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Summary Physics B - Classical Thermodynamics, 2008 Notes $2.60   Add to cart

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Summary Physics B - Classical Thermodynamics, 2008 Notes

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University of Cambridge - Part IB Natural Sciences Physics B: notes on thermodynamics and partial notes on dynamics (which cover some trickier points).

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  • May 6, 2023
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Physics Revision Notes – Thermodynamics Page 1 of 34



Classical Thermodynamics

Ideal gases
 Assumptions
o Identical particles in random motion.
o Small solid spheres – occupy negligible volume.
o Elastic collisions.
o No long range forces – only forces during collisions  only
energy is KE, ½mv2 per particle.
 Results
o Pressure is given by p = 13 nm v 2 .
o Flux is given by J = 14 n v .
 The Maxwell-Boltzmann Distribution
4pv 2 exp (-mv 2 /2kT )
3/2
o P (v ) = ( 2pmkT )
o This gives
8kT
v =
pm
3kT
v2 =
m
 Energy…
o U = 23 RT = 23 N AkT


Definitions
 A system is in Thermal Equilibrium when all its macroscopic
observables have ceased to change with time.
 A function of state is any physics quantity that has a well-defined
value for each equilibrium state of the system. They are represented by
exact differentials.
 Functions of state can be either
o Extensive (proportional to system size) – eg: volume.
o Intensive (independent of system size) – eg: pressure.
o Intensive and extensive variables form conjugate pairs, the
product of which is energy.


© Daniel Guetta, 2008

, Physics Revision Notes – Thermodynamics Page 2 of 34


 The heat capacity is the amount of heat we need to supply to raise the
temperature by dT. This can be measured at constant volume or at
constant pressure, so
æ dQ ÷ö æ dQ ö÷
CV = çç C p = çç
è dT ÷÷øV è dT ÷÷øp
 For an ideal gas
pV = nRT
 Stirling’s Approximation

ln N ! » N ln N - N


The First Law
 The First Law of Thermodynamics states that
Energy is conserved, and heat and work
are both forms of energy
DU = DQ + DW
 Convention:
DQ and DW are POSITIVE when
energy is given TO the system
 For a differential change
d U = d Q + dW
 The work done compressing a gas is given by
dW = -pdV
And so for a gas, the first law can be written
dU = dQ - p dV


Heat Capacities
 In general, the internal energy will be a function of temperature and
volume, so
æ ¶U ö÷ æ ¶U ö÷
dU = ççç ÷÷ dT + ççç ÷ dV
è ¶T øV è ¶V ÷øT
 Using the form of the first law for a gas, above, we can write
d Q = d U + p dV
æ ¶U ö÷ éæ ¶U ö ù
dQ = ççç ÷÷ dT + êêççç ÷÷÷ + p úú dV
è ¶T øV ëè ¶V øT û


© Daniel Guetta, 2008

, Physics Revision Notes – Thermodynamics Page 3 of 34


And dividing by dT:
dQ æç ¶U ö÷ éæ ¶U ö ù
= çç ÷÷ + êêççç ÷÷ + p ú dV
dT è ¶T øV ëè ¶V ø÷T ûú dT
 By taking the equation above at constant volume and constant
pressure (only the dV/dT term will matter), we obtain
æ ¶U ö÷
CV = ççç ÷
è ¶T ø÷V
éæ ¶U ö ù
C p = CV + êççç ÷ + p ú ççæ ¶V ÷÷ö
÷
êëè ¶V ÷øT ç ÷
ûú è ¶T øp
 For an ideal gas:
C p = CV + R
 We define
Cp
g=
CV


Reversibility
 A change is reversible if an infinitesimal change in external conditions
would reverse the direction of the change.
 Reversible changes are typically very slow and quasi-static.
 They are also frictionless – no viscosity, turbulence, etc…


Isothermal expansions
 When an expansion is isothermal, the temperature of the system does
not change. Therefore, the internal energy of the system does not
change, and
d W = - dQ
 Therefore, when a gas is expanded isothermally from V1 to V2 at a
temperature T, the heat absorbed by the gas is given by
DQ = ò dQ

= -ò dW
V2
= ò
V1
p dV

=RT /V
V2 1
= RT ò dV
V1 V


© Daniel Guetta, 2008

, Physics Revision Notes – Thermodynamics Page 4 of 34


V2
DQ = RT ln
V1
 An adiabatic process is both adiathermal (no flow of heat) and
reversible, so
dQ = 0
And

dU = dW
However, for an ideal gas
dU = CV dT
Therefore
CV dT = dW
CV dT = -p dV
RT
CV dT = - dV
V
dT R dV
=-
T CV V
Obvious from
def n of g
dT  dV
= (1 - g )
T V
TV g -1 = constant
Other versions can easily be generated using pV µ T .


The Second Law
 The Second Law of Thermodynamics can be stated in two different
ways
The Clausius Formulation
No process is possible whose sole result is
the transfer of heat from a hotter to a cooler
body.

The Kelvin Formulation
No process is possible whose sole result is
the complete conversion of heat into work.
 The equivalence of these two formulations can be shown in two steps
o Violating Kelvin  Violating Clausius



© Daniel Guetta, 2008

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