Net Ionic Equation: Ca^2+(aq) + 2H^+(aq) + SO_4^2-(aq) --> H_2O(l) + CaSO_4(s)

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The discussion focuses on writing the net ionic equation for the reaction between Ca(OH)2 and H2SO4, leading to the formation of H2O and CaSO4. Participants clarify that the products are H2O(l) and CaSO4(s) and emphasize the need to balance the equation. The conversation highlights the importance of separating the aqueous reactants into their ionic forms while considering the potential for precipitation of CaSO4. There is a mention of the "acidic salt" aspect and how it complicates the reaction dynamics. Ultimately, the net ionic equation is presented as Ca^2+(aq) + SO4^2-(aq) → CaSO4(s).
Tom McCurdy
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I am supose to write the net ionic equation for

Complete the right side of the following molecular equation (but do not enter). Then enter the net ionic equation. Assume all salts formed are soluble. Acid salts are possible. Use = instead of ==>. Do not use spaces or subscripts. You may use brackets.


Ca(OH)_2(aq) + 2H_2SO_4(aq) ==>

I get that the products would be H_2O(l)+CaSO_4(s)

So Do I just have to balance this equation? then separate the two aq on the left into ions and leave the right as it is.
 
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You should also consider the "acidic salt", this is sort of a weird question, because it neglects the effect of precipitation, if such a salt CaS04 precipitates, than it would drive the dissociation of HS04- forward, which usually doesn't occur to a great extent. But I think they just want you to play dumb on this one.

Once you find all of the salts, the net ionic equation will pertain to just these salts...for instance

Ca^{2+}_{(aq)} + SO_4^{2-}_{(aq} ---> CaSO4_{(s)}
 
Thread 'Confusion regarding a chemical kinetics problem'

Thread 'Confusion regarding a chemical kinetics problem'

TL;DR Summary: cannot find out error in solution proposed. [![question with rate laws][1]][1] Now the rate law for the reaction (i.e reaction rate) can be written as: $$ R= k[N_2O_5] $$ my main question is, WHAT is this reaction equal to? what I mean here is, whether $$k[N_2O_5]= -d[N_2O_5]/dt$$ or is it $$k[N_2O_5]= -1/2 \frac{d}{dt} [N_2O_5] $$ ? The latter seems to be more apt, as the reaction rate must be -1/2 (disappearance rate of N2O5), which adheres to the stoichiometry of the...
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