Yes. chloroform is polar molecule
Chloroform has polar bonds. There are 4 atoms in a molecule.
I think you have a typo in your molecular formula but CH3Cl is a polar molecule and CCL4 is a non-polar molecule
Because you're living in some alternate universe where the rules of physics are different; chloroform is polar. Carbon tetrachloride is non-polar because of its symmetry (there's no net polarity to the molecule because all the individual polar bonds cancel out) but this is not true for chloroform.
Polar molecules are water soluble , non-polar molecules are fat soluble . Chloroform (as are most anesthetics) is more soluble in fats (the cell membrane) than in water (ie.blood). Thus it is classified as non-polar notwithstanding the data below. Chloroform is a polar molecule. The 3 chlorine atoms are considerably more electronegative than the hydrogen atom, so the molecule has a net dipole moment.
polar molecules are water soluble , non-polar molecules are fat soluble . Chloroform (as are most anesthetics) is more soluble in fats (the cell membrane) than in water (ie.blood). Thus it is classified as non-polar notwithstanding the data below. Chloroform is a polar molecule. The 3 chlorine atoms are considerably more electronegative than the hydrogen atom, so the molecule has a net dipole moment.
Chloroform has polar bonds. There are 4 atoms in a molecule.
I think you have a typo in your molecular formula but CH3Cl is a polar molecule and CCL4 is a non-polar molecule
Because you're living in some alternate universe where the rules of physics are different; chloroform is polar. Carbon tetrachloride is non-polar because of its symmetry (there's no net polarity to the molecule because all the individual polar bonds cancel out) but this is not true for chloroform.
Polar molecules are water soluble , non-polar molecules are fat soluble . Chloroform (as are most anesthetics) is more soluble in fats (the cell membrane) than in water (ie.blood). Thus it is classified as non-polar notwithstanding the data below. Chloroform is a polar molecule. The 3 chlorine atoms are considerably more electronegative than the hydrogen atom, so the molecule has a net dipole moment.
polar molecules are water soluble , non-polar molecules are fat soluble . Chloroform (as are most anesthetics) is more soluble in fats (the cell membrane) than in water (ie.blood). Thus it is classified as non-polar notwithstanding the data below. Chloroform is a polar molecule. The 3 chlorine atoms are considerably more electronegative than the hydrogen atom, so the molecule has a net dipole moment.
polar molecules are water soluble , non-polar molecules are fat soluble . Chloroform (as are most anesthetics) is more soluble in fats (the cell membrane) than in water (ie.blood). Thus it is classified as non-polar notwithstanding the data below. Chloroform is a polar molecule. The 3 chlorine atoms are considerably more electronegative than the hydrogen atom, so the molecule has a net dipole moment.
First of all you have to draw the Lewis dot structure of the molecule. If the molecule is symmetrical, it's non-polar. If the molecule is non-symmetrical or asymmetrical, then the molecule is polar.
polar molecules are water soluble , non-polar molecules are fat soluble . Chloroform (as are most anesthetics) is more soluble in fats (the cell membrane) than in water (ie.blood). Thus it is classified as non-polar notwithstanding the data below. Chloroform is a polar molecule. The 3 chlorine atoms are considerably more electronegative than the hydrogen atom, so the molecule has a net dipole moment.
No. Chloroform is a NON polar solvent.
yes toluence is more polar than chloroform
Chloroform is not a acid. It is a polar compound.
CCl4 is not polar. But CHCl3 is polar.