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One mole of benzene is converted reversibly into vapours at its boiling point by supplying heat. The vapour expands against the pressure of . The eat of vaporisation of benzene is . Calculate and Consider the reversible compression of 1 mole of an ideal gas to at . Calculate the work needed for this process. Repeat the calculation for a second ompression from to at . Consider a 2 moles sample of an ideal diatomic gas undergoing a reversible sothermal expansion at from bar and to bar and .
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Question Text | One mole of benzene is converted reversibly into vapours at its boiling point by supplying heat. The vapour expands against the pressure of . The eat of vaporisation of benzene is . Calculate and
Consider the reversible compression of 1 mole of an ideal gas to at . Calculate the work needed for this process. Repeat the calculation for a second ompression from to at .
Consider a 2 moles sample of an ideal diatomic gas undergoing a reversible sothermal expansion at from bar and to bar and .
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Updated On | Feb 3, 2022 |
Topic | Thermochemistry |
Subject | Chemistry |
Class | Class 11 |
Answer Type | Video solution: 1 |
Upvotes | 116 |
Avg. Video Duration | 5 min |