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Water dissolves many ionic and molecular compounds because of its: dnamic equilibrium When there is no difference in the concentration of a substance from one area to another _______ has been reached.


A) ionic bonding B) polarity C) covalent bonding D) hydrogen bonding. B polarity. the polarity gives the molecule a V shape so there is loads of space for compunds to dissolve


Water can dissolve some ionic compounds as well as some molecular compounds because of its polarity. It is polar enough to dissolve ionic compounds into their ions. ... Mostly water dissolves ...


Water dissolves many ionic and molecular compounds because of its... polarity. An isotope of mercury has 80 protons and 120 neutrons. What is the mass number of this isotope? ... Water molecules can be described as "sticky molecules" because . . . a. water is comprised of covalent bonds.


Sugar is one of the few covalent compounds that does dissolve in water because it is a polar covalent compound (i.e., parts of their molecules have a negative side and a positive side), but it still doesn't separate into ions the way ionic compounds do in water. Oil is a non-polar covalent compound, which is why it doesn't dissolve in water.


Many ionic metal compounds are insoluble in water. We call these compounds insoluble salts, although, it is usually better to describe them as sparingly soluble salts. Calcium carbonate, copper (I) chloride, and lead sulfide are examples of such salts.


The Dissolving Process. Water typically dissolves many ionic compounds and polar molecules. Nonpolar molecules such as those found in grease or oil do not dissolve in water. We will first examine the process that occurs when an ionic compound such as table salt (sodium chloride) dissolves in water.


Covalent bonds do not dissolve in water, but some covalent compounds do. When an ionic compound like NaCl dissolves in water, we end up with Na? ions and Cl? ions in solution. This is a dissolving process, because the original compound contained the same ions.


yes polarity because of the electronegative tendencies of it's subatomic particles. The particles have an unequal charge which pulls other particles around it which make it a good medium for chemical process such as ionic and molecular compounds.


Ionic compounds are those composed of oppositely charged atoms, called ions, arranged in a lattice structure. Salts, including sodium chloride (NaCl) – table salt –are the best-known examples of ionic compounds. When you immerse an ionic compound in water, the ions are attracted to the water molecules, each of which carries a polar charge.