Yes. In common ion effect just recall when adding a compound like Ca(x) into a solution, since Ca is in common with the Ca in the system, that is really whats added. It's like we're just adding Ca++ in the system, which would left shift things unless it is the original compound. Hope that makes since.
"its just the way the stoichiometry works"
Thank you for the helpful video! Can you please show a shortcut to cube root or 3rd root of (6.2/4)?
only things is i wish you showed out the calculations before just providing the x answer
Wouldn't the answer to the calculation be 0.011573?
big help thanks
Is this video the common ion effect as well? I feel like the last part goes over it.I might be wrong
Yes. In common ion effect just recall when adding a compound like Ca(x) into a solution, since Ca is in common with the Ca in the system, that is really whats added. It's like we're just adding Ca++ in the system, which would left shift things unless it is the original compound. Hope that makes since.
If X 0.116M equals concentration of Ca is it also .116 M for CaOH2? the reactant