Yes. Diffusion will increase the entropy.
The entropy of the universe is increasing
At high temperature the entropy increase.
Increase. The heat from your hand will melt the snow causing it to go from a low entropy solid state to a higher entropy liquid state.
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.
Yes. Diffusion will increase the entropy.
A perfectly ordered crystal at absolute zero is not apt to increase entropy, as entropy tends to increase with higher temperatures and disorder.
The entropy of the universe is increasing
1) you increased the number of moles of gas 2) you increased the number of atoms or molecules 3) you go from solid to liquid, or liquid to gas really if you see disorder, or kinetic energy, or particles, increasing, you can call that an increase in entropy.
Yes, the hydrophobic effect contributes to an increase in entropy.
The concept of resonance can increase the entropy of a system by allowing for more ways for energy to be distributed among its components. This increased energy distribution leads to greater disorder and randomness, which are key aspects of entropy.
At high temperature the entropy increase.
Increase. The heat from your hand will melt the snow causing it to go from a low entropy solid state to a higher entropy liquid state.
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.
When energy is transformed, entropy can either increase or decrease. For example, in many energy transformations, such as combustion or chemical reactions, entropy tends to increase due to the dispersal of energy. However, in some processes, such as certain phase changes, entropy can decrease.
Reactions that increase the moles of gas will increase in entropy.
A gas typically increases the entropy much more than the increase in moles.