Yes. In polar bonds, electrons between atoms are shared unequally. The more electronegative atom has a high electron affinity, pulling the shared electron (and ajacent atom) closer to it, creating a shorter, stronger bond.
Nonpolar; It has a stronger bond because of the equally shared electrons, opposing to polar covalent bonds. Think of it this way, its like two wrestlers Wrestling in the same weight class, i.e. equal strength (essentially). Polar covalent bonds are weaker because it would be like a 200 lb wrestler wrestling a 40 lb child. Its unfair and electrons are favored with the stronger molecule.
Intermolecular forces are the same strength in polar and nonpolar ions
Attractions between polar molecules are stronger than attractions between non polar molecules.
The forces between the IONS are much stronger than the forces between the MOLECULES.
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polar
Polar molecules have charges that non-polar molecules do not have. It is the reason why non-polar molecules can move through the lipid bilayer quicker than the polar molecules.
No, It is infact polar molecules that have higher melting points than non-polar molecules. Polar molecules have stronger intermolecular bonds called dipole-dipole forces. These forces are an attraction between the slightly positive end of one molecule with the slightly nehative end of another.
Flour has both polar and non-polar molecules in it. However, most cooking flours have more non-polar molecules, which is why they distribute more evenly in non-polar liquids (like melted butter) than polar (water).
Small polar molecules have a much stronger smell than non-polar molecules. This could be because the smell receptors in our nose are made of polar proteins or it could be because polar molecules are able to dissolve in the mucus membrane of our noses. Whatever the reason, polarity has a large affect on smell.
Non polar gases have very low critical temperature. Non polar gases have weak forces of attraction between their particles. They cooled to very low temperature. Polar gases have high value of critical temperature. The inter molecular forces are very strong . So polar gases have better tendency to be converted into liquid.
Polar molecules have charges that non-polar molecules do not have. It is the reason why non-polar molecules can move through the lipid bilayer quicker than the polar molecules.
No, It is infact polar molecules that have higher melting points than non-polar molecules. Polar molecules have stronger intermolecular bonds called dipole-dipole forces. These forces are an attraction between the slightly positive end of one molecule with the slightly nehative end of another.
Non-polar molecules are more attracted to other non-polar molecules.
Water is polar while oils are non-polar. Molecules that are polar will mix with other polar molecules, and non-polar molecules will mix with other non-polar molecules. Polar and non-polar molecules will not mix.
Flour has both polar and non-polar molecules in it. However, most cooking flours have more non-polar molecules, which is why they distribute more evenly in non-polar liquids (like melted butter) than polar (water).
Small polar molecules have a much stronger smell than non-polar molecules. This could be because the smell receptors in our nose are made of polar proteins or it could be because polar molecules are able to dissolve in the mucus membrane of our noses. Whatever the reason, polarity has a large affect on smell.
Polar molecules reacts with polar molecules and non-polar molecules react with non-polar molecules.
metal will conduct elecricity
Non polar gases have very low critical temperature. Non polar gases have weak forces of attraction between their particles. They cooled to very low temperature. Polar gases have high value of critical temperature. The inter molecular forces are very strong . So polar gases have better tendency to be converted into liquid.
The implication of non-polar molecules diffusing more rapidly than polar molecules to the transport of substances through the plasma membrane is quite significant. Concentrate gradients are established which facilitate the transport of vital molecules.
false. they are non polar molecules, not to be confused with polar molecules. non polar molecules lack regions of electrical charge. it mostly has hydrogen and carbon atoms. an example of non polar molecules are fats and waxes.
Polar molecules of smilar size to non-polar molecules have a higher melting and boiling point due to their stronger force of attraction.. eg. CO2. which is non-polar, you can can find free floating in the atmosphere whereas a polar molecule such as Water, doesn't boil until it reaches at least 100(Co) degrees. i like dump