....CH3.................O...........................

...__/......................||..........................
..// \\______N___C___CH___NH2.
..\==/.............|..................||….............
........\...........H…….......CH3………....
......CH3.............................................

i)one amine functional group and one amide functional group

ii) Draw an abbreviated structural formulae of the products of the complete hydrolysis of this compound. Identify any new functional groups in the products

iii) identify two examples of the atoms or groups in compund 3 that could be involved in it binding to receptor sites in the body via hydrogen bonding. give reasons why

To answer these questions, let's analyze the given compound step by step.

i) The compound contains one amine functional group and one amide functional group.

ii) To determine the products and their functional groups upon complete hydrolysis, we need to break the compound into its constituent parts. Hydrolysis involves the breaking of bonds with the addition of water molecules. In this case, the amide functional group will be hydrolyzed to form an amine and a carboxylic acid.

The hydrolysis of the given compound would result in the following products:
CH3 – NH2 (amine) + CH3 – C(=O) – OH (carboxylic acid).

The new functional groups in the products are:
- Amine functional group (CH3 – NH2)
- Carboxylic acid functional group (CH3 – C(=O) – OH)

iii) To identify atoms or groups in the compound that could be involved in hydrogen bonding with receptor sites in the body, we need to consider the presence of hydrogen bond acceptors and donors. In this case, potential hydrogen bond acceptors would be oxygen atoms, while potential hydrogen bond donors would be hydrogen atoms bonded to nitrogen or oxygen.

Based on the given compound, two examples of atoms or groups that could be involved in hydrogen bonding are:
1. The nitrogen atom in the amine functional group (CH3 – NH2) can act as a hydrogen bond donor by providing a hydrogen atom for bonding.
2. The oxygen atom in the amide functional group (C(=O) – NH2) can act as a hydrogen bond acceptor by having a lone pair of electrons available for bonding.

Therefore, the nitrogen atom in the amine group and the oxygen atom in the amide group could potentially bind to receptor sites in the body through hydrogen bonding.

Remember to always consider the specific molecular structure and functional groups present in a compound when determining the potential interactions it can have.