hydrogen bonds
Wiki User
∙ 6y agoWater molecules stick together in liquid water due to hydrogen bonding. This occurs when the partially positive hydrogen atom of one water molecule is attracted to the partially negative oxygen atom of another water molecule. These weak interactions help to hold water molecules close together, giving water its unique properties.
Wiki User
∙ 11y agoWater molecules are polar, which means they have and end which is positive and one which is negative (a bit like magnets). If one molecule of water gets near another, the opposite charges will attract forming hydrogen bonds. This happens multiple times to form a group of bonded water molecules forming a droplet.
antonia Martinez
Attractive forces called hydrogen bonds —Apex
Wiki User
∙ 13y agocohesion and surface tension
Christina Dingwiza
Because of hydrogen
Gas turning into liquid is called condensation because the gas molecules lose enough energy to stick together and form a liquid. This process often occurs when the temperature of the gas decreases, causing the molecules to slow down and come closer together, leading to the formation of a liquid.
The tendency of water molecules to stick together is known as cohesion. This phenomenon arises due to hydrogen bonding between the molecules, resulting in surface tension and the ability of water to form droplets.
This phenomenon is called cohesion.
The force that holds glue in its bonding materials is called adhesion. Adhesion is the attraction between molecules of different substances that causes them to stick together.
This depends. If the molecules are of different kinds (ie: Water and Glass), then it is called adhesion. If they are of the same kind, it is called cohesion.The tendency of molecules of the same kind to stick to one another is known as cohesion. This is what keeps the molecules together a good example being in water.
i gas changes into a liquid when it is cold because the gas will now be losing heat and this causes the molecules in the gas to form bonds, bringing them closer to together and resulting in a liquid.
Gas turning into liquid is called condensation because the gas molecules lose enough energy to stick together and form a liquid. This process often occurs when the temperature of the gas decreases, causing the molecules to slow down and come closer together, leading to the formation of a liquid.
This process is known as condensation, where water vapor changes into liquid water. When water vapor molecules collide in the air, they lose energy and come together to form liquid water droplets, resulting in the formation of clouds or fog.
The force of attraction between molecules below the surface of a liquid is called cohesive force. This force creates an inward pull, causing the liquid molecules to stick together and form a well-defined surface.
Atoms form molecules when they stick together through chemical bonds. Molecules are the smallest units of a compound that can exist independently and possess unique chemical properties based on the atoms they are composed of.
When water molecules stick together, it is called cohesion. This property allows water to form droplets and maintain surface tension.
A nonpolar liquid cannot dissolve polar molecules.
cohesion
Molecules stick together by various types of chemical bonding, typically covalent or coordinate covalent bonds.
As water molecules heat up, their kinetic energy increases, causing them to move faster and further apart. Eventually, the increased energy overcomes the intermolecular forces holding the water together, leading to the phase change from liquid to gas (water vapor).
The liquid in a medicine dropper is held by surface tension, a property of liquids that causes them to stick together and form a sort of "skin" on the surface keeping the liquid together. Additionally, the small opening at the tip of the dropper helps regulate the flow of liquid.
Sediments stick together due to the presence of cementing materials such as minerals like calcite, quartz, or clay. These materials act as a natural glue, binding sediment particles together into cohesive rock formations. Over time, pressure from overlying layers helps to consolidate and solidify the sediments.