The density of dichloromethane is 1,33 g/cm3.
Cyclohexane dissolves in dichloromethane due to similar intermolecular forces between the two substances. Both cyclohexane and dichloromethane are non-polar molecules, which allows them to mix together and form a homogenous solution. This results in the molecules of cyclohexane being surrounded by the molecules of dichloromethane, creating a stable solution.
Yes acetone and dichloromethane are both polar molecules so they are soluble in each other and form polar interactions.
The functional group of dichloromethane is a halogen group, specifically chlorine. It has two chlorine atoms bonded to a single carbon atom.
Fat is non-polar and does not bond strongly with the polar solvent dichloromethane. As a result, the fat does not dissolve completely in the solvent and retains its color. Decolorization usually occurs when a substance dissolves or reacts with the solvent, which is not the case for fat in dichloromethane.
Common non-conductive solvents include hexane, diethyl ether, toluene, and dichloromethane. These solvents do not conduct electricity because they lack the ions required for electrical conduction.
The boiling point of dichloromethane is approximately 39.6 degrees Celsius.
The density of dichloromethane is 1,33 g/cm3.
Bromine water turns dichloromethane to a violet color.
CH2Cl2
When iodine is mixed with dichloromethane, the resulting color is purple or violet.
Cyclohexane dissolves in dichloromethane due to similar intermolecular forces between the two substances. Both cyclohexane and dichloromethane are non-polar molecules, which allows them to mix together and form a homogenous solution. This results in the molecules of cyclohexane being surrounded by the molecules of dichloromethane, creating a stable solution.
Caffeine is more soluble in dichloromethane than in water due to differences in their polarity. When caffeine is added to the water-dichloromethane mixture, it is preferentially dissolved in dichloromethane, which is a non-polar solvent. This movement is driven by the principle "like dissolves like", where compounds tend to dissolve in solvents with similar polarity.
Trichloromethane (chloroform) has a higher dipole moment compared to dichloromethane. This is because trichloromethane has more chloro groups, resulting in a more polar molecule with a stronger dipole moment.
Yes, 9-fluorenone is soluble in dichloromethane due to its non-polar nature. Dichloromethane is a non-polar solvent that can dissolve non-polar compounds like 9-fluorenone effectively.
Yes acetone and dichloromethane are both polar molecules so they are soluble in each other and form polar interactions.
The functional group of dichloromethane is a halogen group, specifically chlorine. It has two chlorine atoms bonded to a single carbon atom.