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Staff of Research and Education Association — The Thermodynamics Problem Solver: A Complete Solution Guide to Any Textbook
Staff of Research and Education Association — The Thermodynamics Problem Solver: A Complete Solution Guide to Any Textbook



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Название: The Thermodynamics Problem Solver: A Complete Solution Guide to Any Textbook

Автор: Staff of Research and Education Association

Аннотация:

Students have generally found thermodynamics a difficult subject to understand and learn. Despite the publication of hundreds of textbooks in this field, each one intended to provide an improvement over previous textbooks, students continue to remain perplexed as a result of the numerous conditions that must often be remembered and correlated in solving a problem. Various possible interpretations of terms used in thermodynamics have also contributed to much of the difficulties experienced by students.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 7th Printing

Год издания: 1998

Количество страниц: 979

Добавлена в каталог: 27.09.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Absorptivity      13-33
Activity      11-56
Adiabatic compressibility      6-25
Adiabatic flame temperature      11-21 to 11-23
Adiabatic humidifying      10-31
Adiabatic process      4-9 4-26 4-36 4-37 4-39 7-3 7-7 7-11 7-21 9-23 10-29
Adiabatic system      3-16 3-17 4-5 4-7
Adiabatic wall      3-15
Air cycle      9-1
Air fuel ratio      11-1 11-3 11-6 11-7 11-9
Air tables      9-9 9-15 9-17 9-32
Ammonia      1-20
Ammonia cycle      8-19
Availability for a particular process      5-16
Bell — Coleman cycle      9-33
Berthelot equation of state      6-39 7-29
Biot number      13-10 13-17
Boltzmann — Planck relation      11-36 11-37
Boyle temperature      6-31 6-34
Brayton cycle      9-20 9-21 9-30
Carnot cycle      4-24 9-3
Carnot cycle efficiency      8-3
Carnot engine      4-1 8-17
Carnot refrigerator      4-2 8-19
Carrier equation      10-22
Cascade refrigerator      8-19 8-28
Celsius temperature scale      1-5 to 1-7
Clausius — Clapeyron equation      6-4 to 6-10 11-44
Closed system      4-9 4-22 10-13
Coefficient of performance      8-19 8-20 8-22 8-25 8-26
Combined cycles      8-12 8-13
Combustion reaction      11-1 11-4 11-24 11-25 11-53
Compressed region      1-18 1-20
Compressibility      11-33
Compressibility factor      1-9 3-5 6-26 6-28 6-40
Compressible gas flow      13-26
Compression process      3-32 4-26
Compression ratio      7-11 9-3 9-7 9-15
Compression stroke      3-6
Compression, adiabatic      4-34 7-7 7-9
Conduction, heat transfer      13-9 13-11 13-12
Conduction, shape factor      13-7
Conductivity      13-1
Conservation of mass      3-29 3-43 8-7
Constant pressure process      4-9 4-12 7-7 7-9 11-24 11-36
Constant volume process      4-9 4-13 4-23 4-24
Continuity equation      4-26 4-36 10-30 10-34 12-2
Control volume analysis      3-30 3-43 3-50 4-21 4-27 7-9
Convective heat transfer      13-10 13-13 13-14 13-16
Cooling capacity      8-23
Critical point      6-34
Cut off ratio      9-13 9-14 9-17 9-18
Cycle comparison      8-13
Dalton's law of additive pressure      10-3 10-5 10-17
Decomposition of chlorine      11-29
density      1-3 10-22
Determination of the state of a substance      1-18 1-19
Dew point      10-14 10-15 11-2 11-7
Dew point temperature      10-15 10-16 10-19 10-32 10-33 11-4
Diesel cycle      9-12 to 9-15
Dieterici equation of state      6-37
Discharge coefficient      11-47 12-13
Dissociation reaction, extent of      11-50 11-55 11-57
Dittus — Boelter correlation      13-23
Drag force      13-21
Dry bulb temperature      10-16 10-22 10-25 10-27 10-32 10-33
Dual cycle      8-27 8-28 9-16
Effective solar beam radiation      13-34
Efficiency of compressor      5-7 8-18 8-24
Efficiency of cycles      8-1 to 8-13 9-22
Efficiency of nozzles      12-6 12-7 12-13 12-16 12-17
Efficiency of Rankine cycle      8-1 to 8-3
Efficiency of regenerative cycle      8-6 to 8-8
Efficiency of reheat cycle      8-4 8-5
Efficiency of turbine      5-22 8-18
Efficiency, adiabatic      4-30 4-31 4-33 9-5 9-34 9-35
Efficiency, internal      8-14 8-18 12-14
Efficiency, isentropic      4-36 8-3 9-32
Efficiency, volumetric      9-25 to 9-27
Emmisivity      13-16 13-29 13-30 13-33 13-38
Emmisivity, average      13-30
Emmisivity, effective      13-30
Energy of bonds      11-11 11-13
Energy, absorption      11-29 973
Energy, available      5-15 5-19 5-22 5-25
Energy, balance      3-37 4-23 4-34 7-5 7-8 7-9 8-8 10-35 11-22 11-23 12-17 13-25
Energy, kinetic      4-20 4-28 4-31 4-34 4-35 7-8 7-9 7-31
Energy, potential      4-4 4-20 4-28 4-31 4-34 4-35 7-8 7-9 7-20 7-31
Energy, unavailable      5-20 to 5-23 5-25
Enthalpy of formation      11-21
Enthalpy of fusion      6-9 11-38
Enthalpy of mixtures      10-22 10-30
Enthalpy of real gases      6-16
Enthalpy of vaporization      6-8
Enthalpy, change      3-20 4-26 4-29 4-34 4-36 4-39 9-4 10-8 10-25 10-29 10-33 11-8 11-11 11-20 11-22 11-27 11-39
Enthalpy, change of ideal gases      3-24 3-27
Enthalpy, correction chart      7-18 7-19 7-23
Enthalpy, relations      6-13 6-14 10-32
Entropy for ideal gases      6-16
Entropy, absolute      6-11 11-28
Entropy, change      4-4 to 4-18 4-21 4-29 4-36 7-1 7-6 7-9 10-8 10-10 10-11 10-23 11-28 11-34 11-36
Entropy, correction chart      7-27
Entropy, datum state      10-8 10-10
Entropy, increase      5-21
Entropy, relations      6-13 to 6-15 10-11 10-23
Equation of state      6-40 7-8 7-9 9-23
Equilibrium      1-21 4-20 11-40
Equilibrium, constant      11-49 11-58 11-59
Exothermic reaction      11-18
Expansion, adiabatic      4-38 4-39 7-10
Expansion, coefficient of      4-6 6-36 11-33
Expansion, reversible      4-38 4-39 7-5 7-10
Expansion, valve      5-6
Fahrenheit temperature scale      1-5 to 1-7
Faraday constant      11-26
First law of thermodynamics      4-1 to 4-3 4-16 4-20 4-22 4-23 4-26 4-27 4-31 4-33 4-36 4-37 4-39 4-40 6-25 7-1 7-11 7-23 7-31 10-13 10-34 11-5
First law of thermodynamics, closed systems      3-13 to 3-15
First law of thermodynamics, ideal gases      3-15 3-19 3-22 3-23 3-25 3-40 3-44
First law of thermodynamics, open systems      3-45 3-48
First law of thermodynamics, steady-state steady-flow systems      3-30 to 3-36 3-39 3-41 4-12
First law of thermodynamics, uniform-state uniform-flow systems      3-46 3-47 3-50 3-51 3-53 3-54
Flame temperature      11-19
Forced convective heat transfer coefficient      13-25
Free energy of formation      11-43 11-54 11-55
Friction factor      13-23
Fugacity      7-28 7-30 7-31
Fusion reaction      11-45
Galerkin method      13-4
Gas constant      1-10 1-14
Gas mining, probability      11-36
Gauge pressure      1-1 1-15
Generalized compressibility factor chart      7-13 7-16 7-22 10-4
Generalized enthalpy correction chart      7-18 7-20 7-24
Generalized entropy correction chart      7-24 7-25
Gibbs free energy      11-40
Gibbs functions      6-2 6-3 7-31 11-40
Gibbs — Dalton law      10-22
Grashoff number      13-14 13-16 13-18
Grey body radiation      13-27
Heat      4-3 4-7 4-13 4-23
Heat balance equation      11-8 13-22
heat capacity      6-19 6-20 10-10 10-23 11-18 11-19 11-25 11-30 11-39 11-62 11-65
heat engine      4-7 4-24 4-25
Heat flow      13-1 13-3 13-5
Heat loss      4-8
Heat of combustion      11-19 11-22
Heat of dilution      11-14
Heat of formation      11-10 11-12 11-13 11-18 11-19 11-27 11-32
Heat of reaction      11-10 11-12 11-25 11-27 11-64
Heat of solution      11-14
Heat of sublimation      11-13
Heat of vaporization      11 -15 11-32
Heat transfer      4-3 4-35
Heat transfer at constant pressure      3-3 3-7 3-10 3-21
Heat transfer at constant volume      3-2 3-5 3-9
Heat transfer coefficient      13-21
Heat transfer for isolated systems      11-29
Heat transfer laminar boundary layer      13-20
Heat transfer rate      13-7
Heat transfer, adiabatic      10-28
Heat work      3-15
Hess law      11-27 11-39
Histogram distribution      14-1
Hooke's equation of state      6-41
Humidity, ratio      10-15 10-21 10-29 10-33
Humidity, relative      10-15 10-16 10-22 10-24 10-32
Humidity, specific      10-14 10-16 10-22 10-24 10-28 10-29 10-31 10-32
Hydraulic diameter      13-25
Ideal gas      4-9 to 4-18 4-22 4-23 4-27 4-33 4-35 4-38 4-39
Ideal gas, approximation      3-5
Ideal gas, behavior      1-8 to 1-11 1-19
Ideal gas, equation of state      1-10 1-12 4-9 4-10 4-33 4-38 4-39 6-22 6-33 7-3 7-5 7-9 9-7 9-8 9-14 9-18 9-19 10-2 10-3 10-6 10-17 10-18
Ideal gas, process      1-12 7-1
Ideal gas, relations      9-1 9-12 9-19 10-4 10-5 10-13
Impulse stage of a turbine      12-16 12-17
Incompressible substance      3-33 4-30
Internal energy      3-1 3-4 4-15 4-32 4-39 7-5 7-6 10-8 10-10 11-49
Internal energy, relations      6-14 6-17 6-18
Internal energy, specific      4-37 4-40 7-2
Irradiance      13-33
Irradiation      13-28
Irreversibility      5-6 to 5-13
Irreversibility for adiabatic mixing process      5-12
Irreversibility for ideal gases      5-10
Irreversibility for particular processes      5-8 5-9 5-11
Irreversible process      3-47 4-5 4-9 4-14 4-18 4-33 4-34 4-36 7-6 7-7
Isentropic compression      4-33 8-18 9-3 9-5 9-6 9-8 9-10 9-14 9-17 9-34
Isentropic expansion      4-32 7-3 9-2 9-8 9-18 9-22 10-11 12-11 12-12 12-16 12-19
Isentropic process      4-26 4-33 4-36 7-3 7-9 8-7 8-18 9-7 9-8 9-12 9-24 12-3 12-14
Isentropic relations      4-27 4-38 4-39 10-23
Isobaric process      4-22 7-4 7-19
Isobaric process, reversible      7-4
Isothermal compressibility coefficient      6-36
Isothermal compressibility factor      6-3
Isothermal compression      4-19
Isothermal expansion      4-17 to 4-19
Isothermal process      4-6 7-5 7-7 7-18 9-3 9-23
Isothermal reversible process      3-47 4-17 7-5 7-6
Joule — Thomson coefficient      6-22 6-23
Joule's experiment      3-16
Kantorovitch profile      13-9
Kelvin temperature scale      1-5 to 1-7
Kirchoff equation      11-40
Latent heat of fusion      4-5 6-5 11-17 11-18 11-42
Latent heat of vaporization      11-44
Law of additive pressures      10-4
Law of additive volumes      10-4
Le Chatelierfs principle      11-55
Lewis — Randall behavior      11-59
Linear sensitivity law      13-8
Lumped parameter analysis      13-10
Mach number      12-2 12-10 12-11
Manometer      1-2
Mass flow rate      4-35 4-36 8-27 10-2 10-30
Maxwell relations      6-1 6-15 6-17 6-22
Mean effective pressure      9-3 9-7 9-8 9-12 9-14 9-16 9-19
Mercury-steam power plant      8-15
Mixing process      3-13
Molar volume relation      6-29 10-4
Mole fractions      10-2 10-3 10-12 10-23 11-2 11-7 11-9 11-14 11-36
Mole fractions of vapors      10-20 11-4
Mole fractions, relations      10-1 10-3 10-19
Molecular weight      10-3 10-7 10-12
Molecular weight, average      10-1
Mollier diagram      12-21
Newton's law      1-4
Non-flow process      3-28
Nozzle flow      3-43 12-19
Nusselt number      13-13 13-14 13-16 13-18 13-25
Open system      4-9
Otto cycle      9-7 to 9-11
Overall heat transfer coefficient      13-1 13-25
Oxygen      1-12 1-17
Partial pressure      3-30 10-1 10-2 10-6 11-2 11-7 11-23 13-20
Partial pressure of vapors      10-19 10-20
Partial pressure ratio      10-11
Partial pressure relation      10-14
Partial volume      10-1 10-5
Performance coefficient      9-33 9-34
Phase change of a substance      6-4
Piston-cylinder arrangement      3-10 3-11 3-23 3-26 3-28 5-23
Poly tropic process      3-40 3-47 4-10 4-11 7-1 7-2 9-23
Power      3-31 3-33 3-40 8-2
Power maximum      5-5
Power minimum      5-2
Prandtl number      13-16 13-18 13-19 13-25
Pressure      1-1 to 1-4 1-8 1-15
Pressure of air vapor mixture      10-18
Pressure of saturation      1-8 1-19 1-24 4-6 6-7 10-18
Pressure, absolute      1-1 1-13
Pressure, coefficient of diffusor      9-32
Pressure, critical      1-9 12-13 12-19 12-20
Pressure, reduced      1-9 7-10 7-16 7-22
Pressure, total      10-2 10-3
Properties of pure substances      1-20 to 1-24 13-14
Psychrometric chart      10-25 to 10-33 11-20
Quality, determination of      1-18 1-20 9-4 9-5 12-21
Radiation heat transfer      13-27 to 13-38
Radiation, intensity      13-28
Radiation, shape factor      13-31 13-38
Radiocity      13-36
Rankine cycle      8-1 to 8-3
Rankine temperature scale      1-7
Raoult's law      10-7
Rate of heat addition      10-12
Rate of heat generation      13-18
Rate of heat transfer      13-23
Rayleigh number      13-16
Real gas      1-9 7-10
Reciprocity theorem      13-36 13-37
Redlich — Kwong equation of, state      6-33
Regenerative cycle      8-6 to 8-9
Reheat cycle      8-4 8-5
Reheat factor      12-14
Relative humidity      10-28
Resonance energy      11-11
Reversible adiabatic process      3-38 4-7 4-40 5-10 7-11 7-12 8-17 9-21 9-23
Reversible cycle      4-3 4-7
Reversible engine      4-7
Reversible process      3-28 3-49 4-7 4-9 4-11 4-14 4-19 4-27 4-31 4-34 7-6 7-7
Reynold's number      13-19 to 13-22 13-24
Ritz profile      13-9
Saturated liquid      1-18
Saturated vapor      1-18
Second law of thermodynamics      4-1 to 4-43 7-26
Semi-infinite medium      13-2 13-7
Shape factor      13-3 13-32 13-37
Solar heat transfer      13-34
Specific heat      4-5 4-8 4-10 4-14 4-22 4-23 4-35 4-39 7-3 7-4 7-9 7-10
Specific heat at constant pressure      9-1 10-8 10-9 10-10 10-12
Specific heat at constant volume      10-8 to 10-10
Specific heat equation      3-20 to 3-22
Specific heat relations      6-20 6-21 6-24
Spontaneous reaction      11-43
States of substances      1-8 1-9 1-18 1-19 11-34
Steady-state heat conduction      13-4
Steady-state steady-flow process      3-31 to 3-44 4-27 7-8 7-9 7-21 7-25 10-12
Steady-state temperature distribution      13-6
Steam tables      1-9 1-18 1-19 1-22 12-1 12-4 12-16
Stefan — Boltzmann constant      13-16 13-28 13-30
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