## Exercise 5G.1

Zaynab Hashm 2I
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### Exercise 5G.1

5G.1 is true/false

c) if one starts with a higher pressure of reactant, the equilibrium constant will be larger

d) if one starts with a higher concentrations of reactants, the equilibrium concentrations of the products will be larger

my question is, why is c) false and why is d) true, what would the explanations be?

Kylie Lim 4G
Posts: 110
Joined: Sat Aug 17, 2019 12:15 am

### Re: Exercise 5G.1

As long as the temperature is constant, K will have the same value for a reaction even if more reactants are added. This is because K is a [P]/[R], so adding more reactant will eventually lead to more product which will reduce to the same value of K.

aishwarya_atmakuri
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### Re: Exercise 5G.1

C is asking about the equilibrium constant, which is a fixed value. D is asking about equilibrium concentrations, which depend on the initial reactions.

Posts: 111
Joined: Thu Jul 25, 2019 12:17 am

### Re: Exercise 5G.1

c) if one starts with a higher pressure of reactant, the equilibrium constant will be larger

This is false because the equilibrium constant will stay the same for reactions happening at the same temperature. Having a "greater pressure" of the reactant will affect or cause a shift to the left and reaction will produce more products to achieve equilibrium so the ratio pressures (Kp) of reactants and products will be the same.

d) if one starts with a higher concentrations of reactants, the equilibrium concentrations of the products will be larger

The keyword here is CONCENTRATION. If you have more reactants when the reaction reaches equilibrium, there will be more products produced and the ratio of Products to Reactants will equal Kc.

205405339
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Joined: Thu Jul 11, 2019 12:16 am

### Re: Exercise 5G.1

according to one of the TA's, a Higher pressure of the reactant just implies that more reactant was added and the presence of reactants/products does not affect the equilibrium constant. Also, for d, a higher amount of reactants will yield a higher amount of products thus initial concentrations will increase