This is because they only have on valance electron. This makes it easier to react with other elements and more often also.
because they have one valence electron that is easily removed to form a positive ion.
an atom whose outer s and p orbitals do not match the electron configurations of a noble gas will react to lose or gain electrons so the outer orbitals will be full.
because they just are, because they only have one valence electron. :)
Because they only have one valence electron. It is very easy to lose that valence electron to form a compound, which makes them so reactive.
Alkali metals easily lose the valence electron.
Alkali metals are very reactive metals.
alkali metals
Alkali metals are extremely reactive and therefore are never found in their metallic state - only in compounds. As an example sodium metal is never found in nature only as compounds like salt etc.
The alkali earth metals act in a similar but slightly less reactive way to alkali metals
Alkali metals are powerful reducing agents, they give up one electron easily. They are extremely reactive.
yes they are extremely reactive. They are inn the 1st group.
Group 1, the Alkali Metals, which are extremely reactive.
The alkali metals are more reactive.
Alkali metals are very reactive metals.
Because they are extremely reactive to any moisture in the air.See the Related Questions about the reactivity of the alkali metals (rubidium and cesium are the most reactive of the alkali metals).
No. The alkali and alkaline earth metals are very reactive.
The alkali metals in group 1 are the most reactive.
Alkali metals are the most reactive metals.
alkali metals
Highly reactive metals with one valence electron are known as Alkali metals.
Alkali metals are extremely reactive and therefore are never found in their metallic state - only in compounds. As an example sodium metal is never found in nature only as compounds like salt etc.
The Alkali metals are the most reactive group of metals in the periodic table. Of these Francium is the most reactive metal of all.