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According to kinetic theory of gases in...

According to kinetic theory of gases in an ideal gas between two successive collisions a gas molecule travles .

A

In a straight line path

B

With an accelerated velocity

C

In a circular path

D

In a wavy path

Text Solution

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The correct Answer is:
A
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Knowledge Check

  • According to kinetic theory of gases in an ideal gas between two successive collisions a gas molecule travels:

    A
    in a straight line path
    B
    with an accelerated velocity
    C
    in a circular path
    D
    in a way path
  • According to the kinetic theory of gases, in an ideal gas, between two successive collisions a gas molecule travels

    A
    in a circular path
    B
    in a wave path
    C
    in a straight line path
    D
    with an accelerated velocity
  • According to the kinetic theory of gases,

    A
    the pressure exerted by a gas is proportional to mean square velocity of the molecules
    B
    the pressure exerted by the gas is proportional to the root mean square velocity of the molecules
    C
    the root mean square velocity is inversely proportional to the temperature
    D
    the mean translational K.E. of the molecule is directly proportional to the absolute temperature
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