The table included below shows the relative mole percentages of CO2(g) and CO(g) at a total...

Making CO: Making CO from CO2 is a potential energy source. The value of Kp for...

Making CO: Making CO from CO2 is a potential energy source. The value of Kp for the reaction CO2 (g) + C (s) --> 2CO (g)    is 1.5 at 700C. Calculate the equilibrium partial pressures of CO and CO2 if initially PCO2 = 0.355 atm and PCO= 5.30 atm. Pure granite is present intially and when equilibrium is achieved. PCO = _____ atm PCO2 = ______ atm

Consider the reaction: C(s) + CO2(g) = 2CO(g) Kp=168 at 1273 K A). A system containing...

Consider the reaction: C(s) + CO2(g) = 2CO(g) Kp=168 at 1273 K A). A system containing these ingredients is at equilibrium, and the partial pressure of CO2(g) is found to be 0.10 atm. What is the pressure of CO(g) under these conditions? B). What is the value of Kc for the reaction at 1273 K?

Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in...

Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in the system at the following temperatures. (a) 180°C atm (b) 460°C atm Note: To find the value of the equilibrium constant at each temperature you must first find the value of G0 at each temperature by using the equation G0 = H0 - TS0 For this reaction the values are H0 = +88.3 kJ/mol and S0= 151.3 J/mol*K

Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in...

Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in the system at the following temperatures. (a) 180°C atm (b) 460°C atm Note: To find the value of the equilibrium constant at each temperature you must first find the value of G0 at each temperature by using the equation G0 = H0 - TS0 For this reaction the values are H0 = +88.3 kJ/mol and S0= 151.3 J/mol*K

Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in...

Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in the system at the following temperatures. (a) 100°C atm (b) 420°C atm Note: To find the value of the equilibrium constant at each temperature you must first find the value of G0 at each temperature by using the equation G0 = H0 - TS0 For this reaction the values are H0 = +88.3 kJ/mol and S0= 151.3 J/mol*K

13. Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2...

13. Consider the reaction shown below. PbCO3(s) PbO(s) + CO2(g) Calculate the equilibrium pressure of CO2 in the system at the following temperatures. (a) 160°C ____ atm (b) 490°C ____ atm Note: To find the value of the equilibrium constant at each temperature you must first find the value of G0 at each temperature by using the equation G0 = H0 - TS0 For this reaction the values are H0 = +88.3 kJ/mol and S0= 151.3 J/mol*K

4. Thermodynamic data for C(graphite) ​and C(​​diamond)​ at 298 K is given in the table below....

4. Thermodynamic data for C(graphite) ​and C(​​diamond)​ at 298 K is given in the table below. delta Hf​o ​(kJ/mol) o​ (J/mol K C​(graphite) 0.0 5.740 C​(diamond) 1.895 2.377 a) Calculate delta H​o​ and delta S​o and delta G​o ​for the transformation of 1 mole of graphite to diamond at 298 K. b) Is there a tempature at which this transformation will occur spontaneously at atmospheric pressure? Justify your answer. 8. Methanol can be made using the Fischer-Tropsch process according to...

please answear each question 1)At equilibrium, ________. a)the rates of the forward and reverse reactions are...

please answear each question 1)At equilibrium, ________. a)the rates of the forward and reverse reactions are equal b)the value of the equilibrium constant is 1 c)all chemical reactions have ceased d)the rate constants of the forward and reverse reactions are equal e)the limiting reagent has been consumed 2)The equilibrium-constant expression depends on the ________ of the reaction. a) stoichiometry b) mechanism c) the quantities of reactants and products initially present d) temperature e) stoichiometry and mechanism 3)Given the following reaction...