Water as steam in the gas state has the most energy compared to water in the liquid or solid state.
Steam is a gaseous state of matter. It is formed when water is heated to its boiling point, causing it to evaporate and transition from a liquid to a gas. In this state, steam consists of water vapor molecules that are dispersed in the air.
Do water molecules in the liquid state have more energy than water molecules in the polar state
When water changes to a solid (ice), the water molecules slow down and arrange themselves into a crystal lattice structure. This allows the molecules to form a regular pattern, resulting in the solid state of matter.
A change in temperature or pressure can affect the state of matter without altering its chemical composition. For example, melting ice to form liquid water or boiling liquid water to form steam are changes in state of matter that do not change the chemical makeup of water molecules.
It's actually a lot simpler than that. When liquid water boils, some of the water molecules in a liquid state become so energetic that they go into a gaseous state. They remain water molecules, completely unchanged in their internal composition. They just change how they relate to other molecules. The only "gas" that's released during boiling is water vapor. As such, you can reheat the same water a thousand times and you won't get any change in the boiling process (other than loss of the liquid as the water vapor wisps away). The water molecules in a liquid state will become water molecules in a gaseous state, and the process will be the same on the first, second, and thousandth time.
In what state of matter transition do water molecules move the least?
Water molecules bunch together in the state of a solid.
Water molecules are measured as having the lowest temperature in the solid state, where they form ice.
gas
Water vapor is a gaseous state of water molecules in the air. It is not considered matter in the traditional sense because it doesn't have a fixed volume or shape.
Do water molecules in the liquid state have more energy than water molecules in the polar state
In the gas state, water molecules move the fastest due to the higher kinetic energy they possess compared to the liquid or solid states. In the gas phase, water molecules are further apart and have more freedom to move around, resulting in higher speeds.
When water changes to a solid (ice), the water molecules slow down and arrange themselves into a crystal lattice structure. This allows the molecules to form a regular pattern, resulting in the solid state of matter.
Oil will sink in water, so is the least dense.
A change in temperature or pressure can affect the state of matter without altering its chemical composition. For example, melting ice to form liquid water or boiling liquid water to form steam are changes in state of matter that do not change the chemical makeup of water molecules.
It's actually a lot simpler than that. When liquid water boils, some of the water molecules in a liquid state become so energetic that they go into a gaseous state. They remain water molecules, completely unchanged in their internal composition. They just change how they relate to other molecules. The only "gas" that's released during boiling is water vapor. As such, you can reheat the same water a thousand times and you won't get any change in the boiling process (other than loss of the liquid as the water vapor wisps away). The water molecules in a liquid state will become water molecules in a gaseous state, and the process will be the same on the first, second, and thousandth time.
Gaseous