A mixture of water and graphite is heated to 890 K in a 14.5-L container. When the system comes to equilibrium it contains 0.835 mol each of CO gas and H2 gas and 0.182 mol of H2O gas and some graphite. Some O2 gas is added to the system and a spark is applied so that the H2 reacts completely with the O2, forming H2O. Find the amount of CO in the flask when the system returns to equilibrium.
A mixture of water and graphite is heated to 890 K in a 14.5-L container. When the system comes to equilibrium it contains 0.835 mol each of CO gas and H2 gas and 0.182 mol of H2O gas and some graphite. Some O2 gas is added to the system and a spark is applied so that the H2 reacts completely with the O2, forming H2O. Find the amount of CO in the flask when the system returns to equilibrium.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter13: Chemical Equilibrium
Section: Chapter Questions
Problem 3ALQ: For the reactionH2(g)+I2(g)2HI(g), consider two possibilities: (a) you mix 0.5 mole of each...
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A mixture of water and graphite is heated to 890 K in a 14.5-L container. When the system comes to equilibrium it contains 0.835 mol each of CO gas and H2 gas and 0.182 mol of H2O gas and some graphite. Some O2 gas is added to the system and a spark is applied so that the H2 reacts completely with the O2, forming H2O.
Find the amount of CO in the flask when the system returns to equilibrium.
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Step 1: Defining equlibrium constant
VIEWStep 2: Calculation for equilibrium concentration of all the gases in 1st case
VIEWStep 3: calculation for equilibrium constant
VIEWStep 4: Formation of ICE table
VIEWStep 5: Calculation for equilibrium concentration of CO after the 2nd equilibrium state
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