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The equilibrium constant is 0.0900 at 25°C for the reaction H20(9) + Cl20(9) 2HOCI(9) For which of the following sets of conditions is the system at equilibrium? For those that are not at equilibrium, in which direction will the system shift? a. A 1.0-L flask contains 3.0 mole of HOCI, o0.30 mole of Clą0, and 0.30 mole of H20. Shifts to the left b. A 2.0-L flask contains 0.084 mole of HOCI, o.080 mole of Clą0, and 0.98 mole of H2 0. At equilibrium c. A 3.0-L flask contains 0.31 mole of HOCI, 0.0010 mole of Cl20, and 0.50 mole of H2 O. Shifts to the right ♥

The equilibrium constant is 0.0900 at 25°C for the reaction H20(9) + Cl20(9) 2HOCI(9) For which of the following sets of conditions is the system at equilibrium? For those that are not at equilibrium, in which direction will the system shift? a. A 1.0-L flask contains 3.0 mole of HOCI, o0.30 mole of Clą0, and 0.30 mole of H20. Shifts to the left b. A 2.0-L flask contains 0.084 mole of HOCI, o.080 mole of Clą0, and 0.98 mole of H2 0. At equilibrium c. A 3.0-L flask contains 0.31 mole of HOCI, 0.0010 mole of Cl20, and 0.50 mole of H2 O. Shifts to the right ♥

Chemistry
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
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The equilibrium constant is 0.0900 at 25°C for the reaction H20(9) + Cl20(9) 2 HOCI(9) For which of the following sets of conditions is the system at equilibrium? For those that are not at equilibrium, in which direction will the system shift? a. A 1.0-L flask contains 3.0 mole of HOCI, 0.30 mole of Cl20, and 0.30 mole of H20. Shifts to the left v b. A 2.0-L flask contains 0.084 mole of HOCI, o.080 mole of Cl20, and 0.98 mole of H20. At equilibrium c. A 3.0-L flask contains 0.31 mole of HOCI, o.0010 mole of Cl20, and 0.50 mole of H2O. Shifts to the right v
Transcribed Image Text:The equilibrium constant is 0.0900 at 25°C for the reaction H20(9) + Cl20(9) 2 HOCI(9) For which of the following sets of conditions is the system at equilibrium? For those that are not at equilibrium, in which direction will the system shift? a. A 1.0-L flask contains 3.0 mole of HOCI, 0.30 mole of Cl20, and 0.30 mole of H20. Shifts to the left v b. A 2.0-L flask contains 0.084 mole of HOCI, o.080 mole of Cl20, and 0.98 mole of H20. At equilibrium c. A 3.0-L flask contains 0.31 mole of HOCI, o.0010 mole of Cl20, and 0.50 mole of H2O. Shifts to the right v
The equilibrium constant is 0.0900 at 25°C for the reaction H20(9) + Cl20(9) 2 HOCI(9) For which of the following sets of conditions is the system at equilibrium? For those that are not at equilibrium, in which direction will the system shift? a. A 1.0-L flask contains 3.0 mole of HOCI, 0.30 mole of Cl,0, and 0.30 mole of H20. Shifts to the left v b. At equilibrium ns 0.084 mole of HOCI, 0.080 mole of Cl20, and 0.98 mole of H20. Shifts to the left Shifts to the right c. A 3.0-L flask contains 0.31 mole of HOCI, o.0010 mole of Cl20, and 0.50 mole of H2O. Shifts to the right v
Transcribed Image Text:The equilibrium constant is 0.0900 at 25°C for the reaction H20(9) + Cl20(9) 2 HOCI(9) For which of the following sets of conditions is the system at equilibrium? For those that are not at equilibrium, in which direction will the system shift? a. A 1.0-L flask contains 3.0 mole of HOCI, 0.30 mole of Cl,0, and 0.30 mole of H20. Shifts to the left v b. At equilibrium ns 0.084 mole of HOCI, 0.080 mole of Cl20, and 0.98 mole of H20. Shifts to the left Shifts to the right c. A 3.0-L flask contains 0.31 mole of HOCI, o.0010 mole of Cl20, and 0.50 mole of H2O. Shifts to the right v
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