An element's reactivity is influenced by its ability to gain or lose electrons to achieve a stable electron configuration. Elements with incomplete outer electron shells are generally more reactive as they can easily form bonds with other elements to gain stability. Reactivity can also be affected by factors such as atomic size and electronegativity.
Elements are more reactive as you go down the periodic table and to the left.
Potassium is the most reactive element with oxygen, readily reacting to form potassium oxide.
Plutonium is not highly reactive under normal conditions. It is a relatively stable element that does not react readily with air or water. However, it can be reactive in certain chemical reactions or when exposed to high-energy particles.
A scientist might store a super reactive element with a noble gas as a way to prevent chemical reactions with the surrounding environment. Noble gases are inert and non-reactive, providing a stable environment for storing highly reactive elements. This helps to ensure the safety of handling and storage of the reactive element.
This is called a displacement reaction. It occurs when a more reactive element displaces a less reactive element from its compound during a chemical reaction.
Fluorine is the most reactive element.
The element Californium is reactive.
Hydrogen is not only the lightest element of all, it is also very reactive.
Fluorine(F2) is the most reactive element, known to react with even Xenon, Krypton, Gold, Platinum, etc.
An element is said to be chemically reactive when it combines with another element. These two elements will create a new compound.
If by vital you mean most reactive, then the metal francium, Fr, is the most reactive element.
Potassium is most reactive with the element Oxygen. However, it should be noted that it is most reactive with a non-element: Water.
copper is very un-reactive. lead is more reactive.
Fluorine
XENON
Yes. it is.
I dont think i am sure about that