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Ionic compounds contain ionic compounds whereas molecular compounds contain covalent bonds in their molecules.
These solutions contain ions, as for example soluble salts.
An aqueous solution contain a solute dissolved in water.
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The pH of an acidic solution is under 7; the solution contain cations H+. The pH of an alkaline solution is above 7; the solution contain anions OH-.
Pure solide NaCl is not electrically conductive. The water solution of NaCl is an electrolyte and is conductive.
A solution is a type of mixture at the molecular/atomic level. Mixtures that are not solutions usually contain particles visible at either the microscopic or macroscopic level.
A solution is a type of mixture at the molecular/atomic level. Mixtures that are not solutions usually contain particles visible at either the microscopic or macroscopic level.
Molecular formulas contain no information about the arrangement of atoms. Because of this, one molecular formula can describe a number of different chemical structures. A structural formula is used to indicate not only the number of atoms, but also their arrangement in space.
No. The reason is that low molecular weight compounds tend to have high molarity. As an example NaF is 42.5 molecular weight. So 42.5g dissolved in 1 liter of water would only be 4.25% but be 1 molar. Proteins tend to have every high molecular weight. So if a protein was say 1000 molecular weight, a 10% solution would contain 100g but only be 0.1 molar.
Some molecular compounds, such as methyl mercury, contain both metals and nonmetals. Most molecular compounds contain only nonmetals, and all molecular compounds contain at least one nonmetal element.
Ionic compounds contain ionic compounds whereas molecular compounds contain covalent bonds in their molecules.
it contain solvent
an OH group
Molecules of NO2 contain covalent bonds
A solution must contain ions, to be able to conduct electricity.
Adenosine Diphosphate (or ADP) does contain an oxygen compound. Its molecular formula is C10H15N5O10P2.