No. The noble gasses will not form bonds with most elements and never bond with metals. Metals form metallic bonds with one another, but this is considered a mixture rather than a new chemical compound.
How do elements bond together to form compounds?Elements join together by gaining, sharing, or losing electrons.
Hydrogen bonds
Hydrogen Bonds
Because it forms stable chemical bonds with many other elements - including itself - by either gaining or losing valence electrons. Carbon, hydrogen, oxygen and nitrogen combine with each other in so many ways that they have become the basis of life on earth.
These are hydrogen bonds.
They can react with each other
Elements attach to each other through BONDS, which can be either: IONIC, where one or more electrons are transferred from one neutral atom to another. COVALENT, where an electron is shared between two atoms.
Each atom is an element according to its atomic number. Meaning the isotope and number of protons in an atom. A chemical bond is an attraction of atoms to each other, so basically it is attracting different elements.
It depends on the bonding. Are the elements bonded to each other? or is the question simply as the maximum number of bonds for each element separately? Carbon has 4 bonds, hydrogen has 1 bond, oxygen has 2 bonds.
Water has covalent bonds.
Most elements can only form chemical bonds with other elements in a specific way. Carbon can bond with itself with up to 3 chemical bonds and readily bonds with up to 4 other elements at a time. So carbon can form really long chains (like DNA) with single bonds between each carbon - holding the chain together like a necklace - but each carbon in the chain can have something interesting hanging off it that changes it's behaviour. It's so brilliant it has a whole sub section of chemistry devoted to it - called organic chemistry.
In glucose each carbon has 4 bonds, each hydrogen has one, and each oxygen has 2 bonds.
The bonds are hydrogen bonds.
How do elements bond together to form compounds?Elements join together by gaining, sharing, or losing electrons.
Hydrogen bonds
The ability of each carbon atom to form covalent bonds, including bonds to other carbon atoms. This makes possible chain hydrocarbons of any length.
The strength of each of the chlorine-carbon bonds is equal, and their bond angles in relation to each other are equal, so in effect each of these polar bonds act against each other and cancel each other out.