Generally, what determines whether atoms will form bonds is the atoms' relative propensity to donate and accept electrons and the activation energy of bond formation relative to the free energy available in the system. This applies to all potential reactants, and for any types of bonds.
The number of valence electrons it has. For example, hydrogen has only 1 electron, so it forms bonds really easily. In contrast however, neon is a noble gas, and all noble gases have 8 electrons, making their outer shells full, meaning they can no longer form bonds with other elements under normal conditions.
Is an atom isn't stable and needs more electrons, a different atom will the give that atom the e- it needs, forming a bond
If the outer valence is not full of electrons
Heat can sometimes break the chemical bonds of atoms.
The amount of chemical energy a substance has is determined by the types and arrangement of atoms and molecules in that substance. The energy is stored within the chemical bonds between these atoms and molecules. The strength of these bonds and the potential energy stored in them determine the amount of chemical energy.
Chemical reactions always involve changes in the chemical bonds that join atoms in compounds. At least one chemical bond is broken or formed during a chemical reaction.
Chemical bonds are formed by the sharing or donating of electrons. The electrons that atoms use to make chemical bonds are the outermost electrons, also known as valence electrons.
chemical bonds form between their atoms.
valance
In the chemical bonds of its monomers.
the presence or absence of double bonds between the carbon atom and other atoms
the chemical stability of minerals is depedent on the strength of the chemical bonds between atoms in the mineral.
Yes. Chemical bonds include covalent bonds and ionic bonds.
Heat can sometimes break the chemical bonds of atoms.
The amount of chemical energy a substance has is determined by the types and arrangement of atoms and molecules in that substance. The energy is stored within the chemical bonds between these atoms and molecules. The strength of these bonds and the potential energy stored in them determine the amount of chemical energy.
The atoms of a molecule stay together with chemical bonds.
Bonds in the reactants are broken, and bonds in the product are formed.
Two oxygen atoms combine to form a molecule by sharing electrons
Atoms spontaneously from chemical bonds in order to be stabilize as a molecule/lattice and reduce its energy.
A chemical reaction can break the chemical bonds that hold atoms together. A change in temperature can also do it, as can an electric current.