quite simply: polar.
Polar mixes well with polar. Nonpolar mixes well with nonpolar.
yes because water is polar
A polar solvent. Like dissolves like.
No, not necessarily. It all depends on the symmetry of the molecule. Take a look at Carbon dioxide. It has a linear shape like this : O=C=O Although the bonds are obviously polar, the molecule is symmetrical. This makes the polarities of the bonds "cancel" each other, so to speak. So overall, this molecule is non-polar. If you take a look at Hydrogen chloride, on the other hand, it has a shape like this: H-Cl The molecule is assymmetrical, so this is a polar molecule.
Yes. Vinegar is a polar substance because it is greatly comprised of water which is a polar substance.
It dissolves all kinds of molecules. However, the ones that it dissoves well are molecules that it can hydrogen bond with or molecules that are polar that it can have dipole-dipole interactions with.
Benzene is a nonpolar molecule as well as carbon tetrachloride, however water is a polar molecule. Based on the rules of solubility, "like dissolves like"; the attraction between nonpolar molecules have the same kind of interaction and strength but the attractions between the highly polar molecule of water are very different, therefore substituting these attractions for new attraction with benzene will require a greater change in enthalpy.
Polar molecules typically do not conduct electricity as well as ionic molecules. This is because charges in polar molecules due to unequal sharing of electrons are not as strong as the charges on ions
All polar molecules have a permanent dipole moment, but London dispersion forces in non-polar molecules can cause temporary dipole moments as well.
non polar molecules dissolve in fat due to the fact that fat is also a nonpolar molecule, and have u ever heard of the saying "like dissolves in like" well non polar molecules dissolve in other non polar molecules. Hope that helps
A nonpolar liquid cannot dissolve polar molecules.
No, not necessarily. It all depends on the symmetry of the molecule. Take a look at Carbon dioxide. It has a linear shape like this : O=C=O Although the bonds are obviously polar, the molecule is symmetrical. This makes the polarities of the bonds "cancel" each other, so to speak. So overall, this molecule is non-polar. If you take a look at Hydrogen chloride, on the other hand, it has a shape like this: H-Cl The molecule is assymmetrical, so this is a polar molecule.
Yes. Vinegar is a polar substance because it is greatly comprised of water which is a polar substance.
It dissolves all kinds of molecules. However, the ones that it dissoves well are molecules that it can hydrogen bond with or molecules that are polar that it can have dipole-dipole interactions with.
Molecules that are polar(charged) dissolve best in water, while nonpolar molecules do not dissolve well in water.
Benzene is a nonpolar molecule as well as carbon tetrachloride, however water is a polar molecule. Based on the rules of solubility, "like dissolves like"; the attraction between nonpolar molecules have the same kind of interaction and strength but the attractions between the highly polar molecule of water are very different, therefore substituting these attractions for new attraction with benzene will require a greater change in enthalpy.
Polar molecules typically do not conduct electricity as well as ionic molecules. This is because charges in polar molecules due to unequal sharing of electrons are not as strong as the charges on ions
Methane is a non polar molecule and water is a very polar molecule. Therefore, one will not readily dissolve in the other.
Because sugar is a polar molecule, which in other words means it can easily dissolve in polar solvents such as water. Water breaks the bonds between the sugar molecules, it does not break the bonds within the molecule.
Most carbohydrate's follow (CH2O)n as their chemical formula therefore they tend to have several hydroxyl groups (O-H bonds). Hydroxyl groups are polar and therefore interact well with water. In addition there is a carbonyl group (C=O) which is also a polarized functional group and therefore can interact with water well.* note n refers to the number of "carbon-hydrate" groups.