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A bond between elements with a large difference in electronegativity will have the greatest ionic character. For example, the bond between a metal and a nonmetal (e.g. NaCl) will have a high ionic character compared to a bond between two nonmetals (e.g. H2O).
The bond with the most ionic character among those options is NaI (sodium iodide). Ionic character increases with the difference in electronegativity between the bonded atoms. In this case, the large difference in electronegativity between sodium (a metal) and iodine (a non-metal) leads to a highly ionic bond.
H2O does not have any ionic bonds. The bond between the oxygen and hydrogen atoms in water is a polar covalent bond, where electrons are shared unequally leading to a slight negative charge on the oxygen and a slight positive charge on the hydrogens.
H2O (water) has a covalent bond between the hydrogen and oxygen atoms. In a covalent bond, the atoms share electrons to form a stable molecule.
No, hydrogen and oxygen do not form an ionic bond. They typically form a covalent bond when they combine to make water (H2O). In this bond, they share electrons instead of transferring them.
A bond between elements with a large difference in electronegativity will have the greatest ionic character. For example, the bond between a metal and a nonmetal (e.g. NaCl) will have a high ionic character compared to a bond between two nonmetals (e.g. H2O).
The bond with the most ionic character among those options is NaI (sodium iodide). Ionic character increases with the difference in electronegativity between the bonded atoms. In this case, the large difference in electronegativity between sodium (a metal) and iodine (a non-metal) leads to a highly ionic bond.
H2O has a stronger bond then CaO because H2O is a covalent compound (made up of two nonmetals), whereas CaO is an ionic compound (made up of both a metal and nonmetal), and covalent bonds are stronger then ionic bonds.
H2O does not have any ionic bonds. The bond between the oxygen and hydrogen atoms in water is a polar covalent bond, where electrons are shared unequally leading to a slight negative charge on the oxygen and a slight positive charge on the hydrogens.
H2O (water) has a covalent bond between the hydrogen and oxygen atoms. In a covalent bond, the atoms share electrons to form a stable molecule.
No, hydrogen and oxygen do not form an ionic bond. They typically form a covalent bond when they combine to make water (H2O). In this bond, they share electrons instead of transferring them.
KCl does not contain a coordinate covalent bond as it is an ionic compound. HF, H2O, and F2 contain coordinate covalent bonds, where a shared pair of electrons comes from one atom (donor) to form the bond.
H2o is having hydrogen bond but h+ and oh- also we are indicating why we can't say are ionic bond?
CaO contains an ionic bond. Calcium (Ca) is a metal that donates electrons to oxygen (O), a nonmetal, forming an ionic bond between them. The other molecules listed contain covalent bonds, where atoms share electrons rather than transferring them.
Water's chemical formula is given in the question.
No, water (H2O) is not an example of an ionic bond. Water molecules are held together by polar covalent bonds formed between the hydrogen and oxygen atoms. Ionic bonds form between atoms with opposite charges, where one atom gives up electrons to another.
Hydrogen and oxygen form a covalent bond when they combine to form water (H2O). In a covalent bond, atoms share electrons to achieve a stable configuration. An ionic bond involves the transfer of electrons from one atom to another, which does not occur in the case of hydrogen and oxygen in water.