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it's all about the structure of the particles and the bonds if the chemical bond are mostly ionic they will dissolve to form freely moving ions and some structures of atoms are much stronger like metallic bonds. covalent bonds do not dissolve easily but some covalent bonds break and dissolve in water. It's all about the bond and structures of different elements.
Most of them are, though there are a few that are ionic such as sodium acetate and other organic acid salts. These include ionic bonds, but also contain covalent bonds within a polyatomic ion.
By sharing electrons in covalent bonds or by transferring electrons in ionic bonds
Atoms are held up together by sharing electrons (covalent bonding) or by transfer of electrons (ionic bond).
By ionic bond, covalent bond, coordinate bond and hydrogen bond
The water molecule has a covalent bond. Since there is no other kind of water, "covalent water" is redundant. That's what water is. There is no ionic water (although ionic compounds often dissolve in water).
The chemistry principal of "like dissolves like," explains that polar substances will dissolve in each other. Similarly, a covalent will dissolve another covalent.
Rubidium by itself is neither ionic nor covalent. When it forms bonds with other elements, it forms ionic bonds.
Rubidium by itself is neither ionic nor covalent. When it forms bonds with other elements, it forms ionic bonds.
Anything that is bonded by an ionic or polar-covalent bond.
As a non-metal Phosphorous can form ionic compouds with metals and covalent compounds with other non-metals.
P4O6 is covalent; both phosphorous and oxygen are nonmetals, making it unlikely that either would donate electrons to the other.
Chlorine, Cl2 is covalent. Any molecules which consist of two atoms of the same element must be covalent. In compounds with other elements chlorine can form ionic or covalent compounds.
An ionic bond is where electrons are transferred from one to the other, but a covalent bond is where the electrons are 'shared'.
Sulfur will form covalent bonds with itself and other nonmetals, but will form ionic bonds with most metals.
The bond between the copper and carbonate is ionic since the copper is positive (cation) and the carbonate is negative (anion) therefore the two opposing charges are attracted to each other. Carbonate is a polyatomic ion though therefore having a covalent bond. Therefore there is a covalent and ionic bond within Copper Carbonate.
Water is a polar covalent molecule. The partial charges in the molecule attract other charges, ionic or more partial charges from other covalent molecules and dissolves them. Nonpolar bonded molecules have no partial charges and the water molecules will attract each other thus not attracting the nonpolar and does not dissolve them.