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Two oxygen atoms, you sneaky person, you.
Are you asking what atoms can combine with nitrogen and form bonds? Lots: nitrogen can form bonds with other nitrogen atoms, forming N2 (which makes up 80% of the composition of the atmosphere). Nitrogen also commonly forms bonds with hydrogen (NH4 is ammonia), oxygen, carbon (CN- is cyanide). These are probably the most common ones, but Nitrogen can form bonds with many, many other atoms.
Bond forming releases energy. Atoms will begin with a high potential energy, and will bond with other atoms to form compounds which have a lower potential energy, and are therefore more stable. Bond breaking takes in energy i.e. energy is required to break bonds.
Yes. Chemical bonds include covalent bonds and ionic bonds.
Carbon atoms are fixed into organic compounds in The Calvin Cycle.
Two oxygen atoms, you sneaky person, you.
Atoms 'join' together by forming chemical bonds in order to obtain better stability than the existence of individual atoms.
Bonds in the reactants are broken, and bonds in the product are formed.
Electrons determine the ways in which atoms join together chemically, by forming bonds with other atoms. They also are carriers of electrical energy (current).
Electrons determine the ways in which atoms join together chemically, by forming bonds with other atoms. They also are carriers of electrical energy (current).
Are you asking what atoms can combine with nitrogen and form bonds? Lots: nitrogen can form bonds with other nitrogen atoms, forming N2 (which makes up 80% of the composition of the atmosphere). Nitrogen also commonly forms bonds with hydrogen (NH4 is ammonia), oxygen, carbon (CN- is cyanide). These are probably the most common ones, but Nitrogen can form bonds with many, many other atoms.
Electrons determine the ways in which atoms join together chemically, by forming bonds with other atoms. They also are carriers of electrical energy (current).
Bond forming releases energy. Atoms will begin with a high potential energy, and will bond with other atoms to form compounds which have a lower potential energy, and are therefore more stable. Bond breaking takes in energy i.e. energy is required to break bonds.
It doesn't necessarily "bonds to four other atoms."
Yes. Chemical bonds include covalent bonds and ionic bonds.
An electron, it plays a part in forming/breaking all proper chemical bonds (there are other types of bonds but they don't really cause chemical reactions and as such are rather boring)
Since the valence electrons are the outermost electrons of atoms, they have the highest opportunity to overlap with other orbitals in the valence shells of other atoms. Therefore, they influence the most in forming bonds.