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If the time taken by a system to execute a process through a finite gradient is infinitely large, the process
- a)becomes reversible
- b)remains irreversible
- c)becomes isothermal
- d)becomes adiabati
Correct answer is option 'C'. Can you explain this answer?
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Most Upvoted Answer
If the time taken by a system to execute a process through a finite gr...
Explanation:
The time taken by a system to execute a process through a finite gradient refers to the time taken for the process to occur. If this time is infinitely large, it means that the process is occurring very slowly.
Isothermal Process:
An isothermal process is a process where the temperature of the system remains constant throughout the process. If the time taken for a process is infinitely large, it means that the system is undergoing a very slow process. In this case, the temperature of the system will remain constant throughout the process, and the process will be isothermal.
Reversible and Irreversible Processes:
A reversible process is a process that can be reversed by a small change in the conditions. An irreversible process is a process that cannot be reversed by a small change in the conditions.
If the time taken for a process is infinitely large, it means that the process is occurring very slowly. In this case, the process becomes reversible, but it does not become irreversible. This is because a reversible process can also occur very slowly.
Adiabatic Process:
An adiabatic process is a process where the system does not exchange heat with the surroundings. If the time taken for a process is infinitely large, it means that the system is undergoing a very slow process. In this case, the system may or may not exchange heat with the surroundings, so the process may or may not be adiabatic.
Conclusion:
If the time taken by a system to execute a process through a finite gradient is infinitely large, the process becomes isothermal. The process may or may not be reversible, irreversible, or adiabatic.
The time taken by a system to execute a process through a finite gradient refers to the time taken for the process to occur. If this time is infinitely large, it means that the process is occurring very slowly.
Isothermal Process:
An isothermal process is a process where the temperature of the system remains constant throughout the process. If the time taken for a process is infinitely large, it means that the system is undergoing a very slow process. In this case, the temperature of the system will remain constant throughout the process, and the process will be isothermal.
Reversible and Irreversible Processes:
A reversible process is a process that can be reversed by a small change in the conditions. An irreversible process is a process that cannot be reversed by a small change in the conditions.
If the time taken for a process is infinitely large, it means that the process is occurring very slowly. In this case, the process becomes reversible, but it does not become irreversible. This is because a reversible process can also occur very slowly.
Adiabatic Process:
An adiabatic process is a process where the system does not exchange heat with the surroundings. If the time taken for a process is infinitely large, it means that the system is undergoing a very slow process. In this case, the system may or may not exchange heat with the surroundings, so the process may or may not be adiabatic.
Conclusion:
If the time taken by a system to execute a process through a finite gradient is infinitely large, the process becomes isothermal. The process may or may not be reversible, irreversible, or adiabatic.
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If the time taken by a system to execute a process through a finite gradient is infinitely large, the processa)becomes reversibleb)remains irreversiblec)becomes isothermald)becomes adiabatiCorrect answer is option 'C'. Can you explain this answer?
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