The system has become more ordered.
The system has become more ordered.
Entropy is always a non-negative quantity according to the Second Law of Thermodynamics, meaning it cannot be negative. Entropy change can be negative for a system that is undergoing a process that decreases its disorder, while entropy production refers to the total increase in entropy within a system and its surroundings, which is always positive or zero but cannot be negative.
Positive
When sugar dissolves in water, the change in entropy is generally positive. This is because the sugar molecules become more dispersed in the solvent, increasing the disorder or randomness of the system.
The entropy is lower.
The system has become more ordered.
negative
entropy is decreasing, so negative
Entropy is always a non-negative quantity according to the Second Law of Thermodynamics, meaning it cannot be negative. Entropy change can be negative for a system that is undergoing a process that decreases its disorder, while entropy production refers to the total increase in entropy within a system and its surroundings, which is always positive or zero but cannot be negative.
Negative (A+) AG : )
Please be aware that the change will be neither positive or negative. You see when "water" freezes the entropy will not change due the tempertaure of the area around it meaning the entropy will stay neutral. You are very welcome young man
negative
positive
Entropy is a measure of disorder in a system and is always equal to or greater than zero according to the second law of thermodynamics. Entropy cannot be negative in a closed system.
positive
Negative entropy is a process or chemical reaction proceeds spontaneously in the forward direction.Positive entropy is a process proceeds spontaneously in reverse.
Positive