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Question

The root means square (R.M.S.) Speed V of the molecules of an ideal gas is given by the expressions, v = √ (3RT/M) and v = √ (3KT/m) where R is universal gas constant, T is the absolute (Kelvin) temperature M is the molar mass, K is Boltzman's constant and M is the molecular mass. The R.M.S. speed of oxygen molecules (O2) at temperature T1 is V1. When the temperature is doubled, if the oxygen molecules are dissociated into atomic oxygen, what will be the R.M.S. speed of oxygen atoms? (Treat the gas as ideal).


A

v1/2

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B

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C

v1

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D

2v1

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Solution

The correct option is

C 2v1

We have V1 = √ (3RT1/M) or

V1 = √ (3kT1/m)

on dissociation the molar mass as well as the molecular mass gets halved. Using the second equation, the R.M.S. speed V after dissociation is given by

V = √[3k x 2T1/(m/2)] = 2 √ (3kT1/m) = 2V1


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