Bloomington, : Indiana University Press, c2013

1-283-73542-3

0-253-00963-4

1 online resource (345 p.)

Indiana natural science series

595.789

Butterflies - North America

Moths - North America

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Quick key -- The plates -- The basics. Introduction ; How to identify butterflies and skippers -- Beyond the basics. Indiana and its butterflies ; Where, when, and how to look for butterflies ; The life of a butterfly ; Butterfly behavior ; Activities with butterflies ; Butterfly conservation ; Conclusion -- Appendixes -- Glossary -- Bibliography -- Index -- Quick index.

This field guide to Indiana's rich butterfly fauna covers all 149 species of butterflies and their close relatives, the skippers. Belth also offers an introduction to the natural history of butterflies.

Wiley-Blackwell, 2022

London, England ; ; Hoboken, New Jersey : , : ISTE, Ltd. : , : John Wiley & Sons, Incorporated, , [2022]

©2022

1-394-18615-0

1-394-18614-2

1-394-18613-4

1 online resource (184 pages)

621.4024

Heat - Transmission

Inglese

Includes bibliographical references and index.

Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Introduction -- List of Notations -- Chapter 1. Concepts of Gas-Liquid Flows -- 1.1. Introduction and basic concepts -- 1.2. Gas-liquid flows -- 1.2.1. The physics of two-phase flows -- 1.2.2. Classification of flows -- 1.2.3. Topologies of a heated vertical flow -- 1.2.4. Calculation of fluxes -- 1.3. Dispersed phase flows: mists and sprays -- 1.3.1. Mist -- 1.3.2. Spray generation -- 1.3.3. Spray characterization: particle sizing -- 1.3.4. Spray vaporization: the case of the isolated drop -- 1.4. Several examples -- Chapter 2. Convection of Species -- 2.1. Introduction -- 2.2. Characterization of a mixture: definitions -- 2.3. Law of diffusive transfer: Fick's law -- 2.4. Similarity of transport equations -- 2.5. Solving the equations of diffusive transport -- 2.5.1. Analogies -- 2.5.2. Non-reactive boundary layer: concentration fixed at the wall -- 2.5.3. Non-reactive boundary layer: wall catalysis -- 2.5.4. Reactive boundary layer -- Chapter 3. Phase Change Materials -- 3.1. Introduction -- 3.2. PCM for cooling mechatronics devices -- 3.2.1. Description of heat transfer and PCM behavior -- 3.2.2. PCM behavior -- 3.3. Numerical model -- 3.3.1. Description of the 3D model -- 3.3.2. Heat sink without PCMs -- 3.3.3.

Heat sink with PCMs -- 3.4. Conclusion -- Chapter 4. Electro-Thermo-Mechanical Modeling of Systems -- 4.1. Introduction -- 4.2. Theory of electro-thermo-mechanical coupling -- 4.2.1. Electro-thermal phenomena -- 4.2.2. Numerical formulation of the electro-thermo-mechanical coupling -- 4.3. Finite element simulation of the electro-thermo-mechanical behavior -- 4.3.1. Strong coupling of the electro-thermo-mechanical modeling -- 4.3.2. Weak coupling of the electro-thermo-mechanical modeling -- 4.4. Example of electro-thermo-mechanical simulation of an HBT transistor.

4.4.1. Global model of HPA -- 4.4.2. Local model of an HBT transistor -- 4.5. Modal analysis of mechatronic components -- 4.5.1. Writing the equation of the vibration problem -- 4.5.2. Variational formulation -- 4.5.3. Finite element approximation -- 4.5.4. Resolution in the frequency domain -- 4.6. Stochastic modal analysis of mechatronics components -- 4.7. Numerical identification of the elastic parameters of electronic components -- 4.8. Example of modeling and simulation of the vibratory behavior of mechatronic components -- 4.9. Conclusion -- Appendices -- Appendix 1. Physical Properties of Common Fluids -- Appendix 2. Physical Properties of Common Solids -- Appendix 3. Thermodynamic Properties of Water Vapor -- Appendix 4. Table of Functions: erf (x). erfc(x) and ierfc(x) -- References -- Index -- EULA.