An ionic compound contains at least one positive ion and at least one negative ion, bonded together by this 'magnetic' attraction.
A molecule is not necessarily bonded this way, for example water (H20) contains hydrogen bonds which hold it together, which are not ionic.
No, chloroform (CHCl3) is not an ionic compound. It is a covalent compound formed by sharing electrons between the atoms in the molecule.
No, HF is not considered a covalent molecule. It is an ionic compound because there is a significant difference in electronegativity between the hydrogen and fluorine atoms, resulting in the formation of an ionic bond.
No. CH4O is molecular. Specifically it is an alcohol.
The combination of a metal with a nonmetal yields an ionic compound, and if only metals are involved you get a metallic bond, and if only nonmetals are involved you get covalent bonds. The other technique is to look up the actual electronegativity of the elements involved in the reaction, and determine how great a difference in electronegativity there is. A large difference produces an ionic compound, a small difference produces a covalent compound.
CaO is an ionic compound because it is composed of a metal (Ca) and a nonmetal (O). Ionic compounds typically form between a metal and a nonmetal by transferring electrons to achieve a stable electron configuration.
No, chloroform (CHCl3) is not an ionic compound. It is a covalent compound formed by sharing electrons between the atoms in the molecule.
No, HF is not considered a covalent molecule. It is an ionic compound because there is a significant difference in electronegativity between the hydrogen and fluorine atoms, resulting in the formation of an ionic bond.
No Its an ionic compound
No. CH4O is molecular. Specifically it is an alcohol.
The combination of a metal with a nonmetal yields an ionic compound, and if only metals are involved you get a metallic bond, and if only nonmetals are involved you get covalent bonds. The other technique is to look up the actual electronegativity of the elements involved in the reaction, and determine how great a difference in electronegativity there is. A large difference produces an ionic compound, a small difference produces a covalent compound.
CaO is an ionic compound because it is composed of a metal (Ca) and a nonmetal (O). Ionic compounds typically form between a metal and a nonmetal by transferring electrons to achieve a stable electron configuration.
No. Iron III oxide is an ionic compound. This is due to the large difference in electronegativity between oxygen and iron. If the electronegativity difference is greater than 2.0 a compound is generally ionic. The difference between iron and oxygen is 2.61.
It is ionic compound as the difference in the electronegativity between chromium and oxygen is more than 1.7
No. Iron III oxide is an ionic compound. This is due to the large difference in electronegativity between oxygen and iron. If the electronegativity difference is greater than 2.0 a compound is generally ionic. The difference between iron and oxygen is 2.61.
The large difference in electronegativity between the elements in the compound is the best indicator that a compound may be ionic. Ionic compounds typically form between elements with a large electronegativity difference, resulting in the transfer of electrons from one element to another.
The electronegativity difference between the elements in the compound is commonly used to determine if a compound is ionic or covalent. If the electronegativity difference is large (typically greater than 1.7), the compound is likely ionic; if the difference is small (around 0.5 or less), the compound is likely covalent.
No, SiF4 is not ionic. It is a covalent compound because it is formed by sharing electrons between silicon and fluorine atoms.