This chemical formula is for ammonium acetate.
The reaction between ethanoic acid and ammonium hydroxide forms ammonium acetate, water, and ammonia gas. The balanced chemical equation for this reaction is: CH3COOH + NH4OH -> NH4CH3COO + H2O + NH3.
Salts of weak acids and bases are the ionic compounds formed by the reaction between a weak base and a weak acid. For example, if acetic acid was to react with ammonium, the salt ammonium acetate would form.
Nonexistamine. If it did exist, the best name for it would probably be ammonium carbide, but that particular combination of atoms has loose bonds dangling ... it might theoretically exist as an ion or free radical, though a double or triple free radical (depending on exactly how the hydrogens are arranged) is massively unlikely. HCN and NH2CH3 are both real compounds called hydrogen cyanide (or cyanic acid) and aminomethane respectively.
Ammonium acetate or Ammonium ethanoate, CH3COONH4
Yes, ammonium acetate (NH4CH3COO) is soluble in water. It forms a clear, colorless solution when dissolved.
The reaction between ethanoic acid and ammonium hydroxide forms ammonium acetate, water, and ammonia gas. The balanced chemical equation for this reaction is: CH3COOH + NH4OH -> NH4CH3COO + H2O + NH3.
Salts of weak acids and bases are the ionic compounds formed by the reaction between a weak base and a weak acid. For example, if acetic acid was to react with ammonium, the salt ammonium acetate would form.
Nonexistamine. If it did exist, the best name for it would probably be ammonium carbide, but that particular combination of atoms has loose bonds dangling ... it might theoretically exist as an ion or free radical, though a double or triple free radical (depending on exactly how the hydrogens are arranged) is massively unlikely. HCN and NH2CH3 are both real compounds called hydrogen cyanide (or cyanic acid) and aminomethane respectively.
Ammonium acetate or Ammonium ethanoate, CH3COONH4