An IONIC Molecule.
No, ionic bonds do not form molecules. Ionic bonds result from the transfer of electrons between atoms to form ions, leading to the formation of an ionic compound rather than a molecule. This results in a lattice structure rather than discrete molecules.
Actually silver is its own "metallic bond" and is solid at room temp and conducts electricity because on most metals the have a coating of electrons that allow them to carry a charge or current
Hydrogen is an element, not a bond. It can form bonds, which are usually covalent, but an ionic bond with hydrogen is possible, for example, lithium hydride is an ionic compound. While this, like every compound, does have its own distinctive features, I would not call it a special form of ionic bond.
Ionic bonds occur between atoms of different electronegativities, typically between a metal and a nonmetal. In an ionic bond, one atom transfers electrons to another atom, resulting in the formation of ions with opposite charges that are attracted to each other.
Based off my chemistry class, for bonds to be ionic it must be a bonding of a metal and a non-metal. Since chlorine and carbon are both non metals they can't be ionic, we would call it covalent bond but molecular compound works as well.
No, ionic bonds do not form molecules. Ionic bonds result from the transfer of electrons between atoms to form ions, leading to the formation of an ionic compound rather than a molecule. This results in a lattice structure rather than discrete molecules.
Actually silver is its own "metallic bond" and is solid at room temp and conducts electricity because on most metals the have a coating of electrons that allow them to carry a charge or current
Hydrogen is an element, not a bond. It can form bonds, which are usually covalent, but an ionic bond with hydrogen is possible, for example, lithium hydride is an ionic compound. While this, like every compound, does have its own distinctive features, I would not call it a special form of ionic bond.
Ionic bonds occur between atoms of different electronegativities, typically between a metal and a nonmetal. In an ionic bond, one atom transfers electrons to another atom, resulting in the formation of ions with opposite charges that are attracted to each other.
When two different molecules are attached to each other, they are called a molecular complex or a compound. This interaction can be through various chemical bonds such as covalent bonds, ionic bonds, or hydrogen bonds, depending on the nature of the molecules involved.
Just like all bonds between metals and nonmetals, the bond present in Copper II Chloride is ionic.==================Oh, really? All bonds between metals and nonmetals are ionic? Oversimplifications like this make it difficult for students to learn what is actually going on. No, not all metal/nonmetal bonds are ionic. In fact, very few bonds are ionic enough to call them that. There are a few 100% covalent bonds, as between the atoms in a molecule of a diatomic element, and no 100% ionic bonds, although bonds between the most electronegative nonmetals (i.e. F) and the metals of groups IA and IIA are pretty close.In reality, the vast majority of bonds lie along a continuum between these two extremes -- ionic and covalent. Therefore, it make more sense to talk about the percent ionic character of a bond. Those bonds with high electronegativity differences behave more like they would if they were actually ionic. Bonds with low electronegativity difference are more covalent-like.The bonds in copper chloride have an electronegativity difference of 1.26 giving the bonds a percent ionic character of about 33%. Clearly, the Cu-Cl bond is more covalent than it is ionic. Then what is it that gives CuCl2 its relatively high melting and boiling points?As it turns out, the high melting points and boiling points of substances are due to their network structure, not to their internal bonding. The fact that CuCl2 exists as a network solid is what accounts for the melting and boiling points. Many compounds bonds with even higher covalent character which exist as networks have very high melting and boiling points. Diamond, with 100% covalent bonds, and a network structure, has the highest boiling point of any substance.
Based off my chemistry class, for bonds to be ionic it must be a bonding of a metal and a non-metal. Since chlorine and carbon are both non metals they can't be ionic, we would call it covalent bond but molecular compound works as well.
most ionic compounds are salt
Ionic compounds.
tricalcium phosphate is an ionic compound do to the fact that it is the bonding of a metal and a nonmetal. it is usually only a molecular compound if it is a bond between two nonmetals such as oxygen and hydrogen.
what do you call the smallest partical that makes up all things
The smallest part of a compound is the atom.