They are not reacting. but they are mixing together.
Chloroform is stronger in dissolving lipids compared to hexane because chloroform has a higher polarity due to the presence of electronegative chlorine atoms. This polarity allows chloroform to interact more effectively with lipid molecules, which generally have polar and nonpolar regions, making them more soluble in chloroform than in hexane.
chloroform is more polar than hexane. Based from the solvent polarity chart, alkyl halides (such as CHCl3) are relatively more polar than alkanes (such as hexane). Moreso, alkanes tend to be the least polar among the organic and inorganic compounds due to their hydrocarbon structure.
Chloroform and methanol can react to form methyl chloroformate and hydrogen chloride in the presence of a base catalyst. The reaction equation is: CHCl3 + CH3OH → CH3OCOCl + HCl
10g of chloroform has a greater volume than 10g of hexane because chloroform has a higher density than hexane. Density is a measure of mass per unit volume, so for the same mass, the substance with the higher density will occupy less volume.
Hexane is insoluble in water, while benzophenone is slightly soluble in water. Both hexane and benzophenone are soluble in organic solvents such as ether, acetone, and chloroform.
Chloroform is stronger in dissolving lipids compared to hexane because chloroform has a higher polarity due to the presence of electronegative chlorine atoms. This polarity allows chloroform to interact more effectively with lipid molecules, which generally have polar and nonpolar regions, making them more soluble in chloroform than in hexane.
chloroform is more polar than hexane. Based from the solvent polarity chart, alkyl halides (such as CHCl3) are relatively more polar than alkanes (such as hexane). Moreso, alkanes tend to be the least polar among the organic and inorganic compounds due to their hydrocarbon structure.
Chloroform and methanol can react to form methyl chloroformate and hydrogen chloride in the presence of a base catalyst. The reaction equation is: CHCl3 + CH3OH → CH3OCOCl + HCl
10g of chloroform has a greater volume than 10g of hexane because chloroform has a higher density than hexane. Density is a measure of mass per unit volume, so for the same mass, the substance with the higher density will occupy less volume.
Hexane is insoluble in water, while benzophenone is slightly soluble in water. Both hexane and benzophenone are soluble in organic solvents such as ether, acetone, and chloroform.
Sodium chloride doesn't react with chloroform and is not soluble in chloroform.
The balanced decomposition chemical equation for hexane (C6H14) is: 2C6H14 → 6C + 7H2
Hexane and chloroform are partially miscible, meaning they can mix to some extent but may not fully dissolve in each other. This is due to differences in their polarity and intermolecular forces. Upon mixing, they may form two separate layers or phases.
The equation for the reaction of iodine between water and chloroform is: I2 (iodine) + 2CHCl3 (chloroform) ⇌ ICl (iodine monochloride) + 2HCl (hydrochloric acid) + CHCl3 (chloroform).
Hexane and benzene do not react in the ignition test. Only acetylene does. Acetylene has a triple bond if equivalent amount of KMnO4 is used. The equation is HCCH + KMnO4 -> HC (OH) = CH(OH).
Ethanol does not react with bromine.
Yes, bromine can react with chloroform to form bromoform and hydrogen chloride. This reaction is a halogenation reaction where bromine substitutes the hydrogen atoms in chloroform.