a monomer Polymers are composed of monomers.
Do water molecules in the liquid state have more energy than water molecules in the polar state
Higher temperatures mean more heat energy which translates into more kinetic energy of the molecules of nitrogen gas. This greater kinetic energy allows the molecules to diffuse faster than at a lower temperature and lower kinetic energy.
Sorry we do not know what you mean by "eater molecules".
Atoms are the building blocks of molecules. Molecules are formed when two or more atoms chemically bond together. Different combinations of atoms can create a wide variety of molecules with unique properties.
No, oxidized molecules have more energy than reduced molecules.
Do you mean elements or molecules? Gravity is acting more weakly on them (inverse square law).
Yes.
a monomer Polymers are composed of monomers.
1 liter of water will have more molecules than 1 liter of ice. This is because in ice, the water molecules are arranged in a more spaced out, structured manner compared to the closely packed water molecules in liquid water.
artistic ones theory
Refers to molecules, or portions of molecules, that interact with water and charged particles
molecules that dont contain hydrogen or carbon
Warmer molecules have more energy, and therefore move faster. Gas molecules will collide with solid objects, these collisions are what cause gas to have a pressure in the first place. Faster molecules mean more energetic collisions, hence a higher pressure on their surroundings. In the case of a sealed vessel, that means that when the temperature rises high enough, the molecules collide with it with enough force to rupture the vessel and burst it open.
Molecules in a liquid move faster than in a solid because the intermolecular forces in a liquid are weaker, allowing molecules to move around more freely. In a solid, molecules are held tightly in a fixed position by strong intermolecular forces.
Do water molecules in the liquid state have more energy than water molecules in the polar state
Molecules are generally more active in warm air because higher temperatures provide molecules with more energy, causing them to move faster and collide more frequently. In cold air, molecules have less energy and move more slowly, resulting in lower activity levels.