The energy of particles in liquid copper is higher than that in liquid water due to the differences in their atomic structures. Copper, being a metal, has loosely bound electrons that contribute to higher energy levels compared to water molecules, which are composed of covalently bonded hydrogen and oxygen atoms. Therefore, the average kinetic energy of particles in liquid copper is greater than that in liquid water.
The particles with the highest kinetic energy are the first to evaporate from a liquid. These particles are usually found near the surface of the liquid where they can break free from intermolecular forces and escape into the air. This process is known as evaporation.
Steam has the most energy as its particles are in the gaseous state and move faster than particles in liquid water or ice, which are in the solid or liquid state respectively. Freezing water has a similar amount of energy as liquid water since they are at the same temperature.
Gas, liquid, soil
Gas, Liquid, Solid
The energy of particles in liquid copper is generally higher than the energy of molecules in liquid water because the metallic bonding in copper leads to stronger forces between the particles. These stronger forces result in higher energy required to break the bonds between the particles in copper compared to the weaker intermolecular forces in water.
The energy of particles in liquid copper is higher than that in liquid water due to the differences in their atomic structures. Copper, being a metal, has loosely bound electrons that contribute to higher energy levels compared to water molecules, which are composed of covalently bonded hydrogen and oxygen atoms. Therefore, the average kinetic energy of particles in liquid copper is greater than that in liquid water.
The order from greatest energy of particles to least energy of particles is: Plasma > Gas > Liquid > Solid.
the particles are given more energy.
The particles with the highest kinetic energy are the first to evaporate from a liquid. These particles are usually found near the surface of the liquid where they can break free from intermolecular forces and escape into the air. This process is known as evaporation.
Liquid
The energy is slow ; particles are close together
Steam has the most energy as its particles are in the gaseous state and move faster than particles in liquid water or ice, which are in the solid or liquid state respectively. Freezing water has a similar amount of energy as liquid water since they are at the same temperature.
Gas, Liquid, Solid
Gas, liquid, soil
freezing
Particles in a liquid have only a small amount of space between each other. They have more energy then solid particles but less energy than gas particles. Particles in liquid roll over each other this is what causes water to flow.