The forces between atoms in a covalent bond are strong enough to hold the atoms together to form a molecule. Covalent bonds involve the sharing of electrons between atoms, creating a stable structure. This sharing results in a strong bond that requires energy to break.
A covalent bond is a strong chemical force that results from the sharing of electrons between atoms. It is a type of intramolecular force that holds atoms together within a molecule.
The bonds are called covalent molecular bonds.
Aluminium fluoride is a covalent compound due to the sharing of electrons between aluminium and fluorine atoms. It forms a network structure with strong covalent bonds within the aluminium and fluorine atoms, but weaker van der Waals forces between the molecules.
Strong attractions of electrostatic forces between shared electrons and the positively charged nucleusCovalent bond is formed by the mutual sharing of electrons and has covalent force of attraction between them
A covalent bond is generally considered a strong bond because it involves the sharing of electrons between atoms, creating a stable molecular structure. Covalent bonds are stronger than hydrogen bonds or van der Waals forces.
A covalent bond is a strong chemical force that results from the sharing of electrons between atoms. It is a type of intramolecular force that holds atoms together within a molecule.
The bonds are called covalent molecular bonds.
Aluminium fluoride is a covalent compound due to the sharing of electrons between aluminium and fluorine atoms. It forms a network structure with strong covalent bonds within the aluminium and fluorine atoms, but weaker van der Waals forces between the molecules.
Strong attractions of electrostatic forces between shared electrons and the positively charged nucleusCovalent bond is formed by the mutual sharing of electrons and has covalent force of attraction between them
A covalent bond forms between two atoms when they share electrons to achieve a stable electron configuration. This sharing of electrons creates a strong bond between the atoms.
A covalent bond is generally considered a strong bond because it involves the sharing of electrons between atoms, creating a stable molecular structure. Covalent bonds are stronger than hydrogen bonds or van der Waals forces.
- covalent bonds involve electrons sharing- covalent bond is not so strong as ionic bond
Atoms are not held togetherinternally by covalent attraction, but instead by the so-called "strong force" of quantum theory. However, two or more atoms can be held together in molecules by covalent attraction.
Covalent bonds are hard to break because they involve the sharing of electrons between atoms, creating a strong bond. The electrons are held tightly between the atoms, resulting in a stable molecular structure. Breaking a covalent bond requires significant energy input to overcome the forces holding the shared electrons in place.
Covalent hydrides have strong covalent bonds between the hydrogen atoms and other nonmetals, leading to high bond energies. This makes it difficult for the molecules to break apart and become volatile. Additionally, covalent hydrides are typically large molecules with strong intermolecular forces, which further contributes to their nonvolatility.
Intermolecular forces are weaker than covalent and ionic bonds. Covalent bonds involve the sharing of electron pairs between atoms, making them strong and stable. Ionic bonds involve the transfer of electrons from one atom to another, creating strong electrostatic attractions between oppositely charged ions.
In covalent bonds, atoms are held together by the sharing of electrons between them. This sharing of electrons creates a stable electron configuration in each atom, thus forming a strong bond between the atoms.