Transcript of Alchemical notes

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Acetic acid and Cupric Sulfate:

Endothermic.

The Cupric is in insufficient quantities to cause any noticeable reaction.

Acetic acid and Gypsum:

Endothermic.

Made a particularly bad smell, but little else that was productive.

Acetic acid and Sodium Chloride:

Endothermic.

Very tasty when combined with fried potatoes at room temperature.

Acetic acid and Dihydrogen Monoxide:

Endothermic.

The Dihydrogen Monoxide served only to dilute the Acetic acid at room temperature.

Acetic acid and Cupric Ore Powder:

Endothermic.

The powdered form of Cupric Ore allowed a lower than usual melting temperature, but the end product was non-usable.

Acetic acid and Tin Ore powder:

Endothermic.

Similar results to those made using Cupric Ore.

Cupric Sulfate and Dihyrdogen Monoxide:

Exothermic.

A blue compound was produced, along with heat.

Cupric Sulfate and Gypsum:

Endothermic.

At room temperature, no useful product was created.

Cupric Sulfate and Sodium Chloride:

Endothermic.

A pungent odour was released when combined.

Cupric Sulfate and Cupric Ore powder:

Endothermic.

The Cupric did not react with each other at room temperature.

Cupric Sulfate and Tin Ore powder:

Endothermic.

Similar results to those shown with Cupric Ore, despite the increased solubility involved with the powdered form.

Gypsum and Dihydrogen Monoxide:

Exothermic.

A white liquid compound was formed that quickly cooled at room temperature to a white heat resistant solid very similar to plaster. Heat was also produced, although not in the same quantity as Cupric Sulfate with Dihydrogen Monoxide.

Gypsum and Sodium Chloride:

Endothermic.

The two did not seem to noticably mix together at room temperature.

Gypsum and Cupric Ore:

Endothermic

The gypsum seems quite resistant to most compounds at normal room temperature.

Gypsum and Tin Ore:

Endothermic.

Again, very similar results as those shown with Cupric Ore.

Sodium Chloride and Dihydrogen Monoxide:

Endothermic.

At room temperature, the Sodium Chloride dissolves quite easily. Dissolution is faster at higher temperatures.

Sodium Chloride and Cupric Ore:

Endothermic.

No visible combination at room temperature.

Sodium Chloride and Tin Ore:

Endothermic.

Another very similar result as with Cupric Ore.

Cupric Ore Powder and Tin Ore Powder:

Endothermic.

When both ores are in particulate form, a much lower than usual bonding temperature can be obtained. When combined at a moderate heat (my laboratory heating apparatus) I was able to form liquid Bronze quite easily, which cooled to form a standard Bronze Bar at a temperature far lower than that required to produce in mass at a furnace.

Nitrous Monoxide:

Was not able to perform an experimentation using this substance, as the gaseous form would always escape when the vial was opened.