No, entropy does not depend on mass. Entropy is a measure of disorder in a system and is influenced by factors such as temperature, volume, and energy distribution. It is not directly related to the mass of a system.
When disorder in a system increases, entropy increases. Entropy is a measure of the randomness or disorder in a system, so as disorder increases, the entropy of the system also increases.
Entropy increases due to friction. Friction generates heat, which increases the overall disorder or randomness of the system, leading to an increase in entropy.
The entropy of a system generally increases as temperature increases. This is because higher temperatures lead to more disorder and randomness in the system, which is reflected in the increase in entropy.
Yes, entropy always increases in a closed system according to the second law of thermodynamics.
Yes, the entropy of the universe increases when a system undergoes a reversible process.
When disorder in a system increases, entropy increases. Entropy is a measure of the randomness or disorder in a system, so as disorder increases, the entropy of the system also increases.
If you increase the molecules, or go from a gas to a liquid or vice versa, entropy increases.
A gas typically increases the entropy much more than the increase in moles.
Yes, the entropy of the surroundings increases for spontaneous processes.
Total entropy ALWAYS increases; not just in reactants. The details are a bit complicated, but roughly, the increase in entropy is a result of the laws of statistics.
The entropy increases.
Entropy increases due to friction. Friction generates heat, which increases the overall disorder or randomness of the system, leading to an increase in entropy.
The entropy of a system generally increases as temperature increases. This is because higher temperatures lead to more disorder and randomness in the system, which is reflected in the increase in entropy.
Yes, protein folding increases entropy in biological systems.
The entropy increases as there are more molecules on the product side compared to the reactant side. This increase in randomness and disorder leads to a positive change in entropy for the reaction.
When pressure decreases, entropy increases. Increases in entropy correspond to pressure decreases and other irreversible changes in a system. Entropy determines that thermal energy always flows spontaneously from regions of higher temperature to regions of lower temperature, in the form of heat.
Yes, entropy always increases in a closed system according to the second law of thermodynamics.