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Question

Consider a spherical shell of radius R at temperature T. The black body radiation inside it can be considered as an ideal gas of photons with internal energy per unit volume u=UVT4 and pressure P=13(UV). If the shell now undergoes an adiabatic expansion the relation between T and R is:

A
T1R
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B
T1R3
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C
T eR
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D
Te3R
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Solution

The correct option is A T1R
Since the ideal gas is taken in the spherical ball, so we can use PV=nRT
According to the given data
P=13(UV)...(i)
and
u=UVT4
UV=kT4, where k is proportionality constant.
U=kVT4...(ii)
Using equation (i) and (ii)
P=13(kVT4V)
P=13kT4...(iii)
Since the given process is adiabatic
dU=w
=dU=PdV
Using equation (ii) and (iii)
=d(kVT4)=13kT4dV
=4kVT3dT+kT4dV=13kT4dV
=4kVT3dT=43kT4dV
=VdT=13TdV
=dTT=13VdV
Integrating both side :
=lnT=13lnV
TV13= constant....(iv)
Volume of sphere (V) is 43πR3.....(v)
Using equation (iv) and (v) we get
TR= constant
T1R


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