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00:48Nitric oxide (NO) reacts readily with chlorine gas as follows: 2 NO(π) + Cl2(π) β 2 NOCl(π) At 700 K, the equilibrium constant πΎπ for this reaction is 0.26. For each of the following mixtures at this temperature, indicate whether the mixture is at equilibrium, or, if not, whether it needs to produce more products or reactants to reach equilibrium. (b) πNO = 0.12atm, πCl2 = 0.10atm, πNOCl = 0.050atm
At 900 Β°C, πΎπ = 0.0108 for the reaction
CaCO3(π ) β CaO(π ) + CO2(π)
A mixture of CaCO3, CaO, and CO2 is placed in a 10.0-L vessel at 900Β°C. For the following mixtures, will the amount of CaCO3 increase, decrease, or remain the same as the system approaches equilibrium?
(c) 30.5 g CaCO3, 25.5 g CaO, and 6.48 g CO2
The equilibrium constant constant πΎπ for C(π ) + CO2(π) β 2 CO(π) is 1.9 at 1000 K and 0.133 at 298 K. (b) If excess C is allowed to react with 25.0 g of CO2 in a 3.00-L vessel at 1000 K, how many grams of C are consumed?
Consider the hypothetical reaction A(π) + 2ββB(π) β 2 C(π), for which πΎπ = 0.25 at a certain temperature. A 1.00-L reaction vessel is loaded with 1.00 mol of compound C, which is allowed to reach equilibrium. Let the variable x represent the number of mol/L of compound A present at equilibrium. (e) From the plot in part (d), estimate the equilibrium concentrations of A, B, and C. (Hint: You can check the accuracy of your answer by substituting these concentrations into the equilibrium expression.)
At a temperature of 700 K, the forward and reverse rate constants for the reaction 2 HI(π) β H2(π) + I2(π) are ππ=1.8Γ10β3 πβ1sβ1 and ππ = 0.063ββπβ1sβ1. (b) Is the forward reaction endothermic or exothermic if the rate constants for the same reaction have values of ππ = 0.097βπβ1sβ1 and ππ = 2.6 πβ1sβ1 at 800 K?
