Dissolving Solids: Can They Be Reformed?

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Homework Help Overview

The discussion revolves around the concept of solubility in chemistry, specifically focusing on the behavior of solids when dissolved in solvents and whether they can be reformed after dissolution.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the definitions of solubility and the conditions under which solids dissolve. There are questions regarding the nature of dissolution and whether substances can revert to their solid form.

Discussion Status

Some participants have provided insights into the concept of solubility and equilibrium, mentioning the solubility product (Ksp) and factors affecting dissolution. There is a recognition of varying interpretations of the original question, with no explicit consensus reached.

Contextual Notes

One participant notes that the question may have been posted in an inappropriate section of the forum, indicating potential confusion about the topic's classification.

erka15
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I would type the problem but it's really long. I just need to know what the two different results are for dissolving solids because I completely forgot. I think it has to do with if you can bring them back or not ?
 
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Are you asking about diffusion or solubility? It seems like you know what you are searching for better than we do, try google or wikipedia.
 
I'm talking about solubilty. I've tried to look it up but i can't find any thing.
 
Well every substance has a "Ksp" called the solubility which is the product of the concentrations of the products at equilibrium. Most substances will dissolve then go back to solid and redissolve, and based on different factors like temp, conc. of reactants, etc. they will reach a state of equilibrium, the values for the products at this point are the ksp.

For example

Take the Reaction
aX -> Ca+ + Dx-

[a+]^C[x-]^D = Ksp(solubility product) for compound aX

Does that shed any light on this question? I think this is probably posted in the wrong area.
 
Last edited:
Ok, well, I think the wikipedia link helped a little bit. Thanks any way.
 

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