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18 Nov 2019
Disturbing a System at Equilbrium: Predictions Using LeChatelier's Principle Consider the following equation for photosynthesis at equilibrium in a reaction chamber: 6co, (g) + 6H20 (l) ã C,HnQ(s) + 602 (g) Î1,oo=+2801.69 kJ/mol How does changing each of the following conditions affect the amount of glucose (CH, o produced? Choose from these answers only: increases, decreases, or stays the same 15. decreasing the temperature (at constant pressure) 16. decreasing the volume of the reaction chamber (at constant temperature) 17. adding argon (an inert, unreactive gas) to the reaction chamber 18. removing O2, which has the same effect as decreasing the partial pressure of O2 19. adding an enzyme, which is a biological catalyst 20. adding CO 21. If you remove most of the solid glucose from the reaction chamber, which increases the volume available to the gases, the reaction will (choose one): shift to the right, shift to the left, or not shift
Disturbing a System at Equilbrium: Predictions Using LeChatelier's Principle Consider the following equation for photosynthesis at equilibrium in a reaction chamber: 6co, (g) + 6H20 (l) ã C,HnQ(s) + 602 (g) Î1,oo=+2801.69 kJ/mol How does changing each of the following conditions affect the amount of glucose (CH, o produced? Choose from these answers only: increases, decreases, or stays the same 15. decreasing the temperature (at constant pressure) 16. decreasing the volume of the reaction chamber (at constant temperature) 17. adding argon (an inert, unreactive gas) to the reaction chamber 18. removing O2, which has the same effect as decreasing the partial pressure of O2 19. adding an enzyme, which is a biological catalyst 20. adding CO 21. If you remove most of the solid glucose from the reaction chamber, which increases the volume available to the gases, the reaction will (choose one): shift to the right, shift to the left, or not shift
Jarrod RobelLv2
8 Jun 2019