Mixed

What is the most unstable molecule?

What is the most unstable molecule?

Azidoazide azide is the most explosive chemical compound ever created. It is part of a class of chemicals known as high-nitrogen energetic materials, and it gets its “bang” from the 14 nitrogen atoms that compose it in a loosely bound state. This material is both highly reactive and highly explosive.

What is an unstable chemical?

reactive or unstable chemical. (1) A substance that, when under pressure, exposed to light, or subjected to friction or ignition, produces or releases energy in the form of heat or an explosion. (2) Substances that develop toxic or flammable vapors when mixed together or with water.

Can molecules be unstable?

Other chemists have made another kind of notoriously unstable molecule, called a carbene, and found it to be stable. A carbene is a molecule containing a carbon atom with just two single bonds. Carbon usually has four bonds, which explains why chemists consider carbenes to be very unstable compounds.

READ ALSO:   How do I block inappropriate pop-ups on Chrome?

Why is molecule unstable?

An atom can be considered unstable in one of two ways. If it picks up or loses an electron, it becomes electrically charged and highly reactive. Such electrically charged atoms are known as ions. Instability can also occur in the nucleus when the number of protons and neutrons is unbalanced.

Why is azide added to reaction mixture?

Azide is added to suppress the interference from nitrite present that would react with the iodide.

What is a stable molecule?

The short answer is: A molecule is stable when there is not an energetically-accessible mechanism (or pathway) available that allows it to react and form a more stable molecule or molecules.

What causes the instability of the molecule?

An atom is stable if the forces among the particles that makeup the nucleus are balanced. An atom is unstable (radioactive) if these forces are unbalanced; if the nucleus has an excess of internal energy. Instability of an atom’s nucleus may result from an excess of either neutrons or protons.