No, they do not hold two compounds together. The forces that hold compounds together are intermolecular forces. Ionic and covalent bonds are intramolecular forces, and they hold the atoms of the molecule or formula unit together.
It depends on the nature of the molecule. In the case of ionic compounds, ionic bond between the ions will hold the crystal together. In the case of covalent compounds, covalent bond will hold the molecules in the crystal together.
ionic or covalent. Ionic bonds involve the transfer of electrons between atoms, resulting in the attraction between positively and negatively charged ions. Covalent bonds involve the sharing of electrons between atoms to achieve stability.
Both covalent and ionic bonds involve the sharing or transferring of electrons between atoms to achieve a stable electron configuration. They are both types of chemical bonds that hold atoms together to form molecules or compounds.
Molecular covalent compounds (where there are discrete molecules) have van der waals forces holding the molecules together in the solid and liquid phases. These forces are weak due to the small electrostatic charges involved as these originate in permanent or instantaneous dipoles. Ionic compounds are giant lattices where the ions are held together by electrostatic forces deriving fromthe relatively large charges on ions. It therefore takes more energy to break ionic lattices. NOTE that giant covalent molecules like diamond, silicon carbide also have high melting points. In these much energy is required to break the covalent bonds that hold the giant molecule together.
Both ionic and covalent bonds involve the sharing or transfer of electrons between atoms to achieve stability. They are both types of chemical bonds that hold atoms together to form molecules or compounds.
Covalent bonds hold atoms together. Ionic bonds hold ions together
The bonds are ionic or covalent.
It depends on the nature of the molecule. In the case of ionic compounds, ionic bond between the ions will hold the crystal together. In the case of covalent compounds, covalent bond will hold the molecules in the crystal together.
ionic or covalent. Ionic bonds involve the transfer of electrons between atoms, resulting in the attraction between positively and negatively charged ions. Covalent bonds involve the sharing of electrons between atoms to achieve stability.
These bonds are ionic or covalent.
Both covalent and ionic bonds involve the sharing or transferring of electrons between atoms to achieve a stable electron configuration. They are both types of chemical bonds that hold atoms together to form molecules or compounds.
Organic compounds have covalent bonds.
bonds hold compounds together. Depending on the type of compound, different bonds are used. For example NaCl (sodium chloride) which is commonly referred to as table salt is held together by an ionic bond.
Molecular covalent compounds (where there are discrete molecules) have van der waals forces holding the molecules together in the solid and liquid phases. These forces are weak due to the small electrostatic charges involved as these originate in permanent or instantaneous dipoles. Ionic compounds are giant lattices where the ions are held together by electrostatic forces deriving fromthe relatively large charges on ions. It therefore takes more energy to break ionic lattices. NOTE that giant covalent molecules like diamond, silicon carbide also have high melting points. In these much energy is required to break the covalent bonds that hold the giant molecule together.
Both ionic and covalent bonds involve the sharing or transfer of electrons between atoms to achieve stability. They are both types of chemical bonds that hold atoms together to form molecules or compounds.
Compared to ionic compounds, covalent compounds have relatively low melting and boiling points because covalent bonds are not as strong as ionic bonds, and it is the bonds which hold materials together in the solid, or more solid phases.
In an ionic compound, the strong electrostatic attractions between positively charged cations and negatively charged anions hold the compound together in a crystal lattice structure. This electrostatic attraction is what gives ionic compounds their high melting and boiling points.