electrons :)
Water molecules attract the opposite poles of other polar molecules through poles present in water itself.
The intermolecular bond in methanol is hydrogen bonding due to the presence of hydrogen atoms bonded to oxygen. This results in methanol molecules being attracted to each other through strong dipole-dipole interactions.
Van der Waals forces are the weakest attractions between molecules.
Water molecules attract polar molecules through adhesion and cohesion forces. Adhesion occurs when water molecules are attracted to other polar molecules, while cohesion refers to the attraction between water molecules themselves. Peptide bonds and ionic bonds are not typically involved in the attraction between water and other polar molecules.
No, in water, the attraction between H2 and O is a covalent bond that forms the water molecule. Adhesion refers to the attraction between different molecules, while cohesion refers to the attraction between the same molecules. In water, the attraction between H2O molecules is cohesion, and the attraction between water molecules and other substances is adhesion.
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.
Electronegativity is the term used to describe the strong attraction that atoms like oxygen and hydrogen have for electrons. This property influences how atoms bond with each other to form molecules.
plasma
Water boils at 100 degrees centigrade. Water molecules in a liquid are always bumping against each other, but the attraction between them is strong enough to keep them held to each other. It is not strong enough to hold them tight like in a solid, but it does keep them together in a liquid. As the temperature rises, the molecules move faster and faster. When the liquid reaches the boiling point, the attraction between the molecules is no longer strong enough to hold them together. A number of them move so fast, they leave the liquid. That is called boiling.
Cohesion and adhesion differ because cohesion is an attraction between molecules of the same substance. Adhesion is an attraction between molecules of different substances.Adhesion is the intermolecular attraction between 'unlike-molecules' (usually referred to the attraction or joining of two different objects of fluids to each other).Cohesion is the intermolecular attraction between 'like-molecules' (usually referred to the strength with which the particles of an object of fluid attract to each other).== == == ==
plasma
The number of molecules has nothing to do with attraction or repulsion.
Adhesion is the intermolecular attraction between 'unlike-molecules' (usually referred to the attraction or joining of two different objects of fluids to each other).Cohesion is the intermolecular attraction between 'like-molecules' (usually referred to the strength with which the particles of an object of fluid attract to each other)
Cohesion refers to the attraction between molecules of the same substance, like water molecules sticking to each other. Adhesion, on the other hand, is the attraction between molecules of different substances, such as water molecules sticking to a polar molecule like glass.
Phospholipids are the primary molecules that make up plasma membranes in cells. Other important molecules include cholesterol, glycolipids, and proteins. These components help maintain the structure and function of the plasma membrane.
Cohesion is the attraction between molecules of the same substance, leading them to stick together. Adhesion is the attraction between molecules of different substances, causing them to adhere to each other. In simpler terms, cohesion is the attraction between similar molecules, while adhesion is the attraction between different molecules.
Water molecules attract the opposite poles of other polar molecules through poles present in water itself.