When electrons are shared between atoms, the nuclei of both atoms experience attraction towards the electrons and vice versa. At a certain distance, the attraction is maximal because the repulsion between the nuclei is small while the attraction of each nuclei to the electrons is strong. Thus, the atoms are held together by their attraction to the shared electrons.
Bonds between atoms stay together due to the attraction created by sharing or transferring of electrons. This attraction is due to electrostatic forces, where opposite charges (positive nuclei and negative electrons) attract each other. The stronger the bond, the closer the atoms are bound together.
Chemical bonds that hold atoms together do so through the sharing or transfer of electrons. Covalent bonds involve the sharing of electrons between atoms, while ionic bonds involve the transfer of electrons from one atom to another.
compound
In a covalent bond, atoms are held together by the sharing of electron pairs between them. The shared electrons creates a stable arrangement that satisfies the octet rule for both atoms, resulting in a strong bond that holds the atoms together.
The attraction that holds two covalently bonded atoms together is due to the sharing of electrons between the atoms. This sharing creates a more stable configuration for both atoms by allowing them to achieve a full outer electron shell.
Atoms in a covalent bond are held together by the sharing of electrons between the atoms. This sharing of electrons creates a stable electron configuration for both atoms involved, allowing them to be held together in a mutually beneficial way.
Covalent bonds are created when atoms share electrons.
By sharing electrons.
transferring or sharing electrons
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.
By sharing electrons of two atoms to achieve pairs of bonding el's that are holding them together
In a covalent bond, atoms are held together by the sharing of electron pairs between them. This sharing of electrons creates a stable configuration for both atoms, allowing them to achieve a more favorable energy state.
Bonds between atoms stay together due to the attraction created by sharing or transferring of electrons. This attraction is due to electrostatic forces, where opposite charges (positive nuclei and negative electrons) attract each other. The stronger the bond, the closer the atoms are bound together.
Chemical bonds that hold atoms together do so through the sharing or transfer of electrons. Covalent bonds involve the sharing of electrons between atoms, while ionic bonds involve the transfer of electrons from one atom to another.
Sharing of electrons between two atoms is called covalent bonding.
compound
In a covalent bond, atoms are held together by the sharing of electron pairs between them. The shared electrons creates a stable arrangement that satisfies the octet rule for both atoms, resulting in a strong bond that holds the atoms together.