yes
At high temperature the entropy increase.
Yes, the hydrophobic effect contributes to an increase in entropy.
Reactions that increase the moles of gas will increase in entropy.
In this case the entropy increase.
The increase in entropy will depend on the physical states of the reactants and products. If the reactants are solid and the products are gaseous, there will likely be an increase in entropy due to the increase in disorder. However, if both the reactants and products are in the same state, the change in entropy may be minimal.
There is a large drop in potential energy because charge repulsion is reduced, accompanied by a large increase in entropy.
Spontaneous processes are irreversible because they involve an increase in entropy, or disorder, in the system. This increase in entropy leads to a loss of energy that cannot be fully recovered, making the process irreversible.
Yes, according to the second law of thermodynamics, all energy transformations involve some loss of usable energy as heat, leading to an increase in entropy in the system and its surroundings. This principle is known as the law of entropy or the law of disorder.
At high temperature the entropy increase.
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.
no.
The entropy of the universe is increasing
hydrolysis
No it doesn't. Hydrolysis means that you "add" water.
Yes, the hydrophobic effect contributes to an increase in entropy.
For a spontaneous process to occur, the conditions must involve an increase in entropy and a decrease in free energy.