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Heat can make water boil, like when you put a pot of water on the stove on high!
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.
At the boiling point, molecules begin to move from a liquid to a gaseous state. For individual molecules, this process (evaporation) can occur at temperatures lower than boiling.*There is still additional energy required (called the heat of enthalpy) and there must be a nucleation point from which the molecules move. Lacking these, water can reach temperatures higher than the boiling point without becoming a gas.
once the molecules evaporates or boils that there would be less of an amount of the component in the solution.
Through the boiling process, some of the water evaporates into the air, therefore leaving less liquid.
When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules. When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules.
The process of water changing from a gas to a liquid is called condensation.
When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules. When the liquid molecules are heated, they move faster so the liquid boils and some molecules becomes gas molecules.
Heat can make water boil, like when you put a pot of water on the stove on high!
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.
Liquid boils because the transfer of heat results in an increase of kinetic energy. With this energy increase, the molecules move around more and begin to separate and take up more space. This is the process in which a liquid turns into a gas.
Water changes from liquid to gas in two circumstances.Water evaporates when molecules of water leaves the surface of water and enters the air as water vapor.If water is heated to 100 degrees Centigrade, then water boils and it is converted to water gas.
The molecules are further apart, thus the gas is less dense and the volume is greater.
At the boiling point, molecules begin to move from a liquid to a gaseous state. For individual molecules, this process (evaporation) can occur at temperatures lower than boiling.*There is still additional energy required (called the heat of enthalpy) and there must be a nucleation point from which the molecules move. Lacking these, water can reach temperatures higher than the boiling point without becoming a gas.
When a solid melts to become liquid, or a liquid boils to become a gas, the arrangement of particles gets farther apart and less structured, and the motion of the molecules becomes more random and they move faster. The opposite happens when a gas condenses to become a liquid, or when a liquid freezes to become a solid.
The process that occurs during boiling of liquid is energizing of water molecules (H2O) to give them excessive energy for excitement to change their form to gas from liquid. This energy can be provided by heating and electric current. In the liquid state, atoms and molecules are bound together by strong intermolecular forces as compared to gases.While boiling a liquid we provide heat to the molecules whereby their kinetic energy is enhanced and they now have enough energy to overcome the cohesive forces and escape from the liquid surface hence changing into gas.This process is called evaporation.
once the molecules evaporates or boils that there would be less of an amount of the component in the solution.