Yes acetone and dichloromethane are both polar molecules so they are soluble in each other and form polar interactions.
Toluene is not miscible with water; toluene is released by slow evaporation.
Methylbenzene, aka toluene, is not miscible in water. It is miscible in organic solvents such as hexane and acetone.
No, it is effectively insoluble. Because of this property, dichloromethane is often used in the final stages of separating caffeine from coffee. We are generally left with a solution of caffeine and glucose. The caffeine is highly soluble in dichloromethane, while the glucose is not soluble at all. This property allows us to easily separate the caffeine and the glucose.
Yes. Two isomers of toluene are known as toluene-2,4-diisocyanate and toluene-2,6-diisocyanate
The density of dichloromethane is 1,33 g/cm3.
yes they are miscible.
Toluene is not miscible with water; toluene is released by slow evaporation.
Methylbenzene, aka toluene, is not miscible in water. It is miscible in organic solvents such as hexane and acetone.
Because they are polar compound
It does not dissolve in toluene. This is because toluene is a non-polar molecule while dichloromethane is a polar molecule and thus, they do not mix.
benzene, toluene, chloroform, dichloromethane, ethyl acetate
While ethanol is strongly polar, and toluene is only slightly polar, the two solvents are miscible. Just pour one into the other and stir a little to evenly distribute it. Toluene and ethanol mixtures have been tried as an alternative solvent to benzene and ethanol, as benzene has been found to be carcinogenic.
Not under normal conditions, no. Toluene is a hydrocarbon, and is therefore non-polar. Water is strongly polar. They have incompatible intermolecular attractions, so no dissolving will take place.
Immiscible, of course. Greasy stuff like toluene is not water soluble to any significant degree.
No, it is effectively insoluble. Because of this property, dichloromethane is often used in the final stages of separating caffeine from coffee. We are generally left with a solution of caffeine and glucose. The caffeine is highly soluble in dichloromethane, while the glucose is not soluble at all. This property allows us to easily separate the caffeine and the glucose.
Dichloromethane is not soluble in water. Dichloromethane does not have any functional groups or elements that would allow hydrogen bonding with water to occur. It is in fact a polar molecule but it still cannot dissolve a polar molecule like water because no hydrogen bonding can occur. Mostly only organics dissolve in DCM, such as hexanes and other hydrocarbon chains
Two miscible liquids are: Alcohol and water.Sorry if this isn't what you wanted.