The symbol equation for the reaction between ethanoic acid and silver nitrate solution is: CH3COOH + AgNO3 -> AgCH3COO + HNO3
The symbol equation for ethanoic acid (CH3COOH) reacting with ammonium carbonate [(NH4)2CO3] is: CH3COOH + (NH4)2CO3 -> CH3COONH4 + H2O + CO2
'...The mixture slowly crept up the test tube and over the rim fizzing. It overflowed in a matter of seconds, leaving half of its self behind in firm sticky bubles that clung to the edges and sprouted from the middle of the test tube...'Qoute from the 'Science Lab Discussion'.
Yes, salt plus vinegar is an example of an aqueous solution. When salt is dissolved in vinegar, it forms an aqueous solution where the salt ions are dispersed in the vinegar solvent.
CH3COOH (acetic acid) plus H2O (water) will result in the formation of H3O+ (hydronium ion) and CH3COO- (acetate ion) through the ionization of acetic acid in water. This is an acidic solution due to the presence of the hydronium ion.
The symbol for ethanoic acid is: CH3COOH The symbol for Calcium Carbonate is: CaCO3 word equation : calcium carbonate + ethonic acid --> calcium ethaon + carbonate symbol: CaCo3 + CH3COOH --> CaCH3CO + H2
The symbol equation for the reaction between ethanoic acid and silver nitrate solution is: CH3COOH + AgNO3 -> AgCH3COO + HNO3
Vinegar is an acid. But it is weak
When a carboxylic acid is added to an alcohol, it forms an ester: Eg: CH3COOH + CH3OH -> CH3COOCH3 Sulphuric acid acts as a catalyst to this reaction Therefore if you add ethanoic acid and sulfuric acid to a unknown substance and it reacts the original substance was an alcohol.
The symbol equation for ethanoic acid (CH3COOH) reacting with ammonium carbonate [(NH4)2CO3] is: CH3COOH + (NH4)2CO3 -> CH3COONH4 + H2O + CO2
'...The mixture slowly crept up the test tube and over the rim fizzing. It overflowed in a matter of seconds, leaving half of its self behind in firm sticky bubles that clung to the edges and sprouted from the middle of the test tube...'Qoute from the 'Science Lab Discussion'.
Yes, salt plus vinegar is an example of an aqueous solution. When salt is dissolved in vinegar, it forms an aqueous solution where the salt ions are dispersed in the vinegar solvent.
Table salt (sodium chloride) and vinegar (acetic acid) do not produce any obvious reaction. What happens is a reversible equilibrium ionic reaction. sodium chloride + acetic acid <--> sodium acetate + hydrochloric acid As the hydrochloric acid on the right side of the equation is much more reactive than the acetic acid on the left side of the equation, the reverse reaction dominates returning the reactants to their original form almost instantly. Also this is an ionic reaction in water so most of the time we just have the following free ions: sodium+, chloride-, hydrogen+, and acetate- not the compounds listed in the equation above.
CH3COOH (acetic acid) plus H2O (water) will result in the formation of H3O+ (hydronium ion) and CH3COO- (acetate ion) through the ionization of acetic acid in water. This is an acidic solution due to the presence of the hydronium ion.
Distilled (white) vinegar contains water and acetic acid. Other vinegars contain the same things plus various goop* either left over (as in cider vinegar or wine vinegar) or added (as in raspberry vinegar) to give it flavoring. * "Goop" is the technical term for "a whole lot of stuff I'm not going to bother to look up and it's probably not even fully known anyway."
If your talking as in, baking soda in a vinegar balloon, then it would obviously explode. Make sure to try this experiment in your parent's brand new car. Answer 2: Lol - yeah and send him the bill :D NaHCO3 (aq) + CH3COOH (aq) ----> CO2 (g) + H2O (l) + CH3COONa (aq) That is: Baking Soda plus weak vinegar = carbon dioide, water and Sodium Acetate. So, it fills up with gas - and sprays water and weak acid everywhere.
Mixing vinegar with baking soda produces carbon dioxide gas. The reaction between the two ingredients forms carbonic acid, which quickly decomposes into water and carbon dioxide, resulting in bubbling and fizzing.