1
answer
0
watching
408
views
11 Nov 2019
39 please!
What I have so far.
(X=B,C,or D) Which reaction has the largest equilibrium b) Which reaction has the smallest equilibrium cc constant? USING EQUILIBRIUM EXPRESSIONS TO SOLVE PROBLEMS Review Questions Outline the steps for calculating the concentrations of species in an equilibrium reaction. computational Problems e equilibrium constant Kp for the reaction: 2502(g) + O2(g) 2SO3(g) is 5.60 x 10t at 350°C. The initial pressures of SO, O2, and SO3 in a mixture are 0.350, 0.762, and 0 atm. respectively, at 350°C. When the mixture reaches equilibrium, is the total pressure less than or greater than the sum of the initial pressures? For the synthesis of ammonia: 15.40 N2(g) + 3H2(g)-â2NH3(g) the equilibrium constant Ke at 375 C is 1.2. Starting with [HI,-0.76 M. [NJ,-0.60 M, and [NHI,-0.48 M, which gases will have increased in concentration and which will have decreased in concentration when the mixture comes to equilibrium?
39 please!
What I have so far.
(X=B,C,or D) Which reaction has the largest equilibrium b) Which reaction has the smallest equilibrium cc constant? USING EQUILIBRIUM EXPRESSIONS TO SOLVE PROBLEMS Review Questions Outline the steps for calculating the concentrations of species in an equilibrium reaction. computational Problems e equilibrium constant Kp for the reaction: 2502(g) + O2(g) 2SO3(g) is 5.60 x 10t at 350°C. The initial pressures of SO, O2, and SO3 in a mixture are 0.350, 0.762, and 0 atm. respectively, at 350°C. When the mixture reaches equilibrium, is the total pressure less than or greater than the sum of the initial pressures? For the synthesis of ammonia: 15.40 N2(g) + 3H2(g)-â2NH3(g) the equilibrium constant Ke at 375 C is 1.2. Starting with [HI,-0.76 M. [NJ,-0.60 M, and [NHI,-0.48 M, which gases will have increased in concentration and which will have decreased in concentration when the mixture comes to equilibrium?
Bunny GreenfelderLv2
29 Jul 2019