lipid
Usually, yes. Ionic compounds are primarily soluble in solvents that promote their separation into ions in solution. These are often called "ionizing solvents", even though the solvents themselves usually do not ionize very strongly.
Covalent compounds are non polar. And almost all organic compounds are non polar. According to the rule of the thumb- 'like dissolves like', covalent compounds are soluble in organic solvents. What is meant by 'like dissolves like'? It means that for two substances to dissolve in each other they must be of the same type- either both polar or both non-polar. To understand why this likeliness is required for solution formation, the chemistry of solution formation must be analyzed. In a solution, the constituents interact which each other through chemical bond formation. And the chemical bonds must be of the same type as that of the constituents when they are separate so that they are able to replace each other's position to create a condition where there seems to be no distinction between the molecules constituting the solution. This is what is called 'dissolving'. If a polar and a non-polar substance are mixed, the polar substance would exert a greater attractive force on the electrons of non-polar substance which would make the non-polar unstable and thus the mix. Every element wants to be energetically stable and therefore, polar and non-polar do not mix. If two polar substances A and B are mixed, then the forces of attraction between A and B are similar to the forces between A and A and that between B and B. So the solution is stable. This is the same case with non-polar substances.
Ionic compounds do not dissolve in non-polar compounds. They can dissolve only in polar compounds. Dissolution is actually dissociation of the ionic compounds and the polar solvent into constituent ions and development of weak forces of attraction called hydrogen bonds. The dissociation is not necessarily complete always.
Organic compounds.
You may be referring to organic compounds. All organic compounds contain carbon but all compounds that contain carbon are not necessarily organic. A more general term would be carbonaceous.
Usually, yes. Ionic compounds are primarily soluble in solvents that promote their separation into ions in solution. These are often called "ionizing solvents", even though the solvents themselves usually do not ionize very strongly.
They are termed organic compounds. Compounds containing only carbon and hydrogen are called hydrocarbons and they are a subset of organic compounds.
Covalent compounds are non polar. And almost all organic compounds are non polar. According to the rule of the thumb- 'like dissolves like', covalent compounds are soluble in organic solvents. What is meant by 'like dissolves like'? It means that for two substances to dissolve in each other they must be of the same type- either both polar or both non-polar. To understand why this likeliness is required for solution formation, the chemistry of solution formation must be analyzed. In a solution, the constituents interact which each other through chemical bond formation. And the chemical bonds must be of the same type as that of the constituents when they are separate so that they are able to replace each other's position to create a condition where there seems to be no distinction between the molecules constituting the solution. This is what is called 'dissolving'. If a polar and a non-polar substance are mixed, the polar substance would exert a greater attractive force on the electrons of non-polar substance which would make the non-polar unstable and thus the mix. Every element wants to be energetically stable and therefore, polar and non-polar do not mix. If two polar substances A and B are mixed, then the forces of attraction between A and B are similar to the forces between A and A and that between B and B. So the solution is stable. This is the same case with non-polar substances.
The substance is usually soluble in water or other solvents such as alcohol. It is called soluble salts
Ionic compounds do not dissolve in non-polar compounds. They can dissolve only in polar compounds. Dissolution is actually dissociation of the ionic compounds and the polar solvent into constituent ions and development of weak forces of attraction called hydrogen bonds. The dissociation is not necessarily complete always.
Every single organic thing contains carbon.
Organic chemistry is sometimes called carbon compounds chemistry because all of the compounds you look at contain carbon.
The first thing is that they are ionic: hydrophillic [water loving] ionic compounds are happiest when dissolved.They are also commonly known as soluble solutes.
Carbon containing compounds found in living things are called organic compounds. Examples of organic compounds are carbohydrates, proteins, lipids and nucleotides.
Compounds containing carbon are referred to as organic compounds
Organic compounds.
organic chemistry.