miscible
question itself is wrong, chloroform is solute and ccl4 is solvent, solute should dissolve in solvent and solvent cannot dissolve in solute
Chloroform is more polar than carbon tetrachloride. This is because chloroform has a dipole moment due to the electronegativity difference between carbon and chlorine atoms, while carbon tetrachloride is nonpolar as the four chlorine atoms cancel out any dipole moments.
Chloroform; it is a polar molecule (like water) as opposed to carbon tetrachloride, which is nonpolar (a tetrahedral shape with identical bonds and electronegative pulls that balance out). Like substances dissolve like substances, thus chloroform dissolves more in water.
Chloroform is a colorless liquid with a sweet smell, while carbon tetrachloride is a colorless liquid with a strong odor. Chloroform is used in medical and industrial applications, while carbon tetrachloride was once used as a solvent but is now considered toxic and harmful to health.
Yes, chloroform is more polar than carbon tetrachloride because it contains a polar C-Cl bond. Carbon tetrachloride, on the other hand, consists of C-Cl bonds which are nonpolar. Polar molecules have a partial positive and partial negative charge, while nonpolar molecules have an even distribution of charge.
Chloroform is miscible with ethanol, carbon tetrachloride, benzene, diethyil ether etc.
question itself is wrong, chloroform is solute and ccl4 is solvent, solute should dissolve in solvent and solvent cannot dissolve in solute
No, kerosene is not miscible with carbon tetrachloride. Miscibility of liquids depends on their relative polarities and molecular structures. Kerosene is a nonpolar solvent, while carbon tetrachloride is a polar solvent, which makes them immiscible.
Chloroform is more polar than carbon tetrachloride. This is because chloroform has a dipole moment due to the electronegativity difference between carbon and chlorine atoms, while carbon tetrachloride is nonpolar as the four chlorine atoms cancel out any dipole moments.
Chloroform; it is a polar molecule (like water) as opposed to carbon tetrachloride, which is nonpolar (a tetrahedral shape with identical bonds and electronegative pulls that balance out). Like substances dissolve like substances, thus chloroform dissolves more in water.
no
Chloroform is a colorless liquid with a sweet smell, while carbon tetrachloride is a colorless liquid with a strong odor. Chloroform is used in medical and industrial applications, while carbon tetrachloride was once used as a solvent but is now considered toxic and harmful to health.
Yes, chloroform is more polar than carbon tetrachloride because it contains a polar C-Cl bond. Carbon tetrachloride, on the other hand, consists of C-Cl bonds which are nonpolar. Polar molecules have a partial positive and partial negative charge, while nonpolar molecules have an even distribution of charge.
Yes they are mixing together. but they are not reacting.
Chloroform is miscible with water, forming a homogenous liquid mixture due to its polar nature. However, it is not miscible with cyclohexane, as cyclohexane is nonpolar and does not form a stable mixture with polar compounds like chloroform.
Iodine is highly soluble in water. It is also soluble in iodine solutions, chloroform, carbon tetrachloride and carbon disulphide among others.
Both chloroform and carbon tetrachloride have the same tetrahedral molecular geometry - there are 4 atoms attached to a central carbon atom. In chloroform, there are 3 chlorine atoms and 1 hydrogen atom. In carbon tetrachloride, all 4 atoms surrounding the central carbon are chlorine atoms. So the difference between the two is simply replacing the 1 hydrogen atom with another chlorine atom. In essence, by doing this, the density of the compound is increased, due to the increase in mass (remember a chlorine atom has an atomic mass of 35 and hydrogen an atomic mass of 1). The density of chloroform goes from 1.48 g/mL to 1.58 g/mL when you replace chloroform's hydrogen with that chlorine atom. Since there is an increased mass in a given volume (1 mL), it takes just a little more energy (thermal) to get carbon tetrachloride atoms from the liquid state to the gas state, which is why CCl4 has a bp of around 76 (while chloroform's bp was around 62). -------------------------------------------------------------------------------------------------------------- Boiling points are based on intermolecular forces. Stronger the forces, lower the vapor pressure, higher the B.pt. Chloroform has mostly dispersion forces and very, very weak dipole-dipole. The reason Carbon tetrachloride has a higher boiling point is because the combined effect of all the dispersion forces are stronger than the intermolecular forces that exist in chloroform. Dispersion forces increase with increasing molecular weight and # of electrons.