Ellis Cumberbatch, Alistair Fitt
Mathematical Modeling
Case Studies from Industry
Herausgeber: Cumberbatch, Ellis
Ellis Cumberbatch, Alistair Fitt
Mathematical Modeling
Case Studies from Industry
Herausgeber: Cumberbatch, Ellis
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Presents thirteen different case studies, ranging from cooking of cereal to the analysis of epidemic waves in animal populations.
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Presents thirteen different case studies, ranging from cooking of cereal to the analysis of epidemic waves in animal populations.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 316
- Erscheinungstermin: 17. Dezember 2012
- Englisch
- Abmessung: 229mm x 152mm x 19mm
- Gewicht: 515g
- ISBN-13: 9780521011730
- ISBN-10: 0521011736
- Artikelnr.: 21246182
- Verlag: Cambridge University Press
- Seitenzahl: 316
- Erscheinungstermin: 17. Dezember 2012
- Englisch
- Abmessung: 229mm x 152mm x 19mm
- Gewicht: 515g
- ISBN-13: 9780521011730
- ISBN-10: 0521011736
- Artikelnr.: 21246182
Introduction; 1. Fluid mechanical modeling of the scroll compressor Peter
D. Howell; 2. Determining the viscosity of a carbon paste used in smelting
Alistair Fitt; 3. The vibrating element densitometer Ellis Cumberbatch; 4.
Acoustic emission from FRP damages hoop-wrapped cylinders D. Rex Westbrook;
5. Modeling the cooking of a single cereal grain Kerry A. Landman and Mark
J. McGuinness; 6. Epidemic waves in animal populations: a case study Britta
Basse and Graeme C. Wake; 7. Dynamics of automotive catalytic converters
Donald Schwendeman; 8. Analysis of an endothermic reaction in a packed
column Andrew C. Fowler; 9. Simulation of the temperature behavior of hot
glass during cooling Helmut Neunzert, Norbert Siedow and Frank Zingsheim;
10. Water equilibration in vapor-diffusion crystal growth Arnon Chait,
Elizabeth Gray and Gerald W. Young; 11. Modeling of quasi-static and
dynamic load responses of filled viscoelastic materials H. T. Banks,
Gabriella A. Pintér, Laura K. Potter, Michael J. Gaitens and Lynn C. Yanyo;
12. A gasdynamic-acoustic model of a bird scare gun Sjoerd W. Rienstra; 13.
Paper tension variations in a printing press Colin P. Please.
D. Howell; 2. Determining the viscosity of a carbon paste used in smelting
Alistair Fitt; 3. The vibrating element densitometer Ellis Cumberbatch; 4.
Acoustic emission from FRP damages hoop-wrapped cylinders D. Rex Westbrook;
5. Modeling the cooking of a single cereal grain Kerry A. Landman and Mark
J. McGuinness; 6. Epidemic waves in animal populations: a case study Britta
Basse and Graeme C. Wake; 7. Dynamics of automotive catalytic converters
Donald Schwendeman; 8. Analysis of an endothermic reaction in a packed
column Andrew C. Fowler; 9. Simulation of the temperature behavior of hot
glass during cooling Helmut Neunzert, Norbert Siedow and Frank Zingsheim;
10. Water equilibration in vapor-diffusion crystal growth Arnon Chait,
Elizabeth Gray and Gerald W. Young; 11. Modeling of quasi-static and
dynamic load responses of filled viscoelastic materials H. T. Banks,
Gabriella A. Pintér, Laura K. Potter, Michael J. Gaitens and Lynn C. Yanyo;
12. A gasdynamic-acoustic model of a bird scare gun Sjoerd W. Rienstra; 13.
Paper tension variations in a printing press Colin P. Please.
Introduction; 1. Fluid mechanical modeling of the scroll compressor Peter
D. Howell; 2. Determining the viscosity of a carbon paste used in smelting
Alistair Fitt; 3. The vibrating element densitometer Ellis Cumberbatch; 4.
Acoustic emission from FRP damages hoop-wrapped cylinders D. Rex Westbrook;
5. Modeling the cooking of a single cereal grain Kerry A. Landman and Mark
J. McGuinness; 6. Epidemic waves in animal populations: a case study Britta
Basse and Graeme C. Wake; 7. Dynamics of automotive catalytic converters
Donald Schwendeman; 8. Analysis of an endothermic reaction in a packed
column Andrew C. Fowler; 9. Simulation of the temperature behavior of hot
glass during cooling Helmut Neunzert, Norbert Siedow and Frank Zingsheim;
10. Water equilibration in vapor-diffusion crystal growth Arnon Chait,
Elizabeth Gray and Gerald W. Young; 11. Modeling of quasi-static and
dynamic load responses of filled viscoelastic materials H. T. Banks,
Gabriella A. Pintér, Laura K. Potter, Michael J. Gaitens and Lynn C. Yanyo;
12. A gasdynamic-acoustic model of a bird scare gun Sjoerd W. Rienstra; 13.
Paper tension variations in a printing press Colin P. Please.
D. Howell; 2. Determining the viscosity of a carbon paste used in smelting
Alistair Fitt; 3. The vibrating element densitometer Ellis Cumberbatch; 4.
Acoustic emission from FRP damages hoop-wrapped cylinders D. Rex Westbrook;
5. Modeling the cooking of a single cereal grain Kerry A. Landman and Mark
J. McGuinness; 6. Epidemic waves in animal populations: a case study Britta
Basse and Graeme C. Wake; 7. Dynamics of automotive catalytic converters
Donald Schwendeman; 8. Analysis of an endothermic reaction in a packed
column Andrew C. Fowler; 9. Simulation of the temperature behavior of hot
glass during cooling Helmut Neunzert, Norbert Siedow and Frank Zingsheim;
10. Water equilibration in vapor-diffusion crystal growth Arnon Chait,
Elizabeth Gray and Gerald W. Young; 11. Modeling of quasi-static and
dynamic load responses of filled viscoelastic materials H. T. Banks,
Gabriella A. Pintér, Laura K. Potter, Michael J. Gaitens and Lynn C. Yanyo;
12. A gasdynamic-acoustic model of a bird scare gun Sjoerd W. Rienstra; 13.
Paper tension variations in a printing press Colin P. Please.