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What holds covalently bound atoms together?
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.
How are molecular compounds held together?
Molecular compounds are held together by covalent bonds, which are formed when atoms share electrons to achieve a stable electron configuration. These bonds involve the sharing of electron pairs between atoms, creating a strong bond that holds the atoms together in a molecule.
What bond holds hydrogen atoms and oxygen atoms together?
The polar covalent bond between the hydrogen and oxygen atoms holds it together.
What is the force of attraction that holds atoms?
the force of attraction that holds atoms together is a chemical bond
What is the strongest bond between 2 atoms?
The strongest bond between two atoms is the covalent bond, where atoms share electrons to achieve a stable electron configuration. This sharing results in a strong bond that holds the atoms together.
The force that holds atoms in compounds together is called what?
The force responsible for combine atoms together in a compound is chemical bonding.
Which statement is the best description of a chemical bond?
A chemical bond is the force that holds atoms together in a molecule, resulting from the attraction between the positively charged nucleus of one atom and the negatively charged electron cloud of another atom.
What holds covalently bound atoms together?
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.
What type of bond holds the atoms of chlorine molecule?
A covalent bond holds the atoms of a chlorine molecule together. In this bond, the atoms share electrons to achieve a stable electron configuration.
How are molecular compounds held together?
Molecular compounds are held together by covalent bonds, which are formed when atoms share electrons to achieve a stable electron configuration. These bonds involve the sharing of electron pairs between atoms, creating a strong bond that holds the atoms together in a molecule.
What type of bond holds fluorine and hydrogen together?
A covalent bond holds fluorine and hydrogen atoms together in a molecule of hydrogen fluoride (HF). This bond involves the sharing of electron pairs between the atoms.
What type of bond holds sodium atoms together?
Ionic bonds hold sodium atoms together. Sodium atoms lose an electron to achieve a stable electron configuration, forming positively charged sodium ions. These ions are then attracted to negatively charged ions from other elements to form a bond.
A is a force that holds together atoms in a substance?
chemical bond holds together the atoms in a substance
What holds the atoms together in covalent bonds?
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.
What type of bond holds two hydrogen atoms together in hydrogen gas?
The bond holding the diatomic molecule of hydrogen (which exists in hydrogen gas) is a single covalent bond. This is the sharing of one electron in their 1s orbital, forming an stable electron that of helium: 1s2
What is a force that holds atoms together in a molecule?
Electrostatic attraction for electron pairs hold atoms together. When atoms bond into a molecule, they share electrons, each contributing one electron to a pair. Since the nuclei of the atoms are positive and the electrons are negative, both nuclei are attracted to the shared pair, and stay near each other.
What is an attractive force that holds atoms together to form a compound?
The attractive force that holds atoms together to form a compound is called a chemical bond. This bond is a result of the sharing or transfer of electrons between atoms, allowing them to achieve a more stable electron configuration.
