Well for starters, they're elements. Thanks for stating the answer in your question.
Group 17 elements, also known as the halogens (e.g. fluorine, chlorine), are highly reactive due to their tendency to gain one electron to achieve a stable electron configuration. They readily react with other elements to form salts and compounds.
Active elements that never exist alone in nature are known as reactive elements. These elements are highly reactive and readily form compounds with other elements to achieve a more stable state. Examples include sodium, potassium, and chlorine.
The halogen group elements are reactive because they have seven valence electrons, making them one electron short of a full outer shell. They are highly reactive and tend to gain an electron through reactions with other elements to achieve a stable electron configuration.
Synthetic elements can be highly reactive due to their unstable nature and tendency to decay into more stable forms through radioactive decay or by forming compounds with other elements. Some synthetic elements have very short half-lives, making them extremely reactive in the short time they exist.
Fluorine is the most reactive element among the choices provided. It is highly electronegative and tends to readily react with other elements to gain electrons and achieve a stable electron configuration.
Group 17 elements, also known as the halogens (e.g. fluorine, chlorine), are highly reactive due to their tendency to gain one electron to achieve a stable electron configuration. They readily react with other elements to form salts and compounds.
fluorine stable fluorine diatomic is unstable
Highly reactive elements can be kept from reacting by holding them in containers that are made of elements that are very unreactive (or at least not reactive to the highly reactive elements they contain). Unfortunately, the 6 known stable inert elements exist at room temperature only in gas form, so do not make good containers; however, some substances such as glass are very resilient and their molecular structures tend to be stable and unreactive (which is why glass is a common material for beakers and other containers to hold a wide -- but not unlimited -- variety of chemicals).
Because to be stable they need 8 atoms on outermost shell.Alkali need 7 so are highly reactive.
The most reactive p-block elements are the halogens - fluorine, chlorine, bromine, iodine, and astatine. They are highly reactive due to their strong tendency to gain an electron to achieve a stable electron configuration.
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)
Active elements that never exist alone in nature are known as reactive elements. These elements are highly reactive and readily form compounds with other elements to achieve a more stable state. Examples include sodium, potassium, and chlorine.
STABLE all the way!
The halogen group elements are reactive because they have seven valence electrons, making them one electron short of a full outer shell. They are highly reactive and tend to gain an electron through reactions with other elements to achieve a stable electron configuration.
Synthetic elements can be highly reactive due to their unstable nature and tendency to decay into more stable forms through radioactive decay or by forming compounds with other elements. Some synthetic elements have very short half-lives, making them extremely reactive in the short time they exist.
No, argon is not a highly reactive gas. It is stable.