Yes. Lithium is very reactive to other elements.
Chlorine and lithium would be the most reactive because chlorine is a halogen and lithium is an alkali metal, both of which are highly reactive elements. Nickel is a transition metal and is less reactive compared to chlorine and lithium.
They are both reactive chemical elements. Other than that, they have little in common.
Lithium is a highly reactive element because it has a single electron in its outer shell, making it eager to donate that electron to achieve a stable electron configuration. This property allows lithium to readily form compounds with other elements.
The placement of the elements from least reactive to most reactive is xenon, nickel, and then lithium. Xenon is a noble gas and is generally unreactive, while nickel, a transition metal, has moderate reactivity. Lithium, an alkali metal, is highly reactive, especially with water and air.
Lithium and Fluorine.
These elements are francium and lithium.
Reactivity of any metal depends on its capacity to loose electrons as quickly as possible. Among Lithium, Copper and tungsten, lithium is the most reactive since it looses electrons very quickly and forms its cation. In fact, it is among the most reactive metals.
Lithium is more reactive than lead. Lithium is a highly reactive metal and can react violently with water. Lead, on the other hand, is a relatively stable metal and does not react as readily with other substances.
Of the metals listed, lithium is the most reactive. Lithium is an alkali metal with only one valance electron. This electron is easily lost in order to give lithium a stable noble gas configuration. Because of this tendency to lose an electron, lithium is quite reactive.
In order from least reactive to most, the order is xenon, nickel, then lithium. I determined this based in the theory that non-metals are less reactive.
The other highly reactive element in period 2 is fluorine, a non-metal. Both lithium and fluorine readily form compounds due to their high reactivity.
Li stands for lithium in the periodic table.