Yes, benzene is more soluble in hexane than in glycerol because they have similar nonpolar properties. Benzene is a nonpolar compound, and hexane is a nonpolar solvent, making them more compatible. Glycerol, on the other hand, is a polar compound and can have limited solubility for nonpolar substances like benzene.
Potassium manganate 7 is more soluble in hexane than in water because it is a nonpolar solvent like hexane. Nonpolar solutes tend to dissolve better in nonpolar solvents, while water is a polar solvent. Therefore, the solubility of potassium manganate 7 is higher in hexane than in water.
Alcohol is more soluble in benzene compared to an alkane due to the presence of a polar hydroxyl group in alcohol molecules. Benzene has some degree of polarity which allows for better interaction with the hydroxyl group, enhancing the solubility. Alkanes, being nonpolar, have weaker interactions with the polar alcohol molecules, leading to lower solubility.
Hexane is a non-polar chain hydrocarbon; on the principle of "like dissolves like" hexane will dissolve other non-polar compounds quite well. Water is a polar molecule, as are all halogens as exemplified by the simplest common halogen of all, hydrochloric acid. Halogen acids, common refrigerants, even some anesthetics are all polar molecules and therefore dissolve fairly well in other polar liquids, including water.
Yes, hexane is more dense than ethanol. Hexane has a density of about 0.66 grams per milliliter, while ethanol has a density of about 0.79 grams per milliliter.
In ethanol a hydrogen bond is formed between the oxygen of ethanol and one H-atom of water. It is also believed that ethanol is associated through internal H-bonding between their molecules and this is encouraged by the +I effect of the alkyl group of the alcohol which transfers the electronegativity towards the H- of -OH group. It is also found that solubility decreases with increase of molecular weight. There are three types of forces which determine the extent of solubility of a solute in a solvent - (1) solute-solute ; (2) solvent-solute and (3) solvent-solvent. If the solute-solvent attractive force is greater than the other two, the solute remains in solution. In ethanol, the force (1) overcomes the force (2) as compared to glycerol where +I effect of alkyl group is absent. Thus, the latter is more soluble in water than the former.
Ethanol is more soluble than hexane and benzene in water due to its polar nature. Hexane and benzene are nonpolar compounds and have low solubility in water.
The boiling point of benzene is about 80 0C while that of hexane is 69 0C, so Hexane is more volatile.
Yes, naphthalene is slightly soluble in pentane due to their similar nonpolar characteristics. However, naphthalene is more soluble in nonpolar solvents like hexane or benzene.
Phosphatidylcholine is more soluble in hexane than in water. This is because phosphatidylcholine is a lipid molecule, which is nonpolar and therefore more soluble in nonpolar solvents like hexane.
Octanol is more soluble in hexane because it has a longer nonpolar hydrocarbon chain.
Glycerol has a higher surface tension compared to hexane. This is because glycerol is more polar than hexane, leading to stronger intermolecular forces between glycerol molecules which results in a higher surface tension.
Bromine is soluble in water.
Potassium manganate 7 is more soluble in hexane than in water because it is a nonpolar solvent like hexane. Nonpolar solutes tend to dissolve better in nonpolar solvents, while water is a polar solvent. Therefore, the solubility of potassium manganate 7 is higher in hexane than in water.
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Isobutene is more soluble in hexane than in water. This is because isobutene is a nonpolar molecule, making it better able to dissolve in nonpolar solvents like hexane than in polar solvents like water.
Hexane is more nonpolar than toluene because it is an alkane with only C-H bonds, while toluene has a benzene ring which introduces some polarity due to the presence of pi bonds.
No, glycerol is not soluble in non-polar solvents due to its polar nature. Glycerol has hydroxyl groups that can form hydrogen bonds with water molecules, making it more soluble in polar solvents like water.