Answer:
The expression for the equilibrium is: Kc=[Ca 2+][CO3 -2] and the value of Kc depends of the concentrations.
Explanation:
When writting a Kc expression it's important to know the state (gas, solid, liquid or aqueous) of <u>every component</u> of the ecuation.
This will help you to know how to express the activities (usualy equal to the concentrations) of each component. Being them:
- Gases: concentration in fuction of presure
- Liquid: concentration equal to 1
- Solid: concentration equal to 1
- Aqueous: concentration in molarity (for ex: 0.1 M)
Liquids and solids are separated of the aqueous medium and <u>that is why they don't go in the ecuation, even if they form part of the reaction</u>.
Going to the equilibrium given, both Ca2+ and CO3 2- are aqueous so they are included in the Kc, but as said before CaCO3 is solid and it's not included.
Cause all of this we get the following expression: Kc=[Ca 2+][CO3 -2]
About the value of Kc, it depends of the concentration of the ions.
If nothing is said in the problem, we can asume that [Ca 2+]=[CO3 -2] beacuse 1 molecule of CaCO3 gives you 1 Ca2+ and 1 CO3 -2. So:
- If [Ca 2+] < 1 M --> Kc< 1
- If [Ca 2+] = 1 M --> Kc=1
- If [Ca 2+] > 1 M --> Kc>1
