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The answer is:- MgCl2 + K2CO3 --> MgCO3 + 2KCl The products are potassium chloride and magnesium carbonate
Yes. PbCl2 (s)
A reaction doesn't occur.
potassium acetate
As a soluble substance we wouldn't expect to find potassium acetate in nature.
The products are Silver chloride (a white precipitate) and potassium ethanoate (acetate). NB THis is a classic test for halides.
The reaction you describe in words is: KCl + AgCH3CO2 → AgCl + KCH3CO2 This type of reaction is known as a "double replacement reaction" aka "double displacement reaction" aka "metathesis reaction." A double replacement reaction is a chemical reaction where two reactant ionic compounds exchange ions to form two new products compounds with the same ions. In this case the ions are K+ , Cl-, Ag+ and C2H3O2−. Note that potassium chloride (KCl), silver acetate (AgCH3CO2) and potassium acetate (KCH3CO2) are all quite soluble in water. Silver chloride (AgCl) is not particularly soluble in water (520 μg/100 g at 50 °C) and will precipitate out as the reaction occurs.
Silver (I) Chloride and Potassium Acetate. All one has to do to solve this problem is to switch the anions and the cations.
Potassium acetate is not corrosive as chloride salts and it is not a pollutant of soils.
Pb2+(aq)+2Cl-(aq)→PbCl2(s)
The answer is:- MgCl2 + K2CO3 --> MgCO3 + 2KCl The products are potassium chloride and magnesium carbonate
Yes. PbCl2 (s)
acetic anhydride and sodium chloride will form.
Yes; lead(II) chloride is very low soluble in water.
A reaction doesn't occur.
potassium acetate
Potassium acetate may be used as a food additive but was not used as a NaCl substitute.