Prof. Jamil Ahmad
University of Botswana (Botswana)
https://doi.org/10.53656/nat2021-6.01
Abstract. The relationship between entropy and reversible heat and temperature is developed using a simple cycle, in which an ideal gas is subjected to isothermal expansion and compression and heated and cooled between states. The procedure is easily understood by students if they have knowledge of calculations involving internal energy, reversible work, and heat capacity for an ideal gas. This approach avoids the more time-consuming Carnot cycle. The treatment described here illustrates how the total entropy change resulting from an irreversible process is always positive.
Keywords: Thermodynamics; Entropy; reversible work; reversible heat; irreversible process