Halogens.
Most likely lithium since it has a the highest ionization energy than the others.
They are in group one called the Alkali Metals.Those are alkali metals. They are the most reactive of all the metals, and they are in group 1 of the periodic table, all the way to the left.
The two most important alkali metals would be sodium and potassium.
Alkali metals can be substituted for hydrogen. Any of them. They include lithim (Li), sodium (Na), potassium (K), rubidium (Rb), cesium (Cs) and francium (Fr). The alkali metals are in group one of the periodic table of the elements, and are all stacked up in the column below hydrogen. All the alkali metals are all organized with a lone electron in their outer most shell, or valence shell (in the neutral atom) and all of the alkali metals would like to loan out that electron to anything that would like to borrow it. It turns out that the reactivity of alkali metals are least to greatest from the top of the column to the bottom. This is because of electron screening. A link to our friends at Wikipedia is provided.
They would be one of the alkali earth metals. Since alkali metals only have one valence electron it is very easy for it to react. The lower you go down a column the more reactive it would be since its further away from the nucleus.
Most likely lithium since it has a the highest ionization energy than the others.
They are in group one called the Alkali Metals.Those are alkali metals. They are the most reactive of all the metals, and they are in group 1 of the periodic table, all the way to the left.
Among the naturally occurring elements, the most likely one would be cesium, the least electronegative of all elements. In practice, any of the other alkali metals and any of the alkaline earth metals would usually react readily with chlorine gas, as would many of the transition metals.
in group 1, the first column on the left Edit: these would be the alkali metals.
All the alkali metals will melt.
The two most important alkali metals would be sodium and potassium.
Lumber mill
Alkali metals can be substituted for hydrogen. Any of them. They include lithim (Li), sodium (Na), potassium (K), rubidium (Rb), cesium (Cs) and francium (Fr). The alkali metals are in group one of the periodic table of the elements, and are all stacked up in the column below hydrogen. All the alkali metals are all organized with a lone electron in their outer most shell, or valence shell (in the neutral atom) and all of the alkali metals would like to loan out that electron to anything that would like to borrow it. It turns out that the reactivity of alkali metals are least to greatest from the top of the column to the bottom. This is because of electron screening. A link to our friends at Wikipedia is provided.
Lumber mills are least likely to pollute water with heavy metals. Did you know that Zinc, copper, and lead are three of the most common heavy metals released from road travel.
They would be one of the alkali earth metals. Since alkali metals only have one valence electron it is very easy for it to react. The lower you go down a column the more reactive it would be since its further away from the nucleus.
No, in comparison to the rest of the metals, lithium (as an alkali metal) would be called a soft metal. All the alkali metals could be cut with a knife, but still retain properties of metals.
Basic oxides