Tutored Practice Problem 15.4.2 COUNTS TOWARDS GRADE Close Problem Predict and calculate the effect of volume change on...
Close Problem Tutored Practice Problem 15.4.2 COUNTS TOWARDS GRADE Predict and calculate the effect of volume change on an equilibrium system. Consider the equilibrium between COBr2, CO and Br2. COBr2(g) PCO(g) + Brz(9) K = 0.254 at 350 K The reaction is allowed to reach equilibrium in a 8.60-L flask. At equilibrium, [COBr2] = 0.288 M, [CO] = 0.270 M and [Brz] = 0.270 M. (a) The equilibrium mixture is transferred to a 17.2-L flask. In which direction will the...
Tutored Practice Problem 16.4.1 COUNTS TOWARDS GRADE Predict and calculate the effect of concentration changes on an equilibrium system. Close Problem Some COCl2 is allowed to dissociate into CO and Cl2 at 873 K. At equilibrium, [COCI2] =0.237 M, and [CO] - [C12] = 0.128 M. Additional CO is added so that (CO)new = 0.193 M and the system is allowed to once again reach equilibrium. COC12(8) CO(g) + Cl2(g) K-6.98*10-2 at 873K (a) In which direction will the reaction...
Close Problem Tutored Practice Problem 15.3.2 COUNTS TOWARDS GRADE Use an /CE table to calculate K A mixture of CO and Cl, is allowed to react at 585 K CO(g) + Cl2(g) cOC2(g) The initial concentration of the reactants are [cO] = 0.3050 M and [Cl2] = 0.3390 M. After the system reaches equilibrium, it is found that the Ch concentration has decreased to 0.0659 M. Based on these data, determine the value of the equilibrium constant, K, for this...
Predict and Calculate the effect of volume change on an
equilibrium system. please box answer! thank you
Tutored Practice Problem 15.4.2 O Predict and calculate the effect of volume change on an equilibrium system Consider the equilibrium between COB, CO and Br? COBr() - CO) Brg) K -1.84 at 380K The reaction is allowed to reach equilibrium in a 8.20-L flask. At equilibrium, (COB) - 9.72x107MCO) -0.423 M and [Brgl -0.423 M. (a) The equilibrium mixture is transferred to a...
Consider the equilibrium between
COBr2, CO and
Br2.
COBr2(g) CO(g)
+ Br2(g) K = 0.254 at
350 K
The reaction is allowed to reach equilibrium in a
6.40-L flask. At equilibrium,
[COBr2] = 0.294 M,
[CO] = 0.274 M and
[Br2] = 0.274 M.
(a) The equilibrium mixture is transferred to a
12.8-L flask. In which direction will the reaction
proceed to reach equilibrium?
(b) Calculate the new equilibrium concentrations that result when
the equilibrium mixture is transferred to a...
Consider the equilibrium between COBr2, CO and Br2 COBr2(g) at 382 K CO(g) + Brz(9) K= 2.08 The reaction is allowed to reach equilibrium in a 13.8-L flask. At equilibrium, [COBr2] = 4.43x10-2 M, [CO] = 0.304 M and [Br2] = 0.304 M. (a) The equilibrium mixture is transferred to a 6.90-L flask. In which direction will the reaction proceed to reach equilibrium? (b) Calculate the new equilibrium concentrations that result when the equilibrium mixture is transferred to a 6.90-L...
Consider the equilibrium between COBr2, CO and Br2. COBr2(g) -->CO(g) + Br2(g) K = 1.84 at 380 K The reaction is allowed to reach equilibrium in a 13.8-L flask. At equilibrium, [COBr2] = 3.02×10-2 M, [CO] = 0.236 M and [Br2] = 0.236 M. (a) The equilibrium mixture is transferred to a 6.90-L flask. In which direction will the reaction proceed to reach equilibrium? _________to the right? to the left? (b) Calculate the new equilibrium concentrations that result when the...
Tutored Practice Problem 15.2.3 COUNTS TOWARDS GRADE Manipulate equilibrium constant expressions. The equilibrium constant for the following reaction is 2.18x10-3 at-24°C. 2 NOBr(g)2 NO(g) + Br2(g) K-2.18x103 at -24 °C Calculate the equilibrium constant for the following reactions at -24 °C. (a) 2 NO(g) +Br2g NOBr(g) K- (b) NOBr(g)_NO(1/2 Br2(g) K- Check & Submit Answer Show Approach
Close Problem Tutored Practice Problem 19.3.1 COUNTS TOWARDS GRADE Calculate standard free energy change using AH and So values. Consider the reaction CH4(g) + H2O(g)—_>3H2(g) + CO(g) Calculate the standard free energy change for this reaction at 25°C from AHºrn and AS rxn: AGºrxn = kJ/mol Check & Submit Answer Show Approach
Tutored Practice Problem 19.3.4 COUNTS TOWARDS GRADE Calculate the equilibrium constant from the standard free energy change. Close Pr Using standard thermodynamic data (linked), calculate the equilibrium constant at 298.15 K for the following reaction. N2(g) + O2(g) +2NO(g) K- Check & Submit Answer Show Approach