polar covalent
Covalent bond exists between a carbon atom and a chlorine 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.
A carbon tetrafluoride molecule has one carbon atom and four fluorine atoms.
Each fluorine atom has 7 electrons in its outer shell, but a setup of 8 outer shell electrons (called an octet) is stable. To get this octet a fluorine atom will form a single covalent bond with another fluorine atom. Each atom give one electron to be shared between the two.
Covalent bond exists between a carbon atom and a chlorine atom.
There will be 9 protons in a fluorine atom, but actually, there exists only fluorine-19.
is the smallest indivisible particle which can exists on its own eg. an atom of fluorine.
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.
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.
Quinolones with a fluorine atom are called fluoroquinolones. while Quinolones haven't a fluorine atom.
Any reaction occur between neon and fluorine.
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.
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.