Download Absolute zero temperature 2.20-1, 3.5 Adiabatic process 6.19

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
Document related concepts
no text concepts found
Transcript 
Index
Absolute zero temperature
Adiabatic process
Avogadro's number
Black body
Boltzmann constant
Boltzmann factor
Boundary work
Calorie
Carnot cycle
Carnot cycle efficiency
Carnot cycle with an ideal gas
Clausius-Clapeyron equation
Closed system
Coefficient of linear expansion
Coefficient of performance (heat pumps)
Coefficient of performance (refrigerator)
Coexistence curve
Collision frequency
Compressed liquid
Compression ratio
Conduction
Constants
Convection
Conversion Factors
Cosh
Critical point
Cycle
Degrees of freedom
Density
Diffusion (ideal gas)
Diffusivity
Efficiency of a cycle
Energy conservation principle
Enthalpy
Entropy
Entropy changes (irreversible process)
Entropy changes (reversible isothermal
process)
Entropy changes (reversible process)
Equipartition theorem
Evaporative cooling
2.20-1, 3.5
6.19
1.7, 4.7
5.17-22, 5.28
2.15, App C
3.4-5, 10.1, 11.2
5.2-9, 6.22
6.10-11
8.6-9, 8.13
8.8
8.9-13
7.9-10
1.2
4.5
8.18, 9.20
8.16-17, 9.20
4.2, 7.12
10.10
4.20
9.9
5.11-16, 10.18-21
App C
5.17
App C
App B
4.2
8.1
3.7, 4.10
1.4-5, 1.7 (table)
10.12-18
10.19
8.6
2.1
5.10-11, 6.8-9, 9.11-12
2.10-18, 4.17, 6.12-13, 11.9-11
6.24-25
6.5
6.5, 6.16-19
3.6-9
7.16-18
Exact differential
Extensive variable
External combustion engine
(see also Stirling cycle, Rankine cycle)
Ferromagnetic mean field theory
Ferromagnetic system
First law of thermodynamics
Fluid
Fluid properties
Free energy (Gibbs)
Free energy (Helmholtz)
Fundamental assumption of statistical
mechanics
Gamma (γ)
Gas properties
Gaussian integrals
Heat
Heat engine
Heat pumps
Hydrostatic system
Hyperbolic functions
Ideal cycle
Ideal Gas Law
Ideal gas properties
Inexact differential
Intensive variable
Internal combustion engine
(see also Otto cycle)
Internal energy
Interpolation
Irreversible process
Isentropic ideal gas process
Isentropic magnetic field reduction
(magnetic cooling)
Isentropic process
Ising model
Isobaric process
Isochoric process
Isolated system
Isothermal boundary work
(ideal gas)
Isothermal boundary work
(solids & liquids)
Isothermal compressibility
Isothermal process
2.19
1.3
9.1
11.14-17
11.1, 11.14-20
2.18, 2.21, 5.1
4.1
App D
6.13, 7.2, 7.5-9
6.12-13
3.3
6.21
App D
App A
2.18-20, 5.10-26
8.1
8.17-19
4.1
App B
8.6
3.11, 4.7-9, 4.12-13
5.5-8, 6.8-9, 6.17-18, 6.21-24
2.19, 5.4
1.3
9.1
2.3-4
4.26-29
6.2-5, 6.24-27
6.21-24, 6.29
11.11-12
6.19
2.25, 11.17-20
5.5
5.5, 9.1
6.1
5.5-6
5.8-9, 5.32
4.5-6, 4.31
5.5
Kinetic theory
Kirchoff’s Law
Latent heat
Law of corresponding states
Magnetic potential energy
Maxwell relations
Mean field theory
Mean free path
Mole
Negative temperature
Otto cycle
Paramagnetic atom, properties
Paramagnetic atoms, non-interacting
Paramagnetic system
Partial pressure
Phase change, transition
Phase plot
Phase transition, first order
Phase transition, second order
Photon gas
Physical Constants
Pressure
Pressure (gas)
Process, thermodynamic
Quality
Quasistatic process
R-134a
Radiation, heat flow by
Rankine cycle
Rankine scale
Refrigeration cycles
Regenerator
Relative humidity
Reversible process
RMS speed
Saturation
Second law of thermodynamics
Significant figures
Sinh
Specific heat
Specific volume
Specific volume (molar)
Speed distribution, ideal gas
State of a system (definition)
State, accessible
1.11-14
5.23
7.1-2, 7.12-13, 7.16-17
7.19
11.1-2
6.14-15
11.14-17
10.11
1.7, 4.7
11.12-14
9.6-10, 9.24
11.2-6
11.7-11, 11.21-22
11.1
4.13
7.1-3
4.2
7.2
7.2, 11.17-20
5.18
App C
1.8ff, 6.13
1.10-14
5.1
4.16
5.3
4.6, 4.31, 4.33, AppD.3
5.23-24
9.10-15
3.13
8.15-17
9.1
4.31
6.2-3
1.14, 3.10
4.15
2.10-11, 2.21, 6.1
1.15-17
App B
6.6-10
1.6, 1.7 (table), 4.17
1.7
10.1-5
1.3
2.10
State, microscopic
Stirling cycle
Swamp cooler
System
Tanh
Temperature
Temperature conversions
Temperature, absolute zero
Temperature, infinite
Thermal conductivity
Thermal energy
Thermal equilibrium
Thermal reservoir
Thermal resistance
Thermal transmittance
Third law of thermodynamics
Throttling
Triple point
Van der Waals model
Vapor compression refrigeration cycle
Virial expansion
Viscosity
Volume expansivity
Water, properties
Wind chill index
Windows
Work
Work by a compressor
Work during a cycle
Work on a turbine
Work, boundary
Working fluid
Zeroth law of thermodynamics
8/5/03 8/10/04
7/11/05 7/26/06
2.7
9.1-6
7.17
1.1
App B
2.15, 3.5-6
3.12-13
2.20, 3.5
3.6
5.12-13, 5.14 (table), 10.18-21
2.4, 4.9-10
2.13
3.1
5.14-16
5.25-26
2.21-22
9.18-19, 9.25
3.12, 4.2
4.21-25, 4.32, 7.5-9
9.17-20
4.25-26
10.21-24
4.4, 4.31
1.6, 4.5, 4.37, 6.29, 7.12-13,
App D-G
3.15-16
5.24-26
2.1-2
9.12
8.1-4
9.12
See “boundary work”
8.1
2.17, 2.21
8/4/08
Related documents