The three biologically important amides are acetamide, formamide, and succinimide. Acetamide is a building block in the synthesis of proteins and other biomolecules, formamide is involved in nucleic acid chemistry, and succinimide is a cyclic amide found in peptides and proteins.
carbon , hydrogen , oxygen , sulfur , phosporus and nitrogen
Amides are generally not flammable. As for their smell, it can vary depending on the specific amide compound. Some amides may have a faint ammonia-like odor, while others may be odorless or have different, often mild, odors.
Amides are soluble in water because they can form hydrogen bonds with water molecules due to the presence of a carbonyl group and an amine group. This ability to interact with water molecules through hydrogen bonding allows amides to be soluble in water.
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Solid because of the strong N-H bonds. Primary and secondary amides are able to hydrogen bond and have C-N bonds which are all polar giving it stronger intermolecular forces.
. whyOnly D sugars are biologically important?
Amides are electron withdrawing in chemical reactions.
. whyOnly D sugars are biologically important?
Biologically, they show that the female is ready for childbearing.
Proteins are a class of such substances.
carbon , hydrogen , oxygen , sulfur , phosporus and nitrogen
Amides are generally not flammable. As for their smell, it can vary depending on the specific amide compound. Some amides may have a faint ammonia-like odor, while others may be odorless or have different, often mild, odors.
Amides are soluble in water because they can form hydrogen bonds with water molecules due to the presence of a carbonyl group and an amine group. This ability to interact with water molecules through hydrogen bonding allows amides to be soluble in water.
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Michael said in an interview that all three kids are biologically his.
Cyclic amides, also known as lactams, are compounds with a ring structure containing an amide functional group. They have unique properties that make them useful in organic chemistry. Cyclic amides are commonly found in natural products and pharmaceuticals due to their stability and ability to form hydrogen bonds. They are also used as building blocks in the synthesis of complex molecules. Additionally, cyclic amides can exhibit different reactivity compared to linear amides, making them valuable in various chemical reactions.
Jacob Zabicky has written: 'The chemistry of amides' -- subject(s): Amides 'Chemistry of Alkenes Volume 2. (Chemistry of Functional Groups)'