Using the balanced endothermic chemical equation below answer the following questions: C6H6(g) + 3 H2(g) C6H12(g)
Using the balanced endothermic chemical equation below answer the following questions:
C6H6(g) + 3 H2(g) C6H12(g)
1. Write out the general equilibrium constant expression, i.e.-equation.
K =
2. What is the value for the above equilibrium constant if the equilibrium
concentrations are [C6H6]=0.0432 M, [H2]=0.00510 M and [C6H12]=0.541 M?
3. Determine in what direction the equilibrium will be shifted (to products or to reactants), by each of the following changes
Increasing the concentration of C6H12 ________________________
Increasing the concentration of H2 ________________________
Increasing the temperature ________________________
Increasing the size / volume of the reaction container (remember Boyle’s law)
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