Mary Anne White
Physical Properties of Materials, Third Edition (eBook, PDF)
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Mary Anne White
Physical Properties of Materials, Third Edition (eBook, PDF)
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New topics include references to the latest research topics in materials science and engineering, such as boron nitride nanotubes, new cloaking technologies, new energy storage materials, and materials for renewable energy capture. It now features a glossary at the end of the book, making it a useful reference as well as an excellent textbook.
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New topics include references to the latest research topics in materials science and engineering, such as boron nitride nanotubes, new cloaking technologies, new energy storage materials, and materials for renewable energy capture. It now features a glossary at the end of the book, making it a useful reference as well as an excellent textbook.
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Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 518
- Erscheinungstermin: 12. Oktober 2018
- Englisch
- ISBN-13: 9780429887116
- Artikelnr.: 54534259
- Verlag: Taylor & Francis
- Seitenzahl: 518
- Erscheinungstermin: 12. Oktober 2018
- Englisch
- ISBN-13: 9780429887116
- Artikelnr.: 54534259
Mary Anne White is a materials research scientist and writer, and highly recognized educator and communicator of science. Mary Anne White presently holds the distinguished title of Harry Shirreff Professor of Chemical Research (Emerita) at Dalhousie University, Halifax, Nova Scotia, Canada, where she has been since 1983, after receiving a BSc in Honors Chemistry from the University of Western Ontario, a PhD in Chemistry from McMaster University, and a postdoctoral fellowship at Oxford University. From 2002 to 2006, she was the founding director of the Institute for Research in Materials at Dalhousie University, and from 2010 to 2016 she was director of the multidisciplinary graduate program, Dalhousie Research in Energy, Advanced Materials and Sustainability: DREAMS. She has been Professor (Emerita) since 2017, and continues her research and writing. Mary Anne's research area is energetics and thermal properties of materials. She has made significant contributions to understanding how heat is stored and conducted through materials. Her work has led to new materials that can convert waste heat to energy, and materials that can trap solar energy. Mary Anne's research contributions have been recognized by national and international awards. Mary Anne is an author of 200 research papers, several book chapters, and this book, "Physical Properties of Materials." She has trained more than 40 graduate students and postdoctoral fellows, and more than 70 undergraduate research students.Mary Anne enjoys sharing her knowledge with students and with the general public. She is especially well known for presenting clear explanations of difficult concepts. Mary Anne's outstanding abilities as an educator have been recognized by the Union Carbide Award for Chemical Education from the Chemical Institute of Canada. Mary Anne has given more than 150 invited presentations at conferences, universities, government laboratories and industries around the world.Mary Anne has been active throughout her career in bringing science to the general public. This includes: helping establish a hands-on science centre; many presentations for schools, the general public and others (including a lecture for Members of Canada's Parliament and Senate); booklets on science activities for children (published by the Canadian Society for Chemistry); national organizer of National Chemistry Week; more than 150 articles for educators or the general public; appearances on television. For 14 years she was a regular (monthly) contributor on CBC Radio where she and a colleague fielded listeners' science questions, live on air. For her contributions to public awareness of science, Mary Anne was awarded the 2007 McNeil Medal of the Royal Society of Canada. She holds three honorary doctorates, and is an Officer of the Order of Canada.
Part I: INTRODUCTION. 1. Introduction to Materials Science. Part II: COLOR
AND OTHER OPTICAL PROPERTIES OF MATERIALS. 2. Atomic and Molecular Origins
of Color. 3. Color in Metals and Semiconductors. 4. Color from Interactions
of Light Waves with Bulk Matter. 5. Other Optical Effects. Part III:
THERMAL PROPERTIES OF MATERIALS. 6. Heat Capacity, Heat Content, and Energy
Storage. 7. Thermal Expansion. 8. Thermal Conductivity. 9. Thermodynamic
Aspects of Stability. 10. Surface and Interfacial Phenomena. 11. Other
Phases of Matter. Part IV: ELECTRICAL AND MAGNETIC PROPERTIES OF MATERIALS.
12. Electrical Properties. 13. Magnetic Properties. Part V: MECHANICAL
PROPERTIES OF MATERIALS. 14. Mechanical Properties. Appendix 1: Fundamental
Physical Constants. Appendix 2: Unit Conversions. Appendix 3: The Greek
Alphabet. Appendix 4: Sources of Lecture Demonstration Materials. Glossary.
Index.
AND OTHER OPTICAL PROPERTIES OF MATERIALS. 2. Atomic and Molecular Origins
of Color. 3. Color in Metals and Semiconductors. 4. Color from Interactions
of Light Waves with Bulk Matter. 5. Other Optical Effects. Part III:
THERMAL PROPERTIES OF MATERIALS. 6. Heat Capacity, Heat Content, and Energy
Storage. 7. Thermal Expansion. 8. Thermal Conductivity. 9. Thermodynamic
Aspects of Stability. 10. Surface and Interfacial Phenomena. 11. Other
Phases of Matter. Part IV: ELECTRICAL AND MAGNETIC PROPERTIES OF MATERIALS.
12. Electrical Properties. 13. Magnetic Properties. Part V: MECHANICAL
PROPERTIES OF MATERIALS. 14. Mechanical Properties. Appendix 1: Fundamental
Physical Constants. Appendix 2: Unit Conversions. Appendix 3: The Greek
Alphabet. Appendix 4: Sources of Lecture Demonstration Materials. Glossary.
Index.
Part I: INTRODUCTION. 1. Introduction to Materials Science. Part II: COLOR
AND OTHER OPTICAL PROPERTIES OF MATERIALS. 2. Atomic and Molecular Origins
of Color. 3. Color in Metals and Semiconductors. 4. Color from Interactions
of Light Waves with Bulk Matter. 5. Other Optical Effects. Part III:
THERMAL PROPERTIES OF MATERIALS. 6. Heat Capacity, Heat Content, and Energy
Storage. 7. Thermal Expansion. 8. Thermal Conductivity. 9. Thermodynamic
Aspects of Stability. 10. Surface and Interfacial Phenomena. 11. Other
Phases of Matter. Part IV: ELECTRICAL AND MAGNETIC PROPERTIES OF MATERIALS.
12. Electrical Properties. 13. Magnetic Properties. Part V: MECHANICAL
PROPERTIES OF MATERIALS. 14. Mechanical Properties. Appendix 1: Fundamental
Physical Constants. Appendix 2: Unit Conversions. Appendix 3: The Greek
Alphabet. Appendix 4: Sources of Lecture Demonstration Materials. Glossary.
Index.
AND OTHER OPTICAL PROPERTIES OF MATERIALS. 2. Atomic and Molecular Origins
of Color. 3. Color in Metals and Semiconductors. 4. Color from Interactions
of Light Waves with Bulk Matter. 5. Other Optical Effects. Part III:
THERMAL PROPERTIES OF MATERIALS. 6. Heat Capacity, Heat Content, and Energy
Storage. 7. Thermal Expansion. 8. Thermal Conductivity. 9. Thermodynamic
Aspects of Stability. 10. Surface and Interfacial Phenomena. 11. Other
Phases of Matter. Part IV: ELECTRICAL AND MAGNETIC PROPERTIES OF MATERIALS.
12. Electrical Properties. 13. Magnetic Properties. Part V: MECHANICAL
PROPERTIES OF MATERIALS. 14. Mechanical Properties. Appendix 1: Fundamental
Physical Constants. Appendix 2: Unit Conversions. Appendix 3: The Greek
Alphabet. Appendix 4: Sources of Lecture Demonstration Materials. Glossary.
Index.