Compounds that contain a metallic element(cation) bonded to a nonmetallic element(anion), or any compounds containing polyatomic ions would be held together by an electrostatic attraction called an ionic bond. These are formed when the metallic element donates one or more electrons to a nonmetallic element creating an uneven distribution of electrons and protons within the elements called ions. Atoms are even distributions of electrons and protons within elements. Ions are then created to achieve a level of stability within each element's nobel gas electron configuration.
CH4 (methane) is not likely to have ionic bonds. This compound is composed of covalent bonds between carbon and hydrogen atoms. The other compounds listed contain ions and are more likely to have ionic bonds.
NH2CO3 is not an ionic compound, it is a molecular compound. It does not contain ions; instead, it consists of covalent bonds between the atoms.
No, SOCl2 does not contain ionic bonds. It is a covalent compound, meaning the bonding involves the sharing of electrons between the sulfur, oxygen, and chlorine atoms.
No, OCl2 does not contain ionic bonding. It is a covalent compound where oxygen and chlorine share electrons to form molecular bonds.
CO is unlikely to contain ionic bonds because it is a covalent compound with a sharing of electrons between the carbon and oxygen atoms.
CH4 (methane) is not likely to have ionic bonds. This compound is composed of covalent bonds between carbon and hydrogen atoms. The other compounds listed contain ions and are more likely to have ionic bonds.
NH2CO3 is not an ionic compound, it is a molecular compound. It does not contain ions; instead, it consists of covalent bonds between the atoms.
No, SOCl2 does not contain ionic bonds. It is a covalent compound, meaning the bonding involves the sharing of electrons between the sulfur, oxygen, and chlorine atoms.
No, OCl2 does not contain ionic bonding. It is a covalent compound where oxygen and chlorine share electrons to form molecular bonds.
CO is unlikely to contain ionic bonds because it is a covalent compound with a sharing of electrons between the carbon and oxygen atoms.
Ionic bonds generally form between metals and non-metals. So, ionic compounds feature ionic bonds. The greater the electronegativity difference (usually the farther apart they are on the periodic table), the more ionic the bond is. The most ionic compound possible is cesium fluoride (CsF) because those two elements have the greatest possible electronegativity difference.
NBr3 does not contain an ionic bond. It is a covalent compound since nitrogen and bromine share electrons to form bonds.
No, Mg3N2 does not contain nonpolar bonds. The bond between magnesium and nitrogen in Mg3N2 is ionic, not covalent, resulting in polar bonds due to the electronegativity difference between the two elements.
BaBr2 does not contain any covalent bonds. It is an ionic compound composed of barium cations (Ba2+) and bromide anions (Br-), which are held together by ionic bonds formed through the transfer of electrons.
A crystal being hit by a hammer is more likely to contain ionic bonds, as these bonds are formed between ions of opposite charges. Metallic bonds are found in metals, where electrons are shared and contribute to the overall structure and properties of the material.
CCL4, carbon tetrachloride, contains covalent bonds between the carbon and chlorine atoms. It is a molecular compound with no ions, so it does not contain ionic compounds.
Se4S4 is not a common ionic compound. It is more likely a molecular compound since it is composed of nonmetals selenium and sulfur, which typically form covalent bonds.