A thermodynamic system absorbs 20 kJ of heat and simultaneously does 10 kJ of expansion work on its — Thermodynamics and Thermochemistry Chemistry Question
Question
A thermodynamic system absorbs 20 kJ of heat and simultaneously does 10 kJ of expansion work on its surroundings. What is the net change in the internal energy of the system?
Answer: A
💡 Solution & Explanation
According to the IUPAC sign convention for the First Law of Thermodynamics, $\Delta U = q + w$. Heat absorbed by the system is positive ($q = +20 \text{ kJ}$). Work done by the system on the surroundings is negative ($w = -10 \text{ kJ}$). Therefore, $\Delta U = +20 + (-10) = +10 \text{ kJ}$. The internal energy increases by 10 kJ.
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