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What holds the ions in an ionic compound together?
The ions in an ionic compound are held together by electrostatic forces of attraction between positively and negatively charged ions. These forces are strong and result from the transfer of electrons from one atom to another, leading to the formation of a stable ionic lattice structure.
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.
What type of bond is the electrostatic force that holds ions together?
Ionic bonds
The force that holds atoms in compounds together is called what?
The force responsible for combine atoms together in a compound is chemical bonding.
What force holds a molecule of NaCl together in an ionic bond?
The force that holds a molecule of NaCl together in an ionic bond is electrostatic attraction between the positively charged sodium ion (Na+) and the negatively charged chloride ion (Cl-). This attraction is due to the transfer of electrons from sodium to chlorine, resulting in the formation of a stable ionic compound.
What holds the ions in an ionic compound together?
The ions in an ionic compound are held together by electrostatic forces of attraction between positively and negatively charged ions. These forces are strong and result from the transfer of electrons from one atom to another, leading to the formation of a stable ionic lattice structure.
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.
What is the force that hold two atoms together in an ionic bond?
an ionic compound
What type of bond is the electrostatic force that holds ions together?
Ionic bonds
The force that holds atoms in compounds together is called what?
The force responsible for combine atoms together in a compound is chemical bonding.
What force holds a molecule of NaCl together in an ionic bond?
The force that holds a molecule of NaCl together in an ionic bond is electrostatic attraction between the positively charged sodium ion (Na+) and the negatively charged chloride ion (Cl-). This attraction is due to the transfer of electrons from sodium to chlorine, resulting in the formation of a stable ionic compound.
What is the force that holds cations and anions together?
Ionic bonds are the forces of attraction that hold cations (positively charged ions) and anions (negatively charged ions) together in an ionic compound. These bonds are formed through the electrostatic attraction between the opposite charges of the ions.
A force that holds atoms together to form a compound?
The force that holds atoms together to form a compound is called a chemical bond. This bond can be ionic, covalent, or metallic, depending on the type of atoms involved and how they share or transfer electrons. Chemical bonds are necessary for creating stable compounds with distinct properties.
What compounds is held together by electrostatic force between two ions?
A ionic compound
What is the total charge in an ionic compound?
The total charge in an ionic compound is always neutral, which means the positive charge of the cations equals the negative charge of the anions. This balance of charges is what holds the compound together through ionic bonding.
What type of attractive force or bond holds the sodium ions and chloride ions together in a crystal of sodium chloride?
They are held together by an electrostatic force causing an ionic bond.
Name of the force that holds the ions together in aluminium oxide?
The force that holds the ions together in aluminum oxide (Al₂O₃) is primarily ionic bonding. This occurs due to the electrostatic attraction between the positively charged aluminum ions (Al³⁺) and the negatively charged oxide ions (O²⁻). These strong ionic interactions contribute to the compound's high melting point and hardness.
