Hypersonic and high temperature gas dynamics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Reston
AIAA
2006
|
| Ausgabe: | 2. ed. |
| Schriftenreihe: | AIAA education series
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXI, 811 S. graph. Darst. |
| ISBN: | 1563477807 9781563477805 |
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Datensatz im Suchindex
| _version_ | 1804137139672186880 |
|---|---|
| adam_text | Titel: Hypersonic and high temperature gas dynamics
Autor: Anderson, John David
Jahr: 2006
Table of Contents
Preface to the Second Edition............................. xvii
Preface to the First Edition..............................................................xix
Chapter 1. Some Preliminary Thoughts........................................1
1.1 Hypersonic Flight—Some Historical Firsts..............................2
1.2 Hypersonic Flow—Why Is It Important?..................................5
1.3 Hypersonic Flow—What Is It?............................................13
1.4 Fundamental Sources of Aerodynamic Force and
Aerodynamic Heating....................................................23
1.5 Hypersonic Flight Paths: Velocity-Altitude Map......................27
1.6 Summary and Outlook......................................................29
Problems......................................................................31
Part I. Inviscid Hypersonic Flow
Chapter 2. Hypersonic Shock and Expansion-Wave Relations .... 35
2.1 Introduction....................................................................36
2.2 Basic Hypersonic Shock Relations......................................36
2.3 Hypersonic Shock Relations in Terms of the Hypersonic
Similarity Parameter......................................................42
2.4 Hypersonic Expansion-Wave Relations..................................44
2.5 Summary and Comments..................................................47
Problem........................................................................49
Chapter 3. Local Surface Inclination Methods............................51
3.1 Introduction....................................................................52
3.2 Newtonian Flow..............................................................54
3.3 Modified Newtonian Law..................................................61
3.4 Centrifugal Force Corrections to Newtonian Theory................63
3.5 Newtonian Theory—What It Really Means............................70
3.6 Tangent-Wedge Tangent-Cone Methods................................79
3.7 Shock-Expansion Method..................................................83
3.8 Summary and Comments..................................................86
xi
xii
Design Example 3.1......................................................87
Problems....................................................................100
Chapter 4. Hypersonic Inviscid Flowfields: Approximate Methods . 103
4.1 Introduction..................................................................104
4.2 Governing Equations......................................................106
4.3 Mach-Number Independence............................................107
4.4 Hypersonic Small-Disturbance Equations............................Ill
4.5 Hypersonic Similarity......................................................118
4.6 Hypersonic Small-Disturbance Theory: Some Results............129
4.7 Comment on Hypersonic Small-Disturbance Theory..............145
4.8 Hypersonic Equivalence Principle and
Blast-Wave Theory......................................................146
4.9 Thin Shock-Layer Theory................................................167
4.10 Summary and Comments................................................173
Problems....................................................................176
Chapter 5. Hypersonic Inviscid Flowfields: Exact Methods............179
5.1 General Thoughts..........................................................182
5.2 Method of Characteristics................................................184
5.3 Time-Marching Finite Difference Method: Application
to the Hypersonic Blunt-Body Problem............................199
5.4 Correlations for Hypersonic Shock-Wave Shapes..................222
5.5 Shock-Shock Interactions................................................225
5.6 Space-Marching Finite Difference Method:
Additional Solutions of the Euler Equations......................231
5.7 Comments on the State of the Art......................................246
5.8 Summary and Comments................................................247
Design Example 5.1......................................................247
Design Example 5.2: Hypersonic Waveriders—Part 1............250
Problems....................................................................257
Part 2. Viscous Hypersonic Flow
Chapter 6. Viscous Flow: Basic Aspects, Boundary Layer
Results, and Aerodynamic Heating............................261
6.1 Introduction..................................................................262
6.2 Governing Equations for Viscous Flow:
Navier-Stokes Equations..............................................266
6.3 Similarity Parameters and Boundary Conditions....................268
6.4 Boundary-Layer Equations for Hypersonic Flow....................272
6.5 Hypersonic Boundary-Layer Theory: Self-Similar
Solutions..................................................................278
6.6 Nonsimilar Hypersonic Boundary Layers............................315
6.7 Hypersonic Transition....................................................327
xiii
6.8 Hypersonic Turbulent Boundary Layer................................335
6.9 Reference Temperature Method........................................341
6.10 Hypersonic Aerodynamic Heating: Some Comments
and Approximate Results Applied to
Hypersonic Vehicles....................................................346
6.11 Entropy-Layer Effects on Aerodynamic Heating....................353
6.12 Summary and Comments................................................355
Design Example 6.1......................................................358
Design Example 6.2: Hypersonic Waveriders—Part 2............361
Problems....................................................................374
Chapter 7. Hypersonic Viscous Interactions................................375
7.1 Introduction..................................................................376
7.2 Strong and Weak Viscous Interactions: Definition and
Description................................................................380
7.3 Role of x in Hypersonic Viscous Interaction........................382
7.4 Other Viscous Interaction Results......................................389
7.5 Hypersonic Shock-Wave/Boundary-Layer Interactions............395
7.6 Summary and Comments................................................407
Design Example 7.1: Hypersonic Waveriders—Part 3............409
Problems....................................................................413
Chapter 8. Computational-Fluid-Dynamic Solutions of
Hypersonic Viscous Flows ........................................415
8.1 Introduction..................................................................416
8.2 Viscous Shock-Layer Technique........................................418
8.3 Parabolized Navier-Stokes Solutions..................................424
8.4 Full Navier-Stokes Solutions............................................434
8.5 Summary and Comments................................................444
Part 3. High-Temperature Gas Dynamics
Chapter 9. High-Temperature Gas Dynamics:
Some Introductory Considerations............................449
9.1 Importance of High-Temperature Flows..............................450
9.2 Nature of High-Temperature Flows....................................458
9.3 Chemical Effects in Air: The Velocity-Altitude Map..............459
9.4 Summary and Comments................................................461
Chapter 10. Some Aspects of the Thermodynamics of Chemically
Reacting Gases (Classical Physical Chemistry) ............463
10.1 Introduction: Definition of Real Gases and Perfect Gases .... 464
10.2 Various Forms of the Perfect-Gas Equation of State................466
10.3 Various Descriptions of the Composition of a Gas Mixture . . . 472
xiv
10.4 Classification of Gases....................................................474
10.5 First Law of Thermodynamics..........................................478
10.6 Second Law of Thermodynamics......................................481
10.7 Calculation of Entropy....................................................483
10.8 Gibbs Free Energy and the Entropy
Produced by Chemical Nonequilibrium............................485
10.9 Composition of Equilibrium Chemically
Reacting Mixtures: The Equilibrium Constant....................488
10.10 Heat of Reaction............................................................495
10.11 Summary and Comments................................................497
Problems....................................................................499
Chapter 11. Elements of Statistical Thermodynamics ....................501
11.1 Introduction..................................................................502
11.2 Microscopic Description of Gases......................................503
11.3 Counting the Number of Microstates for a Given
Macrostate................................................................512
11.4 Most Probable Macrostate................................................514
11.5 Limiting Case: Boltzmann Distribution................................516
11.6 Evaluation of Thermodynamic Properties in Terms of the
Partition Function........................................................518
11.7 Evaluation of the Partition Function in Terms of T and V ... . 524
11.8 Practical Evaluation of Thermodynamic Properties for a
Single Chemical Species..............................................528
11.9 Calculation of the Equilibrium Constant..............................532
11.10 Chemical Equilibrium—Some Further Comments..................537
11.11 Calculation of the Equilibrium Composition
for High-Temperature Air....................... 538
11.12 Thermodynamic Properties of an Equilibrium
Chemically Reacting Gas....................... 542
11.13 Equilibrium Properties of High-Temperature Air.......... 547
11.14 Summary and Comments........................ 557
Problems.................................. 558
Chapter 12. Elements of Kinetic Theory......................................559
12.1 Introduction..................................................................560
12.2 Perfect-Gas Equation of State (Revisited)............................560
12.3 Collision Frequency and Mean Free Path............................564
12.4 Velocity and Speed Distribution Functions: Mean Velocities . . 567
12.5 Summary and Comments................................................571
Problems....................................................................573
Chapter 13. Chemical and Vibrational Nonequilibrium......... 575
13.1 Introduction................................. 576
XV
13.2 Vibrational Nonequilibrium: The Vibrational
Rate Equation............................................................577
13.3 Chemical Nonequilibrium: The Chemical Rate Equation..........584
13.4 Chemical Nonequilibrium in High-Temperature Air................590
13.5 Chemical Nonequilibrium in H2-Air Mixtures......................595
13.6 Summary and Comments................................................597
Chapter 14. Inviscid High-Temperature Equilibrium Flows ............599
14.1 Introduction..................................................................600
14.2 Governing Equations for Inviscid High-Temperature
Equilibrium Flow........................................................601
14.3 Equilibrium Normal and Oblique Shock-Wave Flows..............604
14.4 Equilibrium Quasi-One-Dimensional Nozzle Flows................617
14.5 Frozen and Equilibrium Flows: The Distinction....................623
14.6 Equilibrium and Frozen Specific Heats................................626
14.7 Equilibrium Speed of Sound............................................629
14.8 Equilibrium Conical Flow................................................633
14.9 Equilibrium Blunt-Body Flows..........................................636
14.10 Summary and Comments................................................643
Design Example 14.1: Hypersonic Waveriders—Part 4..........644
Problems....................................................................646
Chapter 15. Inviscid High-Temperature Nonequilibrium Flows .... 647
15.1 Introduction..................................................................648
15.2 Governing Equations for Inviscid, Nonequilibrium Flows .... 649
15.3 Nonequilibrium Normal and Oblique Shock-Wave Flows .... 655
15.4 Nonequilibrium Quasi-One-Dimensional Nozzle Flows..........663
15.5 Nonequilibrium Blunt-Body Flows....................................671
15.6 Binary Scaling..............................................................680
15.7 Nonequilibrium Flow over Other Shapes: Nonequilibrium
Method of Characteristics..............................................683
15.8 Summary and Comments................................................687
Problems....................................................................690
Chapter 16. Kinetic Theory Revisited: Transport Properties
in High-Temperature Gases......................................691
16.1 Introduction..................................................................692
16.2 Definition of Transport Phenomena....................................692
16.3 Transport Coefficients......................................................696
16.4 Mechanism of Diffiision..................................................700
16.5 Energy Transport by Thermal Conduction and
Diffusion: Total Thermal Conductivity............................702
16.6 Transport Properties for High-Temperature Air......................705
16.7 Summary and Comments................................................709
xvi
Chapter 17. Viscous High-Temperature Flows..............................711
17.1 Introduction..................................................................712
17.2 Governing Equations for Chemically
Reacting Viscous Flow................................................712
17.3 Alternate Forms of the Energy Equation..............................715
17.4 Boundary-Layer Equations for a Chemically Reacting Gas ... 719
17.5 Boundary Conditions: Catalytic Walls................................726
17.6 Boundary-Layer Solutions: Stagnation-Point Heat
Transfer for a Dissociating Gas......................................729
17.7 Boundary-Layer Solutions: Nonsimilar Flows......................739
17.8 Viscous-Shock-Layer Solutions to Chemically
Reacting Flow............................................................741
17.9 Parabolized Navier-Stokes Solutions to
Chemically Reacting Flows..........................................749
17.10 Full Navier-Stokes Solutions to Chemically
Reacting Flows..........................................................751
17.11 Summary and Comments................................................756
Problems....................................................................756
Chapter 18. Introduction to Radiative Gas Dynamics ....................759
18.1 Introduction..................................................................760
18.2 Definitions of Radiative Transfer in Gases............................760
18.3 Radiative-Transfer Equation..............................................763
18.4 Solutions of the Radiative-Transfer Equation:
Transparent Gas..........................................................765
18.5 Solutions of the Radiative-Transfer Equation:
Absorbing Gas........................................768
18.6 Solutions of the Radiative-Transfer Equation:
Emitting and Absorbing Gas..........................................769
18.7 Radiating Flowfields: Sample Results..................................773
18.8 Surface Radiative Cooling........................ 780
18.9 Summary and Comments........................ 781
Design Example 18.1.......................... 782
Problems.................................. 785
Postface.......................................... 787
References ........................................ 789
Index............................................ 805
Supporting Materials
813
|
| adam_txt |
Titel: Hypersonic and high temperature gas dynamics
Autor: Anderson, John David
Jahr: 2006
Table of Contents
Preface to the Second Edition. xvii
Preface to the First Edition.xix
Chapter 1. Some Preliminary Thoughts.1
1.1 Hypersonic Flight—Some Historical Firsts.2
1.2 Hypersonic Flow—Why Is It Important?.5
1.3 Hypersonic Flow—What Is It?.13
1.4 Fundamental Sources of Aerodynamic Force and
Aerodynamic Heating.23
1.5 Hypersonic Flight Paths: Velocity-Altitude Map.27
1.6 Summary and Outlook.29
Problems.31
Part I. Inviscid Hypersonic Flow
Chapter 2. Hypersonic Shock and Expansion-Wave Relations . 35
2.1 Introduction.36
2.2 Basic Hypersonic Shock Relations.36
2.3 Hypersonic Shock Relations in Terms of the Hypersonic
Similarity Parameter.42
2.4 Hypersonic Expansion-Wave Relations.44
2.5 Summary and Comments.47
Problem.49
Chapter 3. Local Surface Inclination Methods.51
3.1 Introduction.52
3.2 Newtonian Flow.54
3.3 Modified Newtonian Law.61
3.4 Centrifugal Force Corrections to Newtonian Theory.63
3.5 Newtonian Theory—What It Really Means.70
3.6 Tangent-Wedge Tangent-Cone Methods.79
3.7 Shock-Expansion Method.83
3.8 Summary and Comments.86
xi
xii
Design Example 3.1.87
Problems.100
Chapter 4. Hypersonic Inviscid Flowfields: Approximate Methods . 103
4.1 Introduction.104
4.2 Governing Equations.106
4.3 Mach-Number Independence.107
4.4 Hypersonic Small-Disturbance Equations.Ill
4.5 Hypersonic Similarity.118
4.6 Hypersonic Small-Disturbance Theory: Some Results.129
4.7 Comment on Hypersonic Small-Disturbance Theory.145
4.8 Hypersonic Equivalence Principle and
Blast-Wave Theory.146
4.9 Thin Shock-Layer Theory.167
4.10 Summary and Comments.173
Problems.176
Chapter 5. Hypersonic Inviscid Flowfields: Exact Methods.179
5.1 General Thoughts.182
5.2 Method of Characteristics.184
5.3 Time-Marching Finite Difference Method: Application
to the Hypersonic Blunt-Body Problem.199
5.4 Correlations for Hypersonic Shock-Wave Shapes.222
5.5 Shock-Shock Interactions.225
5.6 Space-Marching Finite Difference Method:
Additional Solutions of the Euler Equations.231
5.7 Comments on the State of the Art.246
5.8 Summary and Comments.247
Design Example 5.1.247
Design Example 5.2: Hypersonic Waveriders—Part 1.250
Problems.257
Part 2. Viscous Hypersonic Flow
Chapter 6. Viscous Flow: Basic Aspects, Boundary Layer
Results, and Aerodynamic Heating.261
6.1 Introduction.262
6.2 Governing Equations for Viscous Flow:
Navier-Stokes Equations.266
6.3 Similarity Parameters and Boundary Conditions.268
6.4 Boundary-Layer Equations for Hypersonic Flow.272
6.5 Hypersonic Boundary-Layer Theory: Self-Similar
Solutions.278
6.6 Nonsimilar Hypersonic Boundary Layers.315
6.7 Hypersonic Transition.327
xiii
6.8 Hypersonic Turbulent Boundary Layer.335
6.9 Reference Temperature Method.341
6.10 Hypersonic Aerodynamic Heating: Some Comments
and Approximate Results Applied to
Hypersonic Vehicles.346
6.11 Entropy-Layer Effects on Aerodynamic Heating.353
6.12 Summary and Comments.355
Design Example 6.1.358
Design Example 6.2: Hypersonic Waveriders—Part 2.361
Problems.374
Chapter 7. Hypersonic Viscous Interactions.375
7.1 Introduction.376
7.2 Strong and Weak Viscous Interactions: Definition and
Description.380
7.3 Role of x in Hypersonic Viscous Interaction.382
7.4 Other Viscous Interaction Results.389
7.5 Hypersonic Shock-Wave/Boundary-Layer Interactions.395
7.6 Summary and Comments.407
Design Example 7.1: Hypersonic Waveriders—Part 3.409
Problems.413
Chapter 8. Computational-Fluid-Dynamic Solutions of
Hypersonic Viscous Flows .415
8.1 Introduction.416
8.2 Viscous Shock-Layer Technique.418
8.3 Parabolized Navier-Stokes Solutions.424
8.4 Full Navier-Stokes Solutions.434
8.5 Summary and Comments.444
Part 3. High-Temperature Gas Dynamics
Chapter 9. High-Temperature Gas Dynamics:
Some Introductory Considerations.449
9.1 Importance of High-Temperature Flows.450
9.2 Nature of High-Temperature Flows.458
9.3 Chemical Effects in Air: The Velocity-Altitude Map.459
9.4 Summary and Comments.461
Chapter 10. Some Aspects of the Thermodynamics of Chemically
Reacting Gases (Classical Physical Chemistry) .463
10.1 Introduction: Definition of Real Gases and Perfect Gases . 464
10.2 Various Forms of the Perfect-Gas Equation of State.466
10.3 Various Descriptions of the Composition of a Gas Mixture . . . 472
xiv
10.4 Classification of Gases.474
10.5 First Law of Thermodynamics.478
10.6 Second Law of Thermodynamics.481
10.7 Calculation of Entropy.483
10.8 Gibbs Free Energy and the Entropy
Produced by Chemical Nonequilibrium.485
10.9 Composition of Equilibrium Chemically
Reacting Mixtures: The Equilibrium Constant.488
10.10 Heat of Reaction.495
10.11 Summary and Comments.497
Problems.499
Chapter 11. Elements of Statistical Thermodynamics .501
11.1 Introduction.502
11.2 Microscopic Description of Gases.503
11.3 Counting the Number of Microstates for a Given
Macrostate.512
11.4 Most Probable Macrostate.514
11.5 Limiting Case: Boltzmann Distribution.516
11.6 Evaluation of Thermodynamic Properties in Terms of the
Partition Function.518
11.7 Evaluation of the Partition Function in Terms of T and V . . 524
11.8 Practical Evaluation of Thermodynamic Properties for a
Single Chemical Species.528
11.9 Calculation of the Equilibrium Constant.532
11.10 Chemical Equilibrium—Some Further Comments.537
11.11 Calculation of the Equilibrium Composition
for High-Temperature Air. 538
11.12 Thermodynamic Properties of an Equilibrium
Chemically Reacting Gas. 542
11.13 Equilibrium Properties of High-Temperature Air. 547
11.14 Summary and Comments. 557
Problems. 558
Chapter 12. Elements of Kinetic Theory.559
12.1 Introduction.560
12.2 Perfect-Gas Equation of State (Revisited).560
12.3 Collision Frequency and Mean Free Path.564
12.4 Velocity and Speed Distribution Functions: Mean Velocities . . 567
12.5 Summary and Comments.571
Problems.573
Chapter 13. Chemical and Vibrational Nonequilibrium. 575
13.1 Introduction. 576
XV
13.2 Vibrational Nonequilibrium: The Vibrational
Rate Equation.577
13.3 Chemical Nonequilibrium: The Chemical Rate Equation.584
13.4 Chemical Nonequilibrium in High-Temperature Air.590
13.5 Chemical Nonequilibrium in H2-Air Mixtures.595
13.6 Summary and Comments.597
Chapter 14. Inviscid High-Temperature Equilibrium Flows .599
14.1 Introduction.600
14.2 Governing Equations for Inviscid High-Temperature
Equilibrium Flow.601
14.3 Equilibrium Normal and Oblique Shock-Wave Flows.604
14.4 Equilibrium Quasi-One-Dimensional Nozzle Flows.617
14.5 Frozen and Equilibrium Flows: The Distinction.623
14.6 Equilibrium and Frozen Specific Heats.626
14.7 Equilibrium Speed of Sound.629
14.8 Equilibrium Conical Flow.633
14.9 Equilibrium Blunt-Body Flows.636
14.10 Summary and Comments.643
Design Example 14.1: Hypersonic Waveriders—Part 4.644
Problems.646
Chapter 15. Inviscid High-Temperature Nonequilibrium Flows . 647
15.1 Introduction.648
15.2 Governing Equations for Inviscid, Nonequilibrium Flows . 649
15.3 Nonequilibrium Normal and Oblique Shock-Wave Flows . 655
15.4 Nonequilibrium Quasi-One-Dimensional Nozzle Flows.663
15.5 Nonequilibrium Blunt-Body Flows.671
15.6 Binary Scaling.680
15.7 Nonequilibrium Flow over Other Shapes: Nonequilibrium
Method of Characteristics.683
15.8 Summary and Comments.687
Problems.690
Chapter 16. Kinetic Theory Revisited: Transport Properties
in High-Temperature Gases.691
16.1 Introduction.692
16.2 Definition of Transport Phenomena.692
16.3 Transport Coefficients.696
16.4 Mechanism of Diffiision.700
16.5 Energy Transport by Thermal Conduction and
Diffusion: Total Thermal Conductivity.702
16.6 Transport Properties for High-Temperature Air.705
16.7 Summary and Comments.709
xvi
Chapter 17. Viscous High-Temperature Flows.711
17.1 Introduction.712
17.2 Governing Equations for Chemically
Reacting Viscous Flow.712
17.3 Alternate Forms of the Energy Equation.715
17.4 Boundary-Layer Equations for a Chemically Reacting Gas . 719
17.5 Boundary Conditions: Catalytic Walls.726
17.6 Boundary-Layer Solutions: Stagnation-Point Heat
Transfer for a Dissociating Gas.729
17.7 Boundary-Layer Solutions: Nonsimilar Flows.739
17.8 Viscous-Shock-Layer Solutions to Chemically
Reacting Flow.741
17.9 Parabolized Navier-Stokes Solutions to
Chemically Reacting Flows.749
17.10 Full Navier-Stokes Solutions to Chemically
Reacting Flows.751
17.11 Summary and Comments.756
Problems.756
Chapter 18. Introduction to Radiative Gas Dynamics .759
18.1 Introduction.760
18.2 Definitions of Radiative Transfer in Gases.760
18.3 Radiative-Transfer Equation.763
18.4 Solutions of the Radiative-Transfer Equation:
Transparent Gas.765
18.5 Solutions of the Radiative-Transfer Equation:
Absorbing Gas.768
18.6 Solutions of the Radiative-Transfer Equation:
Emitting and Absorbing Gas.769
18.7 Radiating Flowfields: Sample Results.773
18.8 Surface Radiative Cooling. 780
18.9 Summary and Comments. 781
Design Example 18.1. 782
Problems. 785
Postface. 787
References . 789
Index. 805
Supporting Materials
813 |
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| edition | 2. ed. |
| format | Book |
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| genre | 1\p (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV022877624 |
| illustrated | Illustrated |
| index_date | 2024-07-02T18:49:26Z |
| indexdate | 2024-07-09T21:07:33Z |
| institution | BVB |
| isbn | 1563477807 9781563477805 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016082642 |
| oclc_num | 68262944 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-83 DE-706 |
| owner_facet | DE-91G DE-BY-TUM DE-83 DE-706 |
| physical | XXI, 811 S. graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | AIAA |
| record_format | marc |
| series2 | AIAA education series |
| spelling | Anderson, John David 1937- Verfasser (DE-588)129741507 aut Hypersonic and high temperature gas dynamics John D. Anderson 2. ed. Reston AIAA 2006 XXI, 811 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier AIAA education series Aerodynamics, Hypersonic Hyperschallströmung (DE-588)4161093-3 gnd rswk-swf Hochtemperaturphysik (DE-588)4160282-1 gnd rswk-swf Hochtemperatur (DE-588)4282597-0 gnd rswk-swf Überschallströmung (DE-588)4186626-5 gnd rswk-swf Gasdynamik (DE-588)4019339-1 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Gasdynamik (DE-588)4019339-1 s Hochtemperatur (DE-588)4282597-0 s DE-604 Hyperschallströmung (DE-588)4161093-3 s 2\p DE-604 Hochtemperaturphysik (DE-588)4160282-1 s 3\p DE-604 Überschallströmung (DE-588)4186626-5 s 4\p DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016082642&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 4\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Anderson, John David 1937- Hypersonic and high temperature gas dynamics Aerodynamics, Hypersonic Hyperschallströmung (DE-588)4161093-3 gnd Hochtemperaturphysik (DE-588)4160282-1 gnd Hochtemperatur (DE-588)4282597-0 gnd Überschallströmung (DE-588)4186626-5 gnd Gasdynamik (DE-588)4019339-1 gnd |
| subject_GND | (DE-588)4161093-3 (DE-588)4160282-1 (DE-588)4282597-0 (DE-588)4186626-5 (DE-588)4019339-1 (DE-588)4123623-3 |
| title | Hypersonic and high temperature gas dynamics |
| title_auth | Hypersonic and high temperature gas dynamics |
| title_exact_search | Hypersonic and high temperature gas dynamics |
| title_exact_search_txtP | Hypersonic and high temperature gas dynamics |
| title_full | Hypersonic and high temperature gas dynamics John D. Anderson |
| title_fullStr | Hypersonic and high temperature gas dynamics John D. Anderson |
| title_full_unstemmed | Hypersonic and high temperature gas dynamics John D. Anderson |
| title_short | Hypersonic and high temperature gas dynamics |
| title_sort | hypersonic and high temperature gas dynamics |
| topic | Aerodynamics, Hypersonic Hyperschallströmung (DE-588)4161093-3 gnd Hochtemperaturphysik (DE-588)4160282-1 gnd Hochtemperatur (DE-588)4282597-0 gnd Überschallströmung (DE-588)4186626-5 gnd Gasdynamik (DE-588)4019339-1 gnd |
| topic_facet | Aerodynamics, Hypersonic Hyperschallströmung Hochtemperaturphysik Hochtemperatur Überschallströmung Gasdynamik Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016082642&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT andersonjohndavid hypersonicandhightemperaturegasdynamics |