No. CHCl3 (Chloroform) is insoluble in water. Chloroform when mixed with water, will form two liquid layers and Chloroform will form the bottom layer. This nature of chloroform is explored in several biological and chemical techniques such as DNA isolation, separation of phyotochemicals etc
No, CCl4 cannot dissolve in water. It is nonpolar and can only be dissolved by other nonpolar objects. Water is polar, so it cannot dissolve it.
CH3COOH stands for acetic acid which is a polar molecule. Like dissolves like, so water (being polar) is soluble in acetic acid. CCl4, is non-polar, so it is not soluble in water.
Carbon tetrachloride is soluble in benzene, chloroform, ether, ethanol and other organic solvents but in water the solubility is not significative.
Water is not miscible with carbon tetrachloride.
No, even it doesn't dissolve IN it
No, it would not be soluble in water.
ccl4 will dissolve better in water because likes dissolves likes, H2O is non-polar an CCL4 is also non polar where as ch2cl2 is polar(different to water) there for it wont dissolve in water but CCL4 will^^This is not true: water is polar. Therefore, since CCl4 is non-polar, and CH2Cl2 is polar, and like dissolves like, CH2Cl2 is more soluble.
When two liquids are mixed, the term is miscible, not soluble. But yes, CCl4 is miscible in cyclohexane.
nope
C8h18
because CCl4 is organic and most of the organic compounds are soluble in CCl4.
When two liquids are mixed, the term is miscible, not soluble. But yes, CCl4 is miscible in cyclohexane.
ccl4 will dissolve better in water because likes dissolves likes, H2O is non-polar an CCL4 is also non polar where as ch2cl2 is polar(different to water) there for it wont dissolve in water but CCL4 will^^This is not true: water is polar. Therefore, since CCl4 is non-polar, and CH2Cl2 is polar, and like dissolves like, CH2Cl2 is more soluble.
nope
NO
C8h18
because CCl4 is organic and most of the organic compounds are soluble in CCl4.
Br2 and C6H14 are soluble in non-polar solvents such as CCl4.
it will not dissolve NH3 in poler molecules
Iodine is a non polar compound so it is readily soluble in non polar liquids like CCl4.
It has to do with intermolecular forces. H2O has an oxygen with two hydrogens coming off of it. This forms two hydrogen bonds, which are much stronger than the London Dispersion Forces in CCl4. (Since CCl4 is non-polar, there are no Dipole-Dipole forces).
Yes, they will form a homogenous mixture.
question itself is wrong, chloroform is solute and ccl4 is solvent, solute should dissolve in solvent and solvent cannot dissolve in solute