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Detailed information about the equation:
- This equation represents the reaction between the metal zinc (Zn) and the compound potassium phosphate (K3PO4), resulting in the compound zinc phosphate (Zn3(PO4)2) and the metal potassium (K).
- According to the balanced equation, one mol of zinc reacts with two mols of potassium phosphate to produce one mol of zinc phosphate and six mols of potassium.
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Reaction conditions:
- The specific conditions for this reaction are not clearly stated, but typically, chemical reactions like this require appropriate temperature and pressure, and sufficient time for the reaction to be complete.
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Reaction process:
- During the reaction process, zinc and potassium phosphate mix with each other and exchange ions to form zinc phosphate and potassium.
- Zinc, a metal with a valence of +2, combines with the phosphate ion (PO4) with a valence of -3, forming zinc phosphate. During this process, the potassium ion (K) is released.
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Occurring phenomena:
- The specific phenomena in this chemical reaction may include color change, heat emission, or the appearance of solid (precipitate) or gas (if any).
- However, this specific reaction is not described in detail in the literature to determine the specific phenomena that will occur.