Covalent

Nitrogen gas is a covalent molecule made up of two nitrogen atoms bonded together.

Water molecules are held together by covalent bonds between oxygen and hydrogen atoms.

DNA is composed of two strands of nucleotides linked together by covalent bonds.

Methane gas is formed by covalent bonds between carbon and hydrogen atoms.

Diamonds have a very strong covalent bond between their carbon atoms.

The properties of a molecule depend on the nature of the covalent bonds that hold its atoms together.

The covalent bond in hydrogen fluoride is highly polar, making it a strong acid.

The stability of the covalent bond in DNA is essential for its function in transmitting genetic information.

The shape of a molecule is determined by the arrangement of its covalent bonds.

The strength of a covalent bond depends on the number of shared electrons between atoms.

The high melting and boiling points of covalent solids are due to the strong covalent bonds between their atoms.

The structure of proteins is determined by the covalent bonding of amino acids.

The double bond between the carbon atoms in ethene is an example of a covalent bond.

The covalent nature of the bond in diamond makes it the hardest naturally occurring substance.

The covalent bonding in DNA holds the nitrogenous bases together.

The oxygen molecule contains a double covalent bond between the two oxygen atoms.

The chemical reaction involved in burning methane breaks the covalent bonds between the atoms.

Carbon dioxide has a covalent bond between the carbon atom and each oxygen atom.

In a methane molecule, each hydrogen atom forms a covalent bond with the central carbon atom.

The covalent bonds in polyethylene give it its unique properties as a plastic.

The covalent bond between the oxygen and hydrogen atoms in water molecules gives rise to its unique properties.

The bond between two hydrogen atoms in a hydrogen molecule is covalent.

The covalent bonding in silicones gives them a high resistance to heat and chemicals.

The diamond is a covalent crystal in which carbon atoms are tightly bonded together.

The strong covalent bonds in a quartz crystal make it an extremely hard and durable material.

The structure of DNA is held together by covalent bonds.

The covalent bond between the nitrogen atoms in a nitrogen molecule is very strong.

Chlorine gas is made up of molecules that are held together by covalent bonds.

The double covalent bond between the two oxygen atoms in an oxygen molecule is very stable.

The formation of a covalent bond releases energy and creates a stable molecule.

The rubber in the eraser is made up of covalent bonds.

The synthetic fiber nylon is made of covalent bonds between molecules.

The covalent bonding of atoms in a crystal lattice gives it its unique physical properties.

Silicon dioxide is a covalent compound that is used in the manufacturing of computer chips.

The polymer is held together by strong covalent bonds between its repeating units.

Covalent modifications to DNA can affect gene expression and cellular function.

The strength of Kevlar comes from the covalent bonds between its molecules.

The structure of diamond is due to its covalent bonding.

The covalent bond between a carbon atom and a nitrogen atom is what makes amino acids so important in biochemistry.

The polymerization of ethylene involves the formation of covalent bonds.

Silicon is used in semiconductors due to its covalent bonding.

The covalent nature of carbon-carbon bonds is what gives organic compounds their unique properties.

The covalent bond between two atoms is formed when they share electrons.

Ethanol is a covalent molecule composed of carbon, hydrogen, and oxygen.

Oxygen and nitrogen atoms have covalent bonds in air.

The covalent bond between carbon and oxygen in carbon dioxide is a double bond.

Covalent network solids, such as quartz, have a three-dimensional structure held together by covalent bonds.

The covalent bond in water holds the hydrogen and oxygen atoms together.

The DNA molecule consists of covalent bonds between nucleotides.

The structure of proteins is held together by covalent bonds between amino acids.