polar covalent bonds make the water molecule and hydrogen bonding attracts other water molecules to each other
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∙ 12y agoHydrogen bonding is present between water molecules. This bonding occurs due to the attraction between the partially positive hydrogen atom of one water molecule and the partially negative oxygen atom of another water molecule.
The forces between molecules in steam are weaker than the forces between molecules in liquid water. In steam, molecules are far apart and move freely, resulting in weak intermolecular forces. In liquid water, molecules are closer together and have stronger intermolecular forces due to hydrogen bonding.
Water molecules cohere to form a liquid due to hydrogen bonding between the molecules. This hydrogen bonding leads to a net attractive force between the molecules, allowing them to stay close together in a liquid state.
Cohesion is not directly attributable to hydrogen bonding between water molecules. Cohesion is the property of water molecules being attracted to each other due to hydrogen bonding, but it does not solely depend on hydrogen bonding for its existence.
A water molecule is made up of two hydrogen atoms covalently bonded to one oxygen atom. This covalent bond results from the sharing of electrons between the atoms. Additionally, water molecules exhibit hydrogen bonding between different water molecules due to the polar nature of the molecule.
Yes, hydrogen bonding between water molecules allows water to exhibit cohesive properties. This bonding, which involves the attraction between the slightly positive hydrogen atom of one water molecule and the slightly negative oxygen atom of another water molecule, helps water molecules stick together, creating surface tension and allowing water to form droplets and have a high degree of cohesion.
Bonding between water molecules is referred to as hydrogen bonds.
Within the molecule itself, water exhibits ionic bonding. Between the water molecules, there is hydrogen bonding.
heat transfers to the water molecules
The high boiling point of water cannot be attributed to hydrogen bonding between water molecules. Instead, it is due to the strong intermolecular forces present in water that require a significant amount of energy to overcome and transition to the gas phase.
Hydrogen bonding enables water molecules to bond to each other.
The forces between molecules in steam are weaker than the forces between molecules in liquid water. In steam, molecules are far apart and move freely, resulting in weak intermolecular forces. In liquid water, molecules are closer together and have stronger intermolecular forces due to hydrogen bonding.
hydrogen bonds Sincerely, #43 <3 :))
Water molecules cohere to form a liquid due to hydrogen bonding between the molecules. This hydrogen bonding leads to a net attractive force between the molecules, allowing them to stay close together in a liquid state.
Cohesion is not directly attributable to hydrogen bonding between water molecules. Cohesion is the property of water molecules being attracted to each other due to hydrogen bonding, but it does not solely depend on hydrogen bonding for its existence.
The molecules of water are held together by hydrogen bonding between molecules.These are electrostatic bonds (attraction forces between opposite charges) that hydrogen makes with the oxygen of neighbouring molecules. Hydrogen, when bonded to oxygen to form water molecules, is slightly positive and the oxygen in the water molecule is slightly negative. Hydrogen gets attracted to the neighbouring slightly negative oxygen atoms.This is great for life on Earth because small molecules the size of water tend to be gases but water is a liquid. It is a liquid due to the hydrogen bonding between molecules.
The cause is the formation of hydrogen bonds between water molecules.Any hydrophilic molecule that dissolves in water make H-bonding with water molecules
This is an intermolecular attraction of water molecules, associated by hydrogen bonds.