Predict the effect of the following
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Predict the effect of the following Coal, which is primarily carbon, can be converted to natural...
Exercise 15.75 by the following exothermic reaction Coal, which is primary carbon, can be converted to natural gas, primarily CH C(s) + 2H; () CH,() Part A If this reaction mixture is at equilibrium predict the effect of the following Drag the appropriate items to their respective bins. Reset Help lowering the volume of the reaction modure adding more to the reaction mature adding a catalyst to the reaction mixture raising the temperature of the reaction adding more H, to...
Question 7 (5 points) Consider the equilibrium below: CO(g) + H2O(g) = CO2(g) + H2(g) Kc = 0.0611 at 2000 K If Pco and PH20 are both initially 2.95 atm, what will be the equilibrium partial pressure of H2? Express your answer in decimal format to 3 significant figures. Your Answer: N. Answer Coal, which is primarily carbon, can be converted to natural gas (primarily methane, CH4) by the following exothermic reaction: + C(s) 2H2(g) CH4(g) Which of the following...
alem Set 15 (Ch 15) cise 15.72 - Enhanced - with Feedback Coal can be used to generate hydrogenous in potential toe by the following endothermice C(s) + H.O(e) - 00() + H.() If this reaction mixture is al equilibrium predict whether each of the following wil t in the formation a n d sutin the formation of less hydrogenoaor have no effect on the quantity of Hydrogenas Drag the appropriate items to their respective bins. Reset Help of less...
14. To improve air quality, chemists often remove sulfur from coal and natural gas by treating the fue contaminant hydrogen sulfide with O2 in the following exothermic process: 2H S (B)+ 02 (8)2S (s)+ 2H0(8) If the reaction above is at equilibrium, predict the shift in the equilibrium position in response to each of the following changes in conditions. Identify whether the change will increase the formation of products, increase the formation of reactants, or have no effect on the...
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Part A n Review I Constants 1 Periodic Table Predict the effect on the reaction of the folowing changes onsider the following reaction at equilibrium Drag the appropriate changes to their respective bins. 2BrNO(g) 2NO(R) +Br2(g) adding NO to the reaction mitre adding Bri to the reaction motru ading BrN。to the reaction mixture No effect Shift left Shift right
2 SO2 (g) + O2 (g) = 2 SO3 (g) + Energy Predict the effect of each of the following changes on the number of moles of S03 present in the mixture at equilibrium Decreasing the volume of the system Adding oxygen to the equilibrium mixture Raising the temperature of the system Decreasing the pressure of the system Adding a catalyst 2 SO2 (g) + O2 (g) = 2 SO3 (g) + Energy Predict the effect of each of the...
Problem Set #5 (Ch 15) Exercise 15.64 - Enhanced - with Feedback Consider the following reaction at equilibrium 2 BINO (8) 2 NO(g) + Bry (8) You may want to reference (Pages 665 - 672) Section 15.9 while completing this problem - Part A Predict whether the reaction will shift left shift night, or remain unchanged upon each of the following disturbances. Drag the appropriate items to their respective bins. Reset Help Bereme BENO is added to the reaction mixture...
For each of the following equilibria, use Le Chatelier's principle to predict the direction of reaction when the volume is increased. Drag the appropriate chemical equations to their respective bins. chemical equations: 2H2(g)+ O2 (g) ⇌ 2H2O (g), C (s) + H2O (g) ⇌ CO (g) + H2 (g), 2Fe (s) + 3H2O (g) ⇌ Fe2O3 (s) + 3H2 (g) bins: Reaction will go toward products, Reaction will go toward reagents, Reaction will remain at equilibrium
For the following equilibrium reaction, predict the direction of the equilibrium shift by specifying if each stress will cause the concentration of reactants or products to increase NH3(g)+H2O(l) ⇋ NH4+(aq)+OH−(aq) Drag the appropriate stresses to their respective bins. Adding NH4+(aq) Adding NH3(g) Adding OH-(aq) Removing NH4+(aq) Removing OH-(aq) Shifts in the direction of the reactants: Shift in the direction of the products:
22) In the coal-gasification process, carbon monoxide is converted to carbon dioxide via the following reaction: CO (g) + H20 (9) CO2 (g) + H2 (9) In an experiment, 0.35 mol of CO and 0.40 mol of H2O were placed in a 1.00-L reaction vessel. At equilibrium, there were 0.22 mol of CO remaining. Keg at the temperature of the experiment is A) 0.75 B) 5.5 C) 0.28 D) 1.0 E) 3.5