Look at this system: 2A (9) mwilio C (g) + D (g) At 300K, equilibrium is reached, and the concentrations are found to be and to 0.0144 MA: 0.0701 M C; 0.860 MD What is Kc? O 5.05 x 10-2 O 2.91 x 103 O 0.990 O 7.06 x 102 O 0.0405 O 9.63
Look at this system: 2A (9) mwibo C (g) + D (9) At 300K, equilibrium is reached, and the concentrations are found to be 0.124 M A; 0.546 M C; 0.0252 MD What is Kc? 44.4 O 30.5 O 0.0190 O 1.86 x 102 0.895 0.00145
Look at this system: 2A (g) and C (g) + D (g) At 300K, equilibrium is reached, and the concentrations are found to be 0.0824 M A; 0.0946 MC; 0.652 MD What is Kc? 9.08 552 0.00590 3.86 x 106 0.0995 0.00345
Question 4 Look at this system: 2A (g) + B (g) 2C (g) At 300K, equilibrium is reached, and the concentrations are found to be 0.0657 MA; 0.0750 MB; 0.0256 MC What is Kc? 2.02 7.82 6.23x 105 5.24 x 10-2 5.01 x 10-1 253 723 6.73 x 10-3
Part A)The reversible chemical reaction . A+B⇌C+D has the following equilibrium constant: Kc=[C][D][A][B]=2.6 Initially, only A and B are present, each at 2.00 M. What is the final concentration of A once equilibrium is reached? Part B) What is the final concentration of D at equilibrium if the initial concentrations are [A] = 1.00 M and [B] = 2.00 M ? Express your answer to two significant figures and include the appropriate units.
The reversible chemical reaction A+B⇌C+D has the following equilibrium constant: Kc=[C][D][A][B]=2.0 Part A Initially, only A and B are present, each at 2.00 M. What is the final concentration of A once equilibrium is reached? Express the molar concentration numerically using two significant figures. Part B What is the final concentration of D at equilibrium if the initial concentrations are [A] = 1.00 M and [B] = 2.00 M ? Express the molar concentration numerically using two significant figures.
What is the final concentration of D at equilibrium if the initial concentrations are [A] = 1.00 M and [B] = 2.00 M ?The reversible chemical reaction A+B⇌C+D has the following equilibrium constant: Kc=[C][D][A][B]=5.3 Gaseous hydrogen iodide is placed in a closed container at 425∘C, where it partially decomposes to hydrogen and iodine: 2HI(g)⇌H2(g)+I2(g) At equilibrium it is found that [HI]= 3.55×10−3M, [H2]= 4.82×10−4M , and [I2]= 4.82×10−4M. What is the value of Kc at this temperature? b The reversible...
Consider the reaction at 25°C: 2A (aq) + B (aq) → C (aq) +2D (aq) An experiment was performed with the following initial concentrations: [A] = 2.00 M, [B] = 3.00 M, [C] = 0.100 M, [D] = 0.800 M. The reaction was allowed to proceed until equilibrium was reached at which time [A] = 0.600 M. What is the value of Wmax for the maximum work that could have been performed as the reaction began? Please report your answer...
Again, consider the exothermic reaction, with K=3.00: 2A(aq) + B(g) ⇌ C(aq) + D(g) With initial concentrations of [A] = 0.5M, [B] = 2.0M, [C] = 1.0M, and [D] = 1.5M. For each of the following disruptions, predict weather the reaction will go forward (toward products), reverse (towards reactants), or be unchanged. a) [A] increased to 2.0M b) Pressure doubled. c) Volume of solution doubled by dilution. d) The temperature is increased by 100.0oC (15.83 from text) When 1.50mol CO2...
For System 2A(g) + 5 B(g) →64 C(g) + 6D (g) when reaching balance 37 degrees Celsius concentrations are: (a.) 0.110 M, (b.) 0.050 M, (c.) 0.200 M a.) what is the value of Kc? b.) what is the value of Kp?