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Calculate the work done in calories when...

Calculate the work done in calories when 5 moles of an ideal gas are compressed isothermally and reversibly from a pressure of 1.5 atm to 15 atm at `27^@C`.

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To calculate the work done during the isothermal and reversible compression of an ideal gas, we can use the formula for work done in an isothermal process: \[ W = -nRT \ln \left( \frac{P_2}{P_1} \right) \] Where: - \( W \) = work done (in calories) ...
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ICSE-CHEMICAL THERMODYNAMICS -REVIEW EXERCISES
  1. 400 cm^3 of a gas are compressed to half of its volume by applying a p...

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  2. Calculate the work done (w) and internal energy change (DeltaU), when ...

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  3. Calculate the work done in calories when 5 moles of an ideal gas are c...

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  4. In a reaction 2.5KJ of heat is released from the system and 5.5 KJ of ...

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  5. Define specific heat capacity and molar heat capacity of a substance.

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  6. Prove that Cp - Cv = R.

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  7. What do you understand by Cp and Cv ?

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  8. Establish a relationship between Cv and Cp?

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  9. Define the term 'entropy'. How does TDeltaS determine the spontaneity ...

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  10. What is meant by the term 'free energy'? What was the necessity of int...

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  11. State the second law of thermodynamics. Predict the sign of DeltaS in ...

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  12. State and explain the second law of thermodynamics. Mention the essent...

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  13. What inferences do you draw on the basis of the values of Gibbs free e...

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  14. The enthalpy change for the transition of liquid water to steam Delta(...

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  15. At 373 K, the entropy change for the transition of liquid water to ste...

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  16. For the chemical equilibrium PCl(5)(g) hArr PCl(3)(g) +Cl(2) (g) " a...

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  17. For a reaction, K = 1.958 xx 10^(-4) at 400 K, what is the value of De...

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  18. Calculate DeltaG^@ for the reaction 2HCl (g) + F2(g) to 2HF (g) + Cl...

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  19. Calculate the equilibrium constant for the following reaction at 298 K...

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  20. Calculate the equilibrium constant for the following reaction at 298 K...

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