Question

Amides are different from amino acids as they contain more
(a) Hydrogen
(b) Oxygen
(c) Nitrogen
(d) Carbon

Answer 1

Around eighty percent of the Earth’s atmosphere comprises it. They are a constituent of all living tissues. They are a component of DNA and part of a genetic code which is an essential element of life. They are used in the manufacture of ammonia, to produce nitric acid and subsequently used as a fertilizer.

Complete answer:
Amides are different from amino acids as they contain more nitrogen. Amides are a sort of functional group that can't be skipped because of the presence of a nitrogen atom in the compounds. An amide is a functional group that consists of a group and nitrogen atom and may be derived from the varied functional group referred to as carboxylic acid.

Additional information: Compounds carrying a nitrogen atom bonded during a hydrocarbon framework are categorized as amines. Compounds that contain a nitrogen atom bonded to at least one side of a group are categorized as amides. Amines are a basic functional group. Amines and carboxylic acids can combine during a condensation reaction to make amides. Amides are classified into three types of support: their names that are primary amine, secondary amine, and a tertiary amine. The differences are categorized on the basis of the position of the nitrogen atom bonded to the carbon atom in a molecule chain. Although naming a primary amide you need to drop the end with ‘ic acid’ or ‘oic acid’ followed by an ‘amide’. The Secondary amide is referred to through integrating an N to exhibit that nitrogen is bonded to an alkyl group. An alkyl group is a type of hydrocarbon chain, which carries hydrogen and carbon atoms.
So, the correct answer is ‘(c) Nitrogen’.

Note: Amides are prevalent in technology as structural substances. An amide link is developed easily, counteract hydrolysis, and grants structural rigidity. Polyamides and nylons are the most resilient materials. Several drugs are amides that contain penicillin, LSD, and paracetamol. Moreover, plant N-alkyl amides contain a broad range of biological functionalities.