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If the gas at constant temperature and pressure expands, then its
Options
(a) internal energy increases
(b) internal energy remains the same
(c) internal energy decreases
(d) entropy increases and then decreases
Correct Answer:
internal energy remains the same
Explanation:
For an ideal gas, the internal energy depends upon temperature. As expansion takes place at constant temperature and pressure so internal energy of the gas remains constant, i.e. ΔE = 0.
Related Questions: - All the s-block elements of the periodic table are placed in the groups….
- Among the following the paramagnetic one is
- Identify the molecule that has zero dipole moment
- Which is purified by steam distillation
- The hydration energy of Mg²⁺ is greater than that of
Topics: States of Matter Gases and Liquids
(80)
Subject: Chemistry
(2512)
Important MCQs Based on Medical Entrance Examinations To Improve Your NEET Score
- All the s-block elements of the periodic table are placed in the groups….
- Among the following the paramagnetic one is
- Identify the molecule that has zero dipole moment
- Which is purified by steam distillation
- The hydration energy of Mg²⁺ is greater than that of
Topics: States of Matter Gases and Liquids (80)
Subject: Chemistry (2512)
Important MCQs Based on Medical Entrance Examinations To Improve Your NEET Score
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Internal energy at any state is a function of number of moles n and the temperature. If the the volume expansion takes place at constant temperature and pressure we see that using the gas equation PV=nRT, we get V∝n and thus the number of moles of gas are increasing(may be the gas is being introduces by an external agent), thus internal energy is increasing.
The internal energy remains same because internal energy directly depends upon temperatures and the temp is constant so internal energy also remains same