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Calculate the values of sigma, l (mean f...

Calculate the values of `sigma`, `l` (mean free path),`Z_(1)` and `Z_(11)` for oxygen at `300 K` at a pressure of `1 atm`. Given `b=3.183xx10^(-2) dm^(3)mol^(-1)`.

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Number of molecules per unit volume
`N^(*)=(P)/(kT)`, where `k=` Boltzmann constant
`:. N^(*)=(1 atm)/((1.38xx10^(-23)JK^(-1))(300K))`
`=0.241xx10^(22)m^(-3)`
`=2.41xx10^(22)m^(-3)`
The van der Waals constant is
`b=4N_(A)((4)/(3)pir^(3))`
`:. r=((3b)/(16 pi N_(A)))^(1//3)`
`=((3xx3.183xx10^(-2)dm^(3) mol^(-1))/(16xx3.14xx6.023xx10^(23)mol^(-1)))^(1//3)`
`=1.467xx10^(-9)dm`
Therefore,
`sigma` (collision diameter)`=2r`
`=2xx1.467xx10^(-9) dm`
`=2.934xx10^(-10)m`
Average speed
`u_(av)=swrt((8RT)/(pi M))`
`={(8(8.314JK^(-1)mol^(-1))(300 K))/((3.14)(0.032 kg mol^(-1)))}^(1//2)`
`=445.6 m s^(-1)`
Mean free path
`l=(1)/(sqrt(2)pi sigma^(2)N^(*))`
`=(1)/((1.414)(3.14)(2.934xx10^(-10)m)^(2)(241xx10^(23)m^(-3)))`
`=3.18xx10^(-7)m`
`Z_(1)=sqrt(2)pi sigma^(2)u_(av)N^(*)`
`=(1.414)(3.14)(2.934xx10^(-10)m)^(2)(445.6 m s^(-1))xx(241.0xx10^(23)m^(-3))`
`=1.397xx10^(9)s^(-1)`
`Z_(11)=(1)/(2)Z_(1)N^(*)`
`=(1)/(2)(1.397xx10^(9)s^(-1))(241.0xx10^(23)m^(-3))`
`=1.68xx10^(34)m^(-3)s^(-1)`
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CENGAGE CHEMISTRY-STATES OF MATTER-Exercises (Ture False)
  1. Calculate the values of sigma, l (mean free path),Z(1) and Z(11) for o...

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  2. In the van der Waals equation (P + (n^(2)a)/(V^(2)))(V - nb) = nRT ...

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  3. Kinetic energy of a molecule is zero at 0^(@)C

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  4. A gas in a closed container will exert much higher pressure due to gra...

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  5. The graph between PV vs P at constant temperature is linear parallel t...

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  6. Real gases show deviation from ideal behaviour at low temperature and ...

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  7. In the microscopic model of the gas, all the moleculer are supposed to...

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  8. For real gases, at high temperature Z = 0 small value of a means gas...

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  9. Small value of a means, gas can be easily liqueifed.

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  10. Rate of diffusion is directly proportional to the square root of molec...

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  11. For ideal gases, Z = 1 at all temperature and pressure.

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  12. According to charles's law,

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  13. The pressure of moist gas is higher than pressure of dry gas.

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  14. Gases do not occupy volume and do not have force of attraction.

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  15. The van der Waal equation of gas is (P + (n^(2)a)/(V^(2))) (V - nb)...

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  16. Surface tension and surface energy have different dimensions.

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  17. The plot of PV vs P at particular temperature is called isovbar.

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  18. Equal volume of all gases always contains equal number of moles.

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  19. A gas with a = 0 cannot be liquified.

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  20. The van der waals constants have same values for all the gases.

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  21. All the molecules in a given sample of gas move with same speed.

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