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Calculate the volume occupied by 8.8 g o...

Calculate the volume occupied by 8.8 g of `CO_(2)` at `31.1^(@)C` and 1 bar pressure. R = 0.083 bar `LK^(-1)mol^(-1)`.

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We are given that
`M=8.8g `
`T=31.1^(@)C = 31.1 +273K = 304.1K`
`P=1` bar
R = 0.083
We are to calculate the volume occupied by `CO_(2)`.
We know that according to ideal gas equation,
`PV=nRT " or " PV=(m)/(M)RT`
`1 xx V = (8.8)/(44) xx 0.083 xx 304.1`
`V=5.0464" or " V=5.05L`
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OMEGA PUBLICATION-STATES OF MATTER -Multiple Choice Questions (MCQs)
  1. Calculate the volume occupied by 8.8 g of CO(2) at 31.1^(@)C and 1 bar...

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  2. Gas equation PV = nRT is obeyed by

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  3. The root mean square velocity of an ideal gas at constant pressure var...

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  4. A gas will approach ideal behaviour at

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  5. (True/False) The compressibility factor (z) for ideal gases is 1,.

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  6. van der Waal equation is true for :

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  7. The van der Waal's equation of state reduces itself to the ideal gas e...

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  8. When the temperature is raised, the viscosity of the liquid decreases....

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  9. The relationship between coefficient of viscosity of a liquid and temp...

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  10. Which of the following statement(s) is/are correct, if intermolecular ...

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  11. The internal energy of one mole of ideal gas is

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  12. An ideal gas obeying kinetic theory of gases can be liquefied if

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  13. The number of moles of a substance are given by

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  14. According to Boyle's law

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  15. The relation, volume of gas (V) prop no. of moles (n), is

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  16. Which one is correct?

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  17. The unit of R does not depend on

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  18. Dalton's law of partial pressure is related-with

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  19. The spherical shape of liquid drops is due to

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  20. According to Charle's law (here K is constant of proportionality)

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  21. When the universal gas constant (R ) is divided by Avogadro's number (...

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