Fluorine would be more reactive. Fluorine is the most reactive element.
Lithium has the lowest electronegativity, then carbon, bromine and fluorine has the highest electronegativity of any atom.
No, fluorine gas (F2) is highly reactive and dangerous. Fluorine as an atom is worse, as it is the most electronegative atom in the entire periodic table of elements and thus has a very large tendency to gain one electron to attain stability.
It is. It consists of a long carbon backbone with two fluorine atoms bonded to each carbon atom.
fluorine is the most electronegative atom . therefore atoms closer to fluorine will be more electronegative.
Carbon and oxygen : CO. Carbon monoxide is made of one carbon atom and one oxygen atom. Highly reactive within the human bloodstream.
Fluoride is an ion; it is basically fluorine that has already reacted. As such it is fairly stable. Elemental fluorine is much more reactive that carbon.
polar covalent
Lithium has the lowest electronegativity, then carbon, bromine and fluorine has the highest electronegativity of any atom.
In non-isotop state, Fluorine will have a larger atom then Carbon.
The compound you describe is fluro methane. It has a single carbon atom at the centre (the "C") which is attached to 3 hydrogen atoms (the "H") and one fluorine atom (the "F"). It is a molecule with a tetrahedral shape. The compound is known as a fluoro carbon.
No, fluorine gas (F2) is highly reactive and dangerous. Fluorine as an atom is worse, as it is the most electronegative atom in the entire periodic table of elements and thus has a very large tendency to gain one electron to attain stability.
A carbon tetrafluoride molecule has one carbon atom and four fluorine atoms.
It is. It consists of a long carbon backbone with two fluorine atoms bonded to each carbon atom.
fluorine is the most electronegative atom . therefore atoms closer to fluorine will be more electronegative.
Carbon and oxygen : CO. Carbon monoxide is made of one carbon atom and one oxygen atom. Highly reactive within the human bloodstream.
An atom of fluorine has the greatest attraction among all atoms for electrons; therefore, no other atom can extract an electron from a fluorine atom, as would be required for the fluorine to have a positive oxidation state.
Any reaction occur between neon and fluorine.