Aspirin is part of the Mickey Mouse club house in Venezuela. But, a carboxylic acid is part of the Minnie Mouse club house in Brazil.
Phenol is converted to aspirin by adding carboxylic acid and esterifying the alcohol.
The carboxylic acid group or -COOH group makes it acidic
Acetylsalicylic acid, aromatic group, and the carboxylic acid
Neither. Aspirin, acetyl salicylic acid, is a structure containing benzene, carboxylic acid, and ester functional groups, but it does not contain nitrogen at all, let alone eitehr an amine or amide.
Do not be confused with alcohols nor ketones when seeing the -OH and the =O bonded. They each are really parts of either:- the carboxylic acid group (-COOH)- the ester link (from neighbour carbon along the ring)Likewise, double-bonds you see constitute the benzene (aromatic) ring:- a functional group in itself- they are not the normal alkene double bonds- would actually best be represented by a circle inside the ring,- not double lines for each of 3 double bonds, as resonance occurs in benzene rings.Therefore, aspirin (or acetylsalicylic acid) contains:- aromatic ring- carboxylic acid group- ester groupand can be regarded as an acid (i.e. acetylsalicylic acid)or the acetate ester of salicylic acid :-)so aspirin is (if choosing from your options):- not an alkene, nor a ketone, nor an alcohol.- we are left with a carboxylic acidBUT we usually only regard aspirin as an acetate ester, or a derivative of salicylic acid,so you wouldn't generally hear one calling aspirin a carboxylic acid :-)I hope I cleared things up a bit :-)Cheers.
Aspirin is acetylsalicylic acid and an acetate ester of salicylic acid.
Ester, a carboxylic acid.
Phenol is converted to aspirin by adding carboxylic acid and esterifying the alcohol.
The carboxylic acid group or -COOH group makes it acidic
Acetylsalicylic acid, aromatic group, and the carboxylic acid
Some drugs that contain carboxylic acids include aspirin, tranexamic acid, levofloxacin, tiagabine, diacerein, cefixima, micardis, and telmisartan.
Carbonoxylic acid is an organic acid consisting of carbon, oxygen, and hydrogen. Carbonoxylic acid is an ester found in acetylsalicylic acid commonly know in households as aspirin.
Neither. Aspirin, acetyl salicylic acid, is a structure containing benzene, carboxylic acid, and ester functional groups, but it does not contain nitrogen at all, let alone eitehr an amine or amide.
Do not be confused with alcohols nor ketones when seeing the -OH and the =O bonded. They each are really parts of either:- the carboxylic acid group (-COOH)- the ester link (from neighbour carbon along the ring)Likewise, double-bonds you see constitute the benzene (aromatic) ring:- a functional group in itself- they are not the normal alkene double bonds- would actually best be represented by a circle inside the ring,- not double lines for each of 3 double bonds, as resonance occurs in benzene rings.Therefore, aspirin (or acetylsalicylic acid) contains:- aromatic ring- carboxylic acid group- ester groupand can be regarded as an acid (i.e. acetylsalicylic acid)or the acetate ester of salicylic acid :-)so aspirin is (if choosing from your options):- not an alkene, nor a ketone, nor an alcohol.- we are left with a carboxylic acidBUT we usually only regard aspirin as an acetate ester, or a derivative of salicylic acid,so you wouldn't generally hear one calling aspirin a carboxylic acid :-)I hope I cleared things up a bit :-)Cheers.
An alcohol and a carboxylic acid salt (carboxylic acid if protonated at end of reaction).
The reaction between Ammonia and a Carboxylic Acid result, counter intuitively, in the production of an Ammonium Carboxylate and not an Amide. This reaction is there for an acid-base neutralization reaction.
Formic acid is methanoic acid. A carboxylic acid.