When two or more atoms combine they form a molecule, which is eclectically neutral and is held together by very strong covalent chemical bonds. An example of a molecule is H2O, which is two Hydrogen atoms and one oxygen atom.
When two or more atoms bond together, they form a molecule. Molecules can be composed of the same type of atoms (elemental molecules) or different types of atoms (compound molecules).
It depends on which atoms they are.
molecule
a molecule.
A molecule
A covalent bond holds hydrogen and oxygen atoms together in a water molecule. This bond is formed by the sharing of electrons between the atoms.
The force of attraction that holds atoms or ions together is called a chemical bond. This bond can be formed by the sharing of electrons (covalent bond) or the transfer of electrons (ionic bond) between atoms. These bonds are crucial for the formation of molecules and compounds.
The force that holds atoms together is called a chemical bond. This bond is formed when atoms share or exchange electrons to achieve a stable configuration, allowing them to be held together in a molecule or crystal structure.
covalent bond
When atoms combine, the force of attraction that holds them together is called a chemical bond. This bond forms when the atoms share, give, or take electrons to achieve a stable electronic configuration. The type of bond formed (ionic, covalent, or metallic) depends on the difference in electronegativity between the atoms involved.
A covalent bond holds hydrogen and oxygen atoms together in a water molecule. This bond is formed by the sharing of electrons between the atoms.
A covalent bond forms a molecule consisting of two or more atoms held together by shared pairs of electrons. This results in the formation of a neutral particle known as a molecule.
In a covalent bond, electrons are shared between atoms to form a molecule. No new particle is created; instead, the bonded atoms remain as individual particles within the molecule.
Nonpolar covalent bond.
Yes, that's how molecules are formed.
Metallic bond is formed by atoms in metals packing electrons close together. This bond involves the delocalization of electrons among a network of metal atoms, leading to properties such as electrical conductivity and malleability.
The force of attraction that holds atoms or ions together is called a chemical bond. This bond can be formed by the sharing of electrons (covalent bond) or the transfer of electrons (ionic bond) between atoms. These bonds are crucial for the formation of molecules and compounds.
When two atoms of bromine bond together, they form a diatomic molecule called dibromine (Br2). Each bromine atom shares one electron with the other to form a single covalent bond between them.
A chemical bond is a force that holds atoms together in a molecule. It is formed by the sharing or transfer of electrons between atoms, resulting in the atoms being more stable when bonded together than when they are separate.
covalent bond
When atoms chemically bond together, they form molecules. This occurs when atoms share or transfer electrons to achieve a more stable configuration. The type of bond formed (ionic, covalent, or metallic) depends on the electronegativity and properties of the atoms involved.
Fluorine atoms are held together in a fluorine molecule by a covalent bond. This bond is formed when the two atoms share a pair of electrons, resulting in a stable arrangement and the formation of a molecule.