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The molecules at the surface of liquid water have greater attraction to each other than the molecules in the interior of the water because?
From wikipedia:
"The cohesive forces among liquid molecules are responsible for the phenomenon of surface tension. In the bulk of the liquid, each molecule is pulled equally in every direction by neighboring liquid molecules, resulting in a net force of zero. The molecules at the surface do not have other molecules on all sides of them and therefore are pulled inwards. This creates some internal pressure and forces liquid surfaces to contract to the minimal area."
What else can I help you with?
Does ethylene glycol molecules have a greater attraction for cyclopentane than for each other?
No, ethylene glycol molecules have a much stronger attraction for each other due to hydrogen bonding, compared to their attraction for non-polar molecules like cyclopentane. This is due to the polar nature of the ethylene glycol molecule, which forms strong intermolecular forces with other ethylene glycol molecules.
Why do some liquids have greater viscosity than others?
Viscosity is determined by the internal friction between the molecules of a liquid. Factors such as molecular size and shape, intermolecular forces, and temperature influence viscosity. Liquids with larger and more complex molecules, stronger intermolecular forces, and lower temperatures tend to have greater viscosity because the molecules have a harder time sliding past one another.
Which has a greater attraction for electrons Fluorine or Oxygen?
when compared to oxygen, fluorine has greater electronegativity (greater attraction for shared pair of electrons).
Sucrose is soluble in water because the attractive forces between the solute particles are greater than the attractive forces between the solute and the solvent particles.?
You've got it in reverse. When sucrose dissolves in water, sucrose is the solute, and water is the solvent. In order to dissolve, sucrose molecules have to be more attracted to water molecules than they are to other sucrose molecules. If the attraction of sucrose to sucrose was greater than the attraction of sucrose to water, then there would be no reason for the solid sucrose to turn into the aqueous sucrose solution. Sucrose molecules would simply remain firmly attached to each other if that were the case.
Is Sucrose soluble in water because the attractive forces between the solute particles are greater than the attractive forces between the solute and the solvent particles?
You've got it in reverse. When sucrose dissolves in water, sucrose is the solute, and water is the solvent. In order to dissolve, sucrose molecules have to be more attracted to water molecules than they are to other sucrose molecules. If the attraction of sucrose to sucrose was greater than the attraction of sucrose to water, then there would be no reason for the solid sucrose to turn into the aqueous sucrose solution. Sucrose molecules would simply remain firmly attached to each other if that were the case.
Does ethylene glycol molecules have a greater attraction for cyclopentane than for each other?
No, ethylene glycol molecules have a much stronger attraction for each other due to hydrogen bonding, compared to their attraction for non-polar molecules like cyclopentane. This is due to the polar nature of the ethylene glycol molecule, which forms strong intermolecular forces with other ethylene glycol molecules.
Why do some liquids have greater viscosity than others?
Viscosity is determined by the internal friction between the molecules of a liquid. Factors such as molecular size and shape, intermolecular forces, and temperature influence viscosity. Liquids with larger and more complex molecules, stronger intermolecular forces, and lower temperatures tend to have greater viscosity because the molecules have a harder time sliding past one another.
Which has a greater attraction for electrons Fluorine or Oxygen?
when compared to oxygen, fluorine has greater electronegativity (greater attraction for shared pair of electrons).
Is Sucrose soluble in water because the attractive forces between the solute particles are greater than the attractive forces between the solute and the solvent particles?
You've got it in reverse. When sucrose dissolves in water, sucrose is the solute, and water is the solvent. In order to dissolve, sucrose molecules have to be more attracted to water molecules than they are to other sucrose molecules. If the attraction of sucrose to sucrose was greater than the attraction of sucrose to water, then there would be no reason for the solid sucrose to turn into the aqueous sucrose solution. Sucrose molecules would simply remain firmly attached to each other if that were the case.
Sucrose is soluble in water because the attractive forces between the solute particles are greater than the attractive forces between the solute and the solvent particles.?
You've got it in reverse. When sucrose dissolves in water, sucrose is the solute, and water is the solvent. In order to dissolve, sucrose molecules have to be more attracted to water molecules than they are to other sucrose molecules. If the attraction of sucrose to sucrose was greater than the attraction of sucrose to water, then there would be no reason for the solid sucrose to turn into the aqueous sucrose solution. Sucrose molecules would simply remain firmly attached to each other if that were the case.
Why does me and my friend near each other doesn't feel force of attraction?
because for attraction mass of one object should be greater than other
Do ethlyene molecules have a greater attraction for each other?
Yes, ethylene molecules have a greater attraction for each other due to the presence of a double bond between the carbon atoms. This double bond creates a stronger intermolecular force called a pi bond. This results in a higher boiling point and stronger molecular interactions compared to other hydrocarbons with only single bonds.
How is polarity related to capillary attraction?
Because of the polarity of water, it exhibits a greater cohesion and adhesion to itself and other substances. This means that water holds on to itself more firmly than it does other substances.
What makes one solid more dense than another?
Force of attraction make a solid denser. Solids have great force of attraction between their molecules that's why they are denser. Greater would be the force of attraction greater would be the density.....
Why are you NOT weightless on the moon?
Because the Moon has mass, a LOT of mass. If something has mass, it will have gravitational attraction. The more mass, the greater the attraction. The moon has ~1/6th the gravity as the Earth.
Which molecules have a greater attractionfor each other C3H8O molecules in rubbing alchohol or CH4 in molecules in methane gaa?
The C3H8O molecules will have a greater attraction in liquid rubbing alcohol than ch4 molecules in methane gas. This is due to the hydrogen bonding and dipole intermolecular forces that would occur between the polar alcohols. The nonpolar methane and methane gas will only experience London dispersion forces.
Which intermolecular force is the weakest?
If you are asking about bonds of attraction between separate molecules, there are two kinds: dipole-dipole attraction and London dispersion force attraction. Dipole-dipole attraction is the stronger of the two, because the molecules in this case are polar, meaning that electrons are more often clustered at certain spots on the molecule and rarified at the opposite end, resulting in a greater charge on both ends (London dispersion forces are the weak forces of attraction between nonpolar molecules during random, fleeting moments of polarization). These forces are not to be confused with ionic attraction (which is attraction between ions, not molecules) and covalent bonds (which are the forces holding the individual atoms in a molecule together), both of which are stronger than any intermolecular force of attraction (with covalent bonding being the strongest of all bonds at the chemical as opposed to the nuclear level). Keep in mind, though, that the exact strength of attraction varies depending on the electronegativities of the different atoms in the molecule (but the weakest polar molecular bonds are, by definition, stronger than the strongest nonpolar molecular bonds).
