Can the Heat of Formation for BaSO4 be Determined through Calorimetry?

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In calorimetry, the dissociation of soluble compounds like CuSO4 in water results in a temperature change due to a chemical reaction. However, when an insoluble compound like BaSO4 is added to water, no chemical reaction occurs, and thus, there is no significant temperature change associated with a heat of formation. While physical processes, such as heat conduction, may cause minor temperature fluctuations, they do not provide meaningful data regarding the heat of formation. Heats of formation are specifically related to the formation of compounds from their elemental constituents and are documented in thermodynamic tables, not derived from dissolution or dissociation in solution.
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If I am doing calorimetry, I know that if I put something like CuSO4 in water it will dissociate and the water will change temperature...

But if I put something insoluble such as BaSO4 in water, will the temperature still change and will I be able to find it's heat of formation.

It's probably an obvious answer I just don't remember, thanks!
 
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If there is no chemical reaction, there is nothing that could change the temperature. Okay, you still have the mechanical energy of the material sinking to the bottom, but that is completely negligible.
 
The temperature may change just from the physical contact between the solid and liquid simply through conduction of heat. In general correlating temperature changes with chemical or physical processes requires knowledge about what processes are occurring during the temperature change. If there is no chemical or physical process occurring then the temperature change is not giving you information about that process.

Also heats of formation refer to compounds being formed from their constituent elements, not being dissolved or dissociated in solution. These values are typically tabulated as standard heats of formation in various thermodynamic tables.
 

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