How does bicarb soda dissolve gypsum in plaster form?

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Gypsy Moonlight
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Ehecatl posted very helpful content on this ,.. Just wondering if anyone can describe the actual reaction that takes place?
 
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Borek said:
I guess you refer to this thread: https://www.physicsforums.com/threads/acid-for-plaster-of-paris.139990/

The only chemistry I can think of is that he converted sparingly soluble CaSO4 into even less soluble CaCO3, changing the structure of the solid in the process.

Yes, that is the thread, I have, And it was brilliant advice, -I tried the bicarb solution and it worked well to dissolve the plaster/ soften enough for easy scraping.
I am hoping to be able to explain it a little to primary school kids - they will be playing archeologist with buried dinosaurs, though I now have to also give them bicarb soda to access the toys inside the plaster as I made the plaster too hard. I can talk to them about it being a base, but I don't really understand why it is working to eat away the plaster,...
There is a reaction that happens first when the water and gypsum combine, then another when the bicarb works on the plaster,. Any laymen's terms would be appreciated,
Thanks,
 
Every insoluble salt is in fact a bit soluble. CaSO4 has solubility around 100 times higher than CaCO3. When you add bicarbonate plaster (calcium sulfate) slowly dissolves and calcium carbonate precipitates:

CaSO4(s) + NaHCO3(aq) → CaCO3(s) + NaHSO4(aq)

It happens the precipitating CaCO3 is much easier to remove.

Disclaimer: this is just my guess, what I wrote is thermodynamically correct, but it is not necessarily the correct explanation.
 
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Cannot Ca++ stay in solution as Ca(HCO3)2(aq)?
This is the normal species of calcium hardness in well water.
 
insightful said:
Cannot Ca++ stay in solution as Ca(HCO3)2(aq)?
This is the normal species of calcium hardness in well water.

Yes, but there is still a limit to how much of them can be present.

Besides, in NaHCO3 solution concentration of CO32- is quite high, which means the maximum concentration of Ca2+ quite low. In 0.1 M NaHCO3 [CO32-] = 1.1×10-3 M, which puts a limit on the [Ca2+] at 2.5×10-6 M. Compare that to the concentration of Ca2+ in the saturated CaSO4, which is around 0.005 M - almost 2000 times higher than what is required required for the CaCO3 to start precipitate (assuming above concentration of CO32-).