I really can't understand what you're trying to ask, but I suspect the answer is "no". Far from "push[ing] away from each other", water molecules have a considerable affinity for each other; it's one of the reasons the boiling point of water is so high for its molar mass. (Dihydrogen sulfide, where the oxygen in water is replaced with the next heavier chalcogen, is a gas at room temperature.)
Yes, the molecules in water are close to each other due to the hydrogen bonding between water molecules. This leads to water having a relatively high density and being in liquid form at room temperature.
No, water molecules do not bond to each other with covalent bonds. Instead, water molecules are attracted to each other through hydrogen bonding, which is a weaker type of interaction than covalent bonds.
The word is cohesion. Cohesion is the property of water molecules attracting and sticking to each other.
Water molecules are polar due to the unequal sharing of electrons between oxygen and hydrogen atoms, while oxygen molecules are nonpolar. As a result, water molecules are attracted to each other through hydrogen bonding, but do not interact strongly with nonpolar oxygen molecules.
the hydrophobic effect, which is driven by the tendency of water molecules to maximize hydrogen bonding interactions with each other. In order to minimize unfavorable interactions with water, nonpolar molecules will cluster together to reduce their exposure to the surrounding water molecules.
Yes, the molecules in water are close to each other due to the hydrogen bonding between water molecules. This leads to water having a relatively high density and being in liquid form at room temperature.
The process in which water molecules move away from each other to become water vapor is called evaporation. It occurs when heat energy is added to liquid water, causing the water molecules to gain enough kinetic energy to break free from the liquid and become a gas.
No, molecules that are farthest apart from each other are not called water vapor. Water vapor refers specifically to the gaseous form of water molecules. Molecules that are far apart from each other can simply be part of a gas phase.
The relationship is that they do not mix. The molecules in water are attracted to each other and will not mix with the oil molecules which are also attracted to each other and therefore will not mix with the water molecules
Molecules will always attract each other unless they are negative. In which case tthey will push each other away.
No, water molecules do not bond to each other with covalent bonds. Instead, water molecules are attracted to each other through hydrogen bonding, which is a weaker type of interaction than covalent bonds.
The word is cohesion. Cohesion is the property of water molecules attracting and sticking to each other.
the rule of thumb for liquids is that liquids with polar molecules (water, vinegar) will mix with each other, and liquids with non-polar molecules (oil, grease, ) will mix with each other but they will not mix with each other. soap is made up of long chain molecules which are polar at one end and non-polar at the other, so they bridge the gap and bond up with a water molecule at one end and an oil molecule at the other allowing the oil molecules to be washed away with the water.
They will travel away from each other if they are similarly charged (+) (+) or (-) (-) They will travel close to each other if they are not similarly charged (+) (-).
It enables water molecules to stick to each other and to many other things.
Nothing. Water molecules do not illiminate each other. Illiminate is not a word in English. Nor do they illuminate or eliminate. Check your spelling.
These are hydrogen bonds.