carbamic acid and ammonia react to form an amide and water. What is the amide product of this reaction.

urea

To determine the amide product formed from the reaction between carbamic acid (H2NCOOH) and ammonia (NH3), we need to understand the reaction between an acid and a base.

Carbamic acid (H2NCOOH) can be considered a weak acid, while ammonia (NH3) is a weak base. When an acid reacts with a base, they undergo a neutralization reaction, where the acid donates a proton (H+) to the base.

In this case, the carbamic acid donates a proton to ammonia, resulting in the formation of an amide (specifically, a carbamic acid amide) and water. The reaction can be shown as follows:

H2NCOOH + NH3 → H2NCONH2 (amide) + H2O

Therefore, the amide product formed from the reaction between carbamic acid and ammonia is H2NCONH2, also known as carbamide or urea.

The reaction between carbamic acid (NH2COOH) and ammonia (NH3) can result in the formation of an amide and water. The amide product of this reaction is called carbamide, also known as urea. The balanced chemical equation for this reaction is:

NH2COOH + NH3 → NH2CONH2 + H2O

So, the amide product is NH2CONH2, which is commonly referred to as urea.