Yes. Isentropic means "constant entropy." For all reversible processes, the change in entropy for the system and its environment is zero.
A reversible process is one that can be undone with no change in entropy of the system and surroundings. A cyclic process is one that starts and ends at the same state, with the system going through a series of state changes. All reversible processes are cyclic, but not all cyclic processes are reversible.
reversible
Yes, lots.
Jude the Entropic Man was created in 1978.
In reversible processes, reactants can convert back and forth into products, making it difficult to distinguish a limiting reactant. The system reaches equilibrium with both reactants present, rather than one being completely consumed. Therefore, the concept of a limiting reactant does not apply to reversible processes.
All physical changes are reversible.
In thermodynamics, adiabatic processes do not involve heat transfer, while isentropic processes are reversible and adiabatic.
The cast of Entropic Apogee - 2013 includes: Juvenal Cisneros as Young Man
Processes that are reversible are physical changes. An example is the melting of ice.
Yes, fabric can undergo reversible changes, particularly when it involves processes like washing, stretching, or ironing. For instance, when a fabric is wrinkled, ironing it can restore it to its original smooth state. However, some changes, such as dyeing or tearing, are irreversible. Thus, while many fabric alterations can be reversed, not all changes are reversible.
no
No. All processes involving heat transfer are not reversible, since they result in an increase in entropy. Isothermal expansion implies heat transfer to maintain the system at a constant temperature. Normally an expanding gas would cool if there were no heat entering the system. Adiabatic processes involve no heat transfer and are reversible. The temperature can (and usually does) change during an adiabatic process.