one-hole stopper. The flask is connected to a 50 mL gas-collection tube that initially is completely filled with water. 0.800 M H,O,(aq)- Gas Collection Tube Excess NaOCI(aq). H,O() (a) Calculate the volume of 0.800 M H202(aq) that the student should add to excess NaOCI(aq) to produce 40.0 ml of O2(g) at 0.988 atm and 298 K. [
Chemistry: Principles and Reactions
8th Edition
ISBN:9781305079373
Author:William L. Masterton, Cecile N. Hurley
Publisher:William L. Masterton, Cecile N. Hurley
Chapter16: Spontaneity Of Reaction
Section: Chapter Questions
Problem 85QAP: Which of the following quantities can be taken to be independent of temperature? independent of...
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![8. A student investigates the reaction between H202 (aq) and NAOCI (aq), which is represented
by the net-ionic equation shown below:
H202 (aq) + OCI (aq) → H20 () + CI (aq) + 02 (g)
The student decides to produce 40.0 mL of O2 (g) at a pressure of 0.988 atm and a temperature
of 298 K, using the equipment shown below. The student sets up a 250 mL Erlenmeyer flask
fitted with a one-hole stopper. The flask is connected to a 50 mL gas-collection tube that
initially is completely filled with water.
0.800 M H,O,(aq)-
Gas Collection Tube
Excess NaOCI(aq).
H,O()
(a) Calculate the volume of 0.800 M H202(aq) that the student should add to excess NaOCI(aq)
to produce 40.0 mL of O2(g) at 0.988 atm and 298 K.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F390bf266-d828-4a8f-b647-4f11f676b241%2F8ad14371-6638-4206-b795-84a48df38af4%2Fefmqkuo_processed.jpeg&w=3840&q=75)
Transcribed Image Text:8. A student investigates the reaction between H202 (aq) and NAOCI (aq), which is represented
by the net-ionic equation shown below:
H202 (aq) + OCI (aq) → H20 () + CI (aq) + 02 (g)
The student decides to produce 40.0 mL of O2 (g) at a pressure of 0.988 atm and a temperature
of 298 K, using the equipment shown below. The student sets up a 250 mL Erlenmeyer flask
fitted with a one-hole stopper. The flask is connected to a 50 mL gas-collection tube that
initially is completely filled with water.
0.800 M H,O,(aq)-
Gas Collection Tube
Excess NaOCI(aq).
H,O()
(a) Calculate the volume of 0.800 M H202(aq) that the student should add to excess NaOCI(aq)
to produce 40.0 mL of O2(g) at 0.988 atm and 298 K.
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