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Boiling point of an organic compound is ...

Boiling point of an organic compound is `310K`. Its enthalpy of vaporisation per mole `Delta_(vap)H` is `27.9 kJ mol^(-1)`. Calculate the entropy of vaporisation `Delta_(vap)S` of organic compound.

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To calculate the entropy of vaporization (\( \Delta_{vap}S \)) of the organic compound, we can use the relationship between enthalpy of vaporization (\( \Delta_{vap}H \)) and entropy of vaporization at the boiling point. The formula is given by: \[ \Delta_{vap}S = \frac{\Delta_{vap}H}{T} \] Where: - \( \Delta_{vap}H \) is the enthalpy of vaporization in joules per mole, ...
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CENGAGE CHEMISTRY ENGLISH-THERMODYNAMICS-Exercises (Subjective)
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  2. Calculate the resonance enegry of NO(2) ( :O-N=O: ) The measured ent...

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  3. Boiling point of an organic compound is 310K. Its enthalpy of vaporisa...

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  4. Predict whether the following reaction is possible or not at 300k. 2...

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  6. Calculate the entropy change for the following reaction H(2)(g) +CI(...

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  8. Find the heat of formation of ethyl alcohol for following data C(s) ...

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  10. The enthalpies of combustion of carbon and carbon monoxide in excess o...

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  16. The heat of combustion at constant volume at 27^(@)C of benzene and ac...

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  17. Calculate Delta(f)H^(Theta) ICI(g) from the data DeltaH dissociatio...

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  18. Calculate heat of dissociation for acetic acid from the following data...

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  19. Delta(f)H^(Theta) per mole of NH(3)(g). NO(g), and H(2)O(l) are -11.04...

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  20. From the following data, calculate the standard enthalpy of formation ...

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