Solved practical problems in fluid mechanics:
Gespeichert in:
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Boca Raton ; London ; New York
CRC Press
2020
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| Online-Zugang: | Inhaltsverzeichnis Inhaltsverzeichnis Klappentext |
| Beschreibung: | First issued in paperback 2020 |
| Beschreibung: | xx, 264 Seiten Illustrationen, Diagramme 25 cm |
| ISBN: | 9780367737894 9781482242980 |
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| adam_text | Contents Preface............ Author............ Introduction... Nomenclature ....xi xiii ..xv xix ..1 1. Fluid Statics........................ ..1 Introduction......................... ..2 Problem 1.1: Fluid Statics.... .2 Solution............................ ......4 Problem 1.2: Falkirk Wheel..4 Solution............................ Problem 1.3: Gauge Pressure....................................................................... 6 Solution.......................................................................... 7 Problem 1.4: Air Pressure with Altitude.....................................................8 Solution.....................................................................................................8 .10 Problem 1.5: Pascal s Paradox. Solution............................... ..10 .12 Problem 1.6: Fish Ladder........ .12 Solution............................... ... 14 Problem 1.7: Vessel Sizing and Testing. .14 Solution................ ...15 Problem 1.8: Air-Lift. Solution................ .16 .18 Problem 1.9: Liquid-Liquid Separator. Solution............ .19 .19 Further Problems. 2. Flow Measurement..................... 25 Introduction................................................................................................ 25 Problem 2.1: Venturi Meter Calibration....................................................28 Solution............... 28 Problem 2.2: Orifice Plate Meter............................................................... 30 Solution................................................................................................... 31
Problem 2.3: Evaluation of the Coefficient of Discharge.........................33 Solution................................................................................................... 34 Problem 2.4: Pitot Tube Traverse............................................................... 35 Solution...................................... 35 Problem 2.5: Venturi Flume.......................................................................37 Solution................................................................................................... 37 v
vi Contents Problem 2.6: Flowmeter Calibration by Dilution Method...................... 38 Solution....................................................................................................38 Further Problems........................................................................................40 3. Freely Discharging Flow.......................................................................... 43 Introduction................................................................................................ 43 Problem 3.1: Discharge through an Orifice.............................................. 44 Solution................................................................................................... 44 Problem 3.2: Reservoir Inflow....................................................................46 Solution................................................................................................... 46 Problem 3.3: Laminar Flow....................................................................... 48 Solution................................................................................................... 48 Problem 3.4: Tank Drainage...................................................................... 49 Solution................................................................................................... 49 Problem 3.5: Tank Drainage through a Connecting Pipe....................... 51 Solution................................................................................................... 51 Problem 3.6: Drainage between
Tanks...................................................... 53 Solution................................................................................................... 53 Problem 3.7: Tank Containment.................................................................55 Solution................................................................................................... 55 Problem 3.8: Siphon....................................................................................57 Solution................................................................................................... 57 Problem 3.9: Water Clock........................................................................... 59 Solution................................................................................................... 59 Problem 3.10: Force on a Nozzle................................................................61 Solution....................................................................................................61 Further Problems........................................................................................63 4. Fluid Friction............................................................................................. 65 Introduction................................................................................................ 65 Problem 4.1: Connected Reservoir Flow................................................... 66 Solution................................................................................................... 67 Problem 4.2: Laminar
Flow....................................................................... 68 Solution................................................................................................... 69 Problem 4.3: Tapered Pipe Section............................................................70 Solution................................................................................................... 70 Problem 4.4: Ventilation Duct.................................................................... 71 Solution................................................................................................... 72 Problem 4.5: Flow in Noncircular Ducts.................................................. 72 Solution................................................................................................... 73 Problem 4.6: Valve Test...............................................................................75 Solution................................................................................................... 75 Problem 4.7: Flow of a Thick Fluid............................................................78 Solution................................................................................................... 78
Contents vii Problem 4.8: Power Required for Pumping............................................. 79 Solution............................................................................................ 80 Problem 4.9: Pipes in Series....................................................................... 85 Solution................................................................................................... 85 Problem 4.10: Determination of Pipe Diameter for a Given Flow Rate... 87 Solution................................................................................................... 87 Problem 4.11: Drainage through a Horizontal Pipe.................................88 Solution................................................................................................... 88 Problem 4.12· Shear Stress at a Surface.....................................................90 Solution................................................................................................... 90 Problem 4.13: Flow in a Vertical Pipe........................................................91 Solution................................................................................................... 91 Problem 4.14: Minimum Pipe Diameter for Maximum Pressure Drop... 93 Solution................................................................................................... 93 Further Problems................................... 94 5. Pumps..........................................................................................................99
Introduction................................................................................................ 99 Problem 5.1: Pumping of Viscous Liquids...............................................101 Solution..................................................................................................102 Problem 5.2: Duty Point 1........................................................................ 103 Solution................................................................................................. 103 Problem 5.3: Duty Point 2........................................................................ 106 Solution................................................................................................. 106 Problem 5.4: Pumping Costs.................................................................... 108 Solution......................................................... 108 Problem 5.5: Multi-Phase Pumps and Applications..............................109 Solution............................................................................................ 109 Problem 5.6: Centrifugal Pump Scale-Up................................................Ill Solution..................................................................................................Ill Problem 5.7: Net Positive Suction Head.................................................. 113 Solution..................................................................................................113 Problem 5.8: Centrifugal Pump Scale-Down..........................................115
Solution..................................................................................................116 Problem 5.9: Centrifugal Pump Efficiency..............................................117 Solution..................................................................................................118 Problem 5.10: Reciprocating Pump.......................................................... 120 Solution................................................................................................. 121 Further Problems......................................................................................122 6. Multi-Phase Flow.....................................................................................127 Introduction...............................................................................................127 Problem 6.1: Open Channel Flow............................................................128 Solution........................................................................... . ....................128
viii Contents Problem 6.2: Channel Flow Optimization...............................................130 Solution..................................................................................................130 Problem 6.3: Stratified Flow..................................................................... 132 Solution.................................................................................................. 132 Problem 6.4: Notches and Weirs.............................................................. 133 Solution......................... 134 Problem 6.5: Two-Phase Oil and Gas Flow.............................................135 Solution..................................................................................................136 Problem 6.6: Immiscible Liquids............................................................. 138 Solution..................................................................................................138 Problem 6.7: Quality of a Gas...................................................................139 Solution..................................................................................................139 Problem 6.8: Flow Regimes in Vertical Pipes..........................................141 Solution.................................................................................................. 141 Problem 6.9: Vertical Two-Phase Flow.....................................................144 Solution..................................................................................................144 Problem 6.10: Two-
Phase Flow in a Vertical Pipe................................... 147 Solution..................................................................................................147 Problem 6.11: Flow in Horizontal Pipes...................................................151 Solution.................................................................................................. 151 Problem 6.12: Bubbly Flow........................................................................155 Solution..................................................................................................155 Further Problems...................................................................................... 156 7. Fluid Mixing............................................................................................. 159 Introduction............................................................................................... 159 Problem 7.1: Liquid-Solid Mixing........................................................... 160 Solution.................................................................................................. 161 Problem 7.2: Connected Mixing Tanks................................................... 163 Solution..................................................................................................163 Problem 7.3: Continuously Stirred Tanks in Series................................ 166 Solution..................................................................................................166 Problem 7.4: Dimensional
Analysis......................................................... 168 Solution..................................................................................................168 Problem 7.5: Impeller Power Requirement for Mixing.......................... 170 Solution..................................................................................................170 Problem 7.6: Power for Mixing Scale-Up................................................ 172 Solution..................................................................................................172 Problem 7.7: Gas Bubbles in Mixing.........................................................174 Solution.................................................................................................. 174 Problem 7.8: Foams................................................................................... 176 Solution..................................................................................................176 Problem 7.9: Mixing in the Food Industry.............................................. 178 Solution..................................................................................................178
Contents Problem 7.10: Power for Sparging............................................ Solution.................................................................................. Problem 7.11: Optimisation of Power Input in Stirred Tanks. Solution.................................................................................. Problem 7.12: Scale-Up............................................................... Solution.................................................................................. Further Problems....................................................................... їх .......... 180 .......... 180 .......... 182 .......... 182 .......... 185 .......... 186 .......... 187 8. Particle Flow.......................................................... Introduction............................................................ Problem 8.1: Stokes Law........................................ Solution............................................................... Problem 8.2: Particle Settling in Lagoons............. Solution............................................................... Problem 8.3: Particle Acceleration........................ Solution............................................................... Problem 8.4: Particle Separation by Elutriation.... Solution............................................................... Problem 8.5: Anomalies in Particle Settling........ Solution............................................................... Problem 8.6: Fluidized Bed....................................
Solution............................................................... Problem 8.7: Minimum Fluidizing Velocity......... Solution............................................................... Problem 8.8: Pneumatic Conveyor........................ Solution............................................................... Problem 8.9: Hydrocyclone Particle Separation.... Solution............................................................... Problem 8.10: Power Demand in Fluidized Beds. Solution............................................................... Problem 8.11: Bubble Nucléation and Growth..... Solution............................................................... Problem 8.12: Cyclone Separator........................... Solution............................................................... Problem 8.13: Centrifugal Separator..................... Solution............................................................... Further Problems................................................... 9. Rheology and Non-Newtonian Fluids................................................. 221 Introduction.............................................................................................. 221 Problem 9.1: Parallel-Disc Rheometer.....................................................223 Solution................................................................................................. 223 Problem 9.2: Cone-and-Plate Rheometer................................................225
Solution.............................................................................................. ...225
x Contents Problem 9.3: Couette Rheometer.............................................................. 227 Solution..................................................................................................228 Problem 9.4: Power Law Model................................................................ 230 Solution..................................................................................................230 Problem 9.5: Rheometer Data Analysis................................................... 231 Solution..................................................................................................231 Problem 9.6: Extrusion of Polymers......................................................... 233 Solution..................................................................................................233 Problem 9.7: Mixing of Non-Newtonian Fluids.....................................234 Solution..................................................................................................234 Problem 9.8: Non-Newtonian Pipe Flow 1............................................. 235 Solution................................................................................................. 235 Problem 9.9: Non-Newtonian Fluid Flow............................................... 238 Solution................................................................................................. 238 Problem 9.10: Non-Newtonian Pipe Flow 2............................ 239
Solution..................................................................................................240 Further Problems...................................................................................... 241 Further Reading..............................................................................................243 Index................................................................................................................. 247
ENGINEERING - CHEMICAL SOLVED PRACTICAL PROBLEMS in FLUID MECHANICS The informal style of presentation is attractive and should help keep students engaged. ... Numerous, easy-to-follow worked examples throughout the book are a great aid to understanding and helping students learn. — Dr Laurence Weatherley, The University of Kansas, Lawrence, USA ... offers snippets of interesting facts related to the problem on hand, as well as other applications of the concepts.There is huge potential to link concepts in fluid mechanics to other aspects of engineering. ... We certainly would use it as a main reference for our students. — Sin-Moh Cheah, Singapore Polytechnic Contains Fluid FlowTopics Relevant to Every Engineer Based on the principle that many students learn more effectively by using solved problems, Solved Practical Problems in Fluid Mechanics presents a series of worked examples relating fluid flow concepts to a range of engi neering applications. This text integrates simple mathematical approaches that clarify key concepts as well as the significance of their solutions, and fosters an understanding of the fundamentals encountered in engineering. Comprised of nine chapters, this book grapples with a number of relevant problems and asks two pertinent questions to extend understanding and ap preciation: What should we look out for? and What else is interesting? This text can be used for exam preparation and addresses problems that include two-phase and multi-component flow, viscometry and the use of rheometers, non-Newtonian fluids, and applications of classical fluid
flow principles. While the author incorporates terminology recognised by all students of engineering and provides a full understanding of the basics, the book is written for engineers who already have a rudimentary understanding and familiarity of fluid flow phenomena. It includes engineering concepts such as dimensionless numbers and requires a fluency in basic mathematical skills, such as differential calculus and the associated application of boundary conditions to reach solutions. Solved Practical Problems in Fluid Mechanics thoroughly explains the concepts and principles of fluid flow by highlighting various problems frequently encountered by engineers with accompanying solutions.This text can therefore help you gain a complete understanding of fluid mechanics and draw on your own practical experiences to tackle equally tricky problems. 9780367737894 CRC Press Taylor և Francis Group an informa business www.crcpress.com
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Contents Preface. Author. Introduction. Nomenclature .xi xiii .xv xix .1 1. Fluid Statics. .1 Introduction. .2 Problem 1.1: Fluid Statics. .2 Solution. .4 Problem 1.2: Falkirk Wheel.4 Solution. Problem 1.3: Gauge Pressure. 6 Solution. 7 Problem 1.4: Air Pressure with Altitude.8 Solution.8 .10 Problem 1.5: Pascal's Paradox. Solution. .10 .12 Problem 1.6: Fish Ladder. .12 Solution. . 14 Problem 1.7: Vessel Sizing and Testing. .14 Solution. .15 Problem 1.8: Air-Lift. Solution. .16 .18 Problem 1.9: Liquid-Liquid Separator. Solution. .19 .19 Further Problems. 2. Flow Measurement. 25 Introduction. 25 Problem 2.1: Venturi Meter Calibration.28 Solution. 28 Problem 2.2: Orifice Plate Meter. 30 Solution. 31
Problem 2.3: Evaluation of the Coefficient of Discharge.33 Solution. 34 Problem 2.4: Pitot Tube Traverse. 35 Solution. 35 Problem 2.5: Venturi Flume.37 Solution. 37 v
vi Contents Problem 2.6: Flowmeter Calibration by Dilution Method. 38 Solution.38 Further Problems.40 3. Freely Discharging Flow. 43 Introduction. 43 Problem 3.1: Discharge through an Orifice. 44 Solution. 44 Problem 3.2: Reservoir Inflow.46 Solution. 46 Problem 3.3: Laminar Flow. 48 Solution. 48 Problem 3.4: Tank Drainage. 49 Solution. 49 Problem 3.5: Tank Drainage through a Connecting Pipe. 51 Solution. 51 Problem 3.6: Drainage between
Tanks. 53 Solution. 53 Problem 3.7: Tank Containment.55 Solution. 55 Problem 3.8: Siphon.57 Solution. 57 Problem 3.9: Water Clock. 59 Solution. 59 Problem 3.10: Force on a Nozzle.61 Solution.61 Further Problems.63 4. Fluid Friction. 65 Introduction. 65 Problem 4.1: Connected Reservoir Flow. 66 Solution. 67 Problem 4.2: Laminar
Flow. 68 Solution. 69 Problem 4.3: Tapered Pipe Section.70 Solution. 70 Problem 4.4: Ventilation Duct. 71 Solution. 72 Problem 4.5: Flow in Noncircular Ducts. 72 Solution. 73 Problem 4.6: Valve Test.75 Solution. 75 Problem 4.7: Flow of a Thick Fluid.78 Solution. 78
Contents vii Problem 4.8: Power Required for Pumping. 79 Solution. 80 Problem 4.9: Pipes in Series. 85 Solution. 85 Problem 4.10: Determination of Pipe Diameter for a Given Flow Rate. 87 Solution. 87 Problem 4.11: Drainage through a Horizontal Pipe.88 Solution. 88 Problem 4.12· Shear Stress at a Surface.90 Solution. 90 Problem 4.13: Flow in a Vertical Pipe.91 Solution. 91 Problem 4.14: Minimum Pipe Diameter for Maximum Pressure Drop. 93 Solution. 93 Further Problems. 94 5. Pumps.99
Introduction. 99 Problem 5.1: Pumping of Viscous Liquids.101 Solution.102 Problem 5.2: Duty Point 1. 103 Solution. 103 Problem 5.3: Duty Point 2. 106 Solution. 106 Problem 5.4: Pumping Costs. 108 Solution. 108 Problem 5.5: Multi-Phase Pumps and Applications.109 Solution. 109 Problem 5.6: Centrifugal Pump Scale-Up.Ill Solution.Ill Problem 5.7: Net Positive Suction Head. 113 Solution.113 Problem 5.8: Centrifugal Pump Scale-Down.115
Solution.116 Problem 5.9: Centrifugal Pump Efficiency.117 Solution.118 Problem 5.10: Reciprocating Pump. 120 Solution. 121 Further Problems.122 6. Multi-Phase Flow.127 Introduction.127 Problem 6.1: Open Channel Flow.128 Solution. .".128
viii Contents Problem 6.2: Channel Flow Optimization.130 Solution.130 Problem 6.3: Stratified Flow. 132 Solution. 132 Problem 6.4: Notches and Weirs. 133 Solution. 134 Problem 6.5: Two-Phase Oil and Gas Flow.135 Solution.136 Problem 6.6: Immiscible Liquids. 138 Solution.138 Problem 6.7: Quality of a Gas.139 Solution.139 Problem 6.8: Flow Regimes in Vertical Pipes.141 Solution. 141 Problem 6.9: Vertical Two-Phase Flow.144 Solution.144 Problem 6.10: Two-
Phase Flow in a Vertical Pipe. 147 Solution.147 Problem 6.11: Flow in Horizontal Pipes.151 Solution. 151 Problem 6.12: Bubbly Flow.155 Solution.155 Further Problems. 156 7. Fluid Mixing. 159 Introduction. 159 Problem 7.1: Liquid-Solid Mixing. 160 Solution. 161 Problem 7.2: Connected Mixing Tanks. 163 Solution.163 Problem 7.3: Continuously Stirred Tanks in Series. 166 Solution.166 Problem 7.4: Dimensional
Analysis. 168 Solution.168 Problem 7.5: Impeller Power Requirement for Mixing. 170 Solution.170 Problem 7.6: Power for Mixing Scale-Up. 172 Solution.172 Problem 7.7: Gas Bubbles in Mixing.174 Solution. 174 Problem 7.8: Foams. 176 Solution.176 Problem 7.9: Mixing in the Food Industry. 178 Solution.178
Contents Problem 7.10: Power for Sparging. Solution. Problem 7.11: Optimisation of Power Input in Stirred Tanks. Solution. Problem 7.12: Scale-Up. Solution. Further Problems. їх . 180 . 180 . 182 . 182 . 185 . 186 . 187 8. Particle Flow. Introduction. Problem 8.1: Stokes' Law. Solution. Problem 8.2: Particle Settling in Lagoons. Solution. Problem 8.3: Particle Acceleration. Solution. Problem 8.4: Particle Separation by Elutriation. Solution. Problem 8.5: Anomalies in Particle Settling. Solution. Problem 8.6: Fluidized Bed.
Solution. Problem 8.7: Minimum Fluidizing Velocity. Solution. Problem 8.8: Pneumatic Conveyor. Solution. Problem 8.9: Hydrocyclone Particle Separation. Solution. Problem 8.10: Power Demand in Fluidized Beds. Solution. Problem 8.11: Bubble Nucléation and Growth. Solution. Problem 8.12: Cyclone Separator. Solution. Problem 8.13: Centrifugal Separator. Solution. Further Problems. 9. Rheology and Non-Newtonian Fluids. 221 Introduction. 221 Problem 9.1: Parallel-Disc Rheometer.223 Solution. 223 Problem 9.2: Cone-and-Plate Rheometer.225
Solution. .225
x Contents Problem 9.3: Couette Rheometer. 227 Solution.228 Problem 9.4: Power Law Model. 230 Solution.230 Problem 9.5: Rheometer Data Analysis. 231 Solution.231 Problem 9.6: Extrusion of Polymers. 233 Solution.233 Problem 9.7: Mixing of Non-Newtonian Fluids.234 Solution.234 Problem 9.8: Non-Newtonian Pipe Flow 1. 235 Solution. 235 Problem 9.9: Non-Newtonian Fluid Flow. 238 Solution. 238 Problem 9.10: Non-Newtonian Pipe Flow 2. 239
Solution.240 Further Problems. 241 Further Reading.243 Index. 247
ENGINEERING - CHEMICAL SOLVED PRACTICAL PROBLEMS in FLUID MECHANICS "The informal style of presentation is attractive and should help keep students engaged. . Numerous, easy-to-follow worked examples throughout the book are a great aid to understanding and helping students learn." — Dr Laurence Weatherley, The University of Kansas, Lawrence, USA ". offers snippets of interesting facts related to the problem on hand, as well as other applications of the concepts.There is huge potential to link concepts in fluid mechanics to other aspects of engineering. . We certainly would use it as a main reference for our students." — Sin-Moh Cheah, Singapore Polytechnic Contains Fluid FlowTopics Relevant to Every Engineer Based on the principle that many students learn more effectively by using solved problems, Solved Practical Problems in Fluid Mechanics presents a series of worked examples relating fluid flow concepts to a range of engi neering applications. This text integrates simple mathematical approaches that clarify key concepts as well as the significance of their solutions, and fosters an understanding of the fundamentals encountered in engineering. Comprised of nine chapters, this book grapples with a number of relevant problems and asks two pertinent questions to extend understanding and ap preciation: What should we look out for? and What else is interesting? This text can be used for exam preparation and addresses problems that include two-phase and multi-component flow, viscometry and the use of rheometers, non-Newtonian fluids, and applications of classical fluid
flow principles. While the author incorporates terminology recognised by all students of engineering and provides a full understanding of the basics, the book is written for engineers who already have a rudimentary understanding and familiarity of fluid flow phenomena. It includes engineering concepts such as dimensionless numbers and requires a fluency in basic mathematical skills, such as differential calculus and the associated application of boundary conditions to reach solutions. Solved Practical Problems in Fluid Mechanics thoroughly explains the concepts and principles of fluid flow by highlighting various problems frequently encountered by engineers with accompanying solutions.This text can therefore help you gain a complete understanding of fluid mechanics and draw on your own practical experiences to tackle equally tricky problems. 9780367737894 CRC Press Taylor և Francis Group an informa business www.crcpress.com |
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| illustrated | Illustrated |
| index_date | 2024-07-03T17:33:41Z |
| indexdate | 2024-07-10T09:09:23Z |
| institution | BVB |
| isbn | 9780367737894 9781482242980 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032741222 |
| oclc_num | 1263271641 |
| open_access_boolean | |
| owner | DE-703 |
| owner_facet | DE-703 |
| physical | xx, 264 Seiten Illustrationen, Diagramme 25 cm |
| publishDate | 2020 |
| publishDateSearch | 2020 |
| publishDateSort | 2020 |
| publisher | CRC Press |
| record_format | marc |
| spelling | Schaschke, Carl Verfasser (DE-588)1052918727 aut Solved practical problems in fluid mechanics Carl J. Schaschke Fluid mechanics Boca Raton ; London ; New York CRC Press 2020 © 2016 xx, 264 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier First issued in paperback 2020 Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf fluid mechanics (DE-588)4143389-0 Aufgabensammlung gnd-content Strömungsmechanik (DE-588)4077970-1 s DE-604 DE-601 pdf/application http://www.gbv.de/dms/bowker/toc/9781482242980.pdf Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032741222&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032741222&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Schaschke, Carl Solved practical problems in fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd |
| subject_GND | (DE-588)4077970-1 (DE-588)4143389-0 |
| title | Solved practical problems in fluid mechanics |
| title_alt | Fluid mechanics |
| title_auth | Solved practical problems in fluid mechanics |
| title_exact_search | Solved practical problems in fluid mechanics |
| title_exact_search_txtP | Solved practical problems in fluid mechanics |
| title_full | Solved practical problems in fluid mechanics Carl J. Schaschke |
| title_fullStr | Solved practical problems in fluid mechanics Carl J. Schaschke |
| title_full_unstemmed | Solved practical problems in fluid mechanics Carl J. Schaschke |
| title_short | Solved practical problems in fluid mechanics |
| title_sort | solved practical problems in fluid mechanics |
| topic | Strömungsmechanik (DE-588)4077970-1 gnd |
| topic_facet | Strömungsmechanik Aufgabensammlung |
| url | http://www.gbv.de/dms/bowker/toc/9781482242980.pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032741222&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032741222&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT schaschkecarl solvedpracticalproblemsinfluidmechanics AT schaschkecarl fluidmechanics |
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