1000 Solved Problems in Modern Physics

(Tina Meador) #1

4.1 Basic Concepts and Formulae 249


Coefficient of diffusion (D)


D=

η
ρ

(4.13)

Clausius Clepeyron equation


dP
dT

=

L

T(ν 2 −ν 1 )

(4.14)

whereν 1 andν 2 are the initial and final specific volumes (volume per unit mass) and
Lis the latent heat.


Vander Waal’s equation


(
P+

a
V^2

)

(V−b)=RT (for one mole of gas) (4.15)

The Stefan-Boltzmann law


E=σT^4 (4.16)

If a blackbody at absolute temperatureTbe surrounded by another blackbody at
absolute temperatureT 0 , the amount of energyElost per second per square metre
of the former is


E=σ(T^4 −T 04 ) (4.17)

whereσ= 5. 67 × 10 −^8 W/m^2 .K^4 is known as Stefan-Boltzmann constant.


Maxwell’s thermodynamic relations


First relation:

(

∂S

∂V

)

T

=

(

∂P

∂T

)

V

(4.18)

Second relation:

(

∂S

∂P

)

T

=−

(

∂V

∂T

)

P

(4.19)

Third relation:

(

∂T

∂V

)

S

=−

(

∂P

∂S

)

V

(4.20)

Fourth relation:

(

∂T

∂P

)

S

=

(

∂V

∂S

)

P

(4.21)
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