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Isothermal expansion from state A to B, ...

Isothermal expansion from state `A` to `B`, isochoric pressure increment from `B` to `C`, isothermal contraction from `C` to `D`, isobaric contraction from `D rarr A`.

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Isobaric expansion from A rarr B , isochoric pressure drop from B rarr C , isothermal compression C rarr A .

Isothermal expansion from A rarr B , isochoric pressure increase from B rarr C , isobaric compression from C rarr D , isochoric pressure drop from D rarr A .

Knowledge Check

  • The eye ball protrudes from the orbit with the contraction of

    A
    Retractor bulbi muscles
    B
    Protractor lentis muscles
    C
    Levator bulbi muscle
    D
    None of the above

  • n mole a perfect gas undergoes a cyclic process ABCA (see figure) consisting of the following processes. A to B : Isothermal expansion at temperature T so that the volume is doubled from V_1 to V_2 = 2V_1 and pressure changes from P_1 to P_2 B to C : Isobaric compression at pressure P_2 to initial volume V_1 C to A : Isochoric change leading to change of pressure from P_2 to P_1 . Total work done in the complete cycle ABCA is :

    A
    0
    B
    `nRT (ln2 + 1/2)`
    C
    `nRTln2`
    D
    `nRT (ln2 - 1/2)`

  • What is the equation from of Langmuir isotherm under high pressure ?

    A
    `x/m=a/b`
    B
    `x/m=aP`
    C
    `x/m =(1)/(a.P)`
    D
    `x/m=b/a`

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    An ideal gas undergoes a reversible isothermal expansion from state I to state II followed by a reversible adiabatic expansion from state II to state III. The correct plot(s) representing the changes from state I to state III is(are)

    An ideal monatomic gas expands isobarically from state A to state B. It is then compressed isothermally from state B to state C and finally cooled at constant volume until it returns to its initial state A. How much work is done by the gas in expanding isobarically from A to B?

    An ideal monatomic gas expands isobarically from state A to state B. It is then compressed isothermally from state B to state C and finally cooled at constant volume until it returns to its initial state A. How much work is done on the gas in going from B to C?

    An ideal monatomic gas expands isobarically from state A to state B. It is then compressed isothermally from state B to state C and finally cooled at constant volume until it returns to its initial state A. What is the temperature of the gas when it is in state B?

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