refrase your question, please, especially concerning........liquid greater than the liquid........because the molecules in the liquid are packed closer together than in the gas
In this case the entropy increase.
In this case the entropy increase.
If you increase the molecules, or go from a gas to a liquid or vice versa, entropy increases.
entropy is a measure of disorder entropy increases for example from solid --> liquid or liquid --> gas or solid --> gas or liquid --> aqueous when the particles become more "free" and there are more spaces between them that means that the entropy has increased
Vapors always have more entropy than liquids of the same substance at the same temperature, because the number of energy states accessible to molecules in the vapor phase is much greater than in the liquid phase.
entropy is greater the more possible arrangements for energy there are, which increases as the molecules become more mobile, so entropy is high in a gas, lower in a liquid, and lowest in a solid.
the entropy of water is higher than the entropy of ice.
False
The water. This is because it has greater positional disorder; if you know the position of one molecule you can say much less about the positions of all the others than you can in an ice crystal. On the other hand, if we are maintaining the system at constant temperature and pressure, then at 0C the contribution to the entropy of the universe because of the water is the same whether it is liquid or solid. This is because when water freezes it give out a latent heat, increasing the entropy of its surroundings, which at 0C exactly cancels the ice's lower entropy.
A Carnot cycle is a sample of something that has greater entropy. The word entropy can e defined s meaning reverse system. The concept of entropy was started with the work of Lazare Carnot.
Entropy is the measure of disorderness. Hot water --> more energy --> less stable --> more disorderness (than Cold water). Therefore, Entropy of Hot water is greater than that of Cold water.
In a nutshell, yes. The water will go from a higher concentration to a lower concentration to increase the entropy of the lower concentration area. The increase in entropy of the lower concentration area would be greater than the loss of entropy of the higher concentration giving you a NET increase in total entropy.
refrase your question, please, especially concerning........liquid greater than the liquid........because the molecules in the liquid are packed closer together than in the gas
Assuming you mean can entropy be reduced; the answer is yes. Only in an open system such as our planet. The universe is a closed systems. The entropy of the universe cannot be reduced. Chemical changes can reduced entropy in an open system. When gas turns into a liquid or when a liquid turns into a solid; entropy is reduced.
In this case the entropy increase.
In this case the entropy increase.