ISBN: 978-87-7681-788-6
1 edition
256 halaman
Diterbitkan di: Juli 7, 2011
Harga: Gratis
deskripsi
Lanjutan Excel 2010 adalah salah satu eBook besar tersedia untuk download dari website kami.
Selasa, 25 Oktober 2011
Excel 2010 Advanced
ISBN: 978-87-7681-788-6
1 edition
256 halaman
Diterbitkan di: Juli 7, 2011
Harga: Gratis
deskripsi
Lanjutan Excel 2010 adalah salah satu eBook besar tersedia untuk download dari website kami.
Sabtu, 22 Oktober 2011
Heat Transfer
ISBN: 978-87-7681-432-8
1 edition
156 pages
Published: 01 January 2009
Price: Free
Description
This book explains the basic modes of heat transfer namely conduction, convection and radiation. Fundamental mathematical models representing the heat transfer modes are introduced and application engineering problems are discussed. The principles of heat exchangers operation are covered as well.
Jumat, 21 Oktober 2011
Travel to Paris
ISBN: 978-87-7061-414-6
2 edition
37 pages
Published: 01 January 2010
Price: Free
Description
Travel to Paris is one of the great eBooks available to download from our website.
There are more than 500 Textbooks, Business Books & Travel Guides in our book collection.
Kamis, 20 Oktober 2011
Food Processing
ISBN: 978-87-7681-780-0
1 edition
107 pages
Published: 22 August 2011
Price: Free
Description
This e-book book aimed at undergraduates and practitioners who have an interest in food process engineering. It is designed to provide an overview of the many operations associated with the processing of raw food materials to produce products which are creative, palatable and safe to eat. It covers basic food chemistry and ingredients through to mixing, unsteady steady state heat transfer in freezing for preservation and thermal processing and sterilization.
Essentials of Nanotechnology
This book introduces the reader to the world of Nanotechnology, and explains the basic concepts and definitions regarding choice of materials, then it proceeds to discuss the areas of application.
Preface
Welcome to this Study Guide to nanotechnology.
Nanotechnology is widely considered to constitute the basis of the next technological revolution, following on from the first Industrial Revolution, which began around 1750 with the introduction of the steam engine and steelmaking (and which parallelled, or perhaps caused, upheavals in land ownership and agriculture practice). The Industrial Revolution constituted as profound a change in society and civilization as the earlier Stone, Bronze and Iron revolutions, each of which ushered in a distinctly new age in the history of human civilization. A second Industrial Revolution began around the end of the 19th century with the introduction of electricity on an industrial scale (and which paved the way for other innovations such as wireless communication), and most recently we have had the Information Revolution, characterized by the widespread introduction of computing devices and the internet.
Insofar as the further development of very large-scale integrated circuits used for information processing depends on reducing the sizes of the individual circuit components down to the nanoscale (i.e., a few tens of nanometres), the Information Revolution has now become the Nano Revolution—just as steam engines powered dynamos for the industrial generation of electricity. But, nanotechnology brings its own distinctive challenges, notably: (i) handling matter at the atomic scale (which is what nanotechnology is all about—a synonym is “atomically precise engineering”) means that qualitatively different behaviour needs to be taken into account; and (ii) in order for atomically precisely engineered objects to be useful for humans, they need to be somehow multiplied, which introduces the problem of handling vast numbers of entities.
One should not underestimate the multidisciplinary nature of nanotechnology. This forces researchers to adopt a manner of working more familiar to scientists in the 19th century than in the 21st. Many active fields in nanotechnology research demand an understanding of diverse areas of science. Sometimes this problem is solved by assembling teams of researchers but members of the team still need to be able to effectively communicate with one another. An inevitable consequence of this multidisciplinarity is that the range of material that needs to be covered is rather large. As a result, some topics have had to be dealt with rather sketchily in order to keep the size of this book within reasonable bounds, but I hope I may be at least partly excused for this by the continuing rapid evolution of nanotechnology, which in many cases would make additional details superfluous since their relevance is likely to be soon superseded. Fundamental discoveries will doubtless continue to be made in the realm of a very small—and given the closeness of discoveries to technology in this field, in many cases they will doubtless be rapidly developed into useful products.
References to the original literature are only given (as footnotes to the main text) when I consider the original article to be seminal, or that reading it will bring some additional illumination. At the end of each chapter I list some (mostly relatively short) authoritative review articles (and a few books) that could be usefully read by anyone wishing to go into more detail. These lists do not include standard texts on topics such as the general properties of matter, electricity and magnetism, optics, quantum mechanics, and so forth.
Contents
1. What is nanotechnology?
1.1 Definitions
1.2 History of nanotechnology
1.3 Context of nanotechnology
1.4 Further reading
2. Motivation for nanotechnology
2.1 Materials
2.2 Devices
2.3 Systems
2.4 Issues in miniaturization
2.5 Other motivations
3. Scaling laws
3.1 Materials
3.2 Forces
3.3 Device performance
3.4 Design
3.5 Further reading
4. Nanometrology
4.1 Imaging nanostructures
4.2 Nonimaging approaches
4.3 Other approaches
4.4 Metrology of self-assembly
4.5 Further reading
5. Raw materials of nanotechnology
5.1 Nanoparticles
5.2 Nanofibres
5.3 Nanoplates
5.4 Graphene-based materials
5.5 Biological effects of nanoparticles
5.6 Further reading
6. Nanodevices
6.1 Electronic devices
6.2 Magnetic devices
6.3 Photonic devices
6.4 Mechanical devices
6.5 Fluidic devices
6.6 Biomedical devices
6.7 Further reading
7. Nanofacture
7.1 Top-down methods
7.2 Molecular manufacturing
7.3 Bottom-up methods
7.4 Intermolecular interactions
7.5 Further reading
8. Bionanotechnology
8.1 Biomolecules
8.2 Characteristics of biological molecules
8.3 Mechanism of biological machines
8.4 Biological motors
8.5 The cost of control
8.6 Biophotonic devices
8.7 DNA as construction material
8.8 Further reading
9. New fields of nanotechnology
9.1 Quantum computing and spintronics
9.2 Nanomedicine
9.3 Energy
9.4 Three concepts
9.5 Further reading
10. Implications of nanotechnology
10.1 Enthusiasm
10.2 Neutrality
10.3 Opposition and scepticism
10.4 A sober view of the future
10.5 Further reading
Download Ebook : Essentials of Nanotechnology
Effective Communication Skill Presentation
This textbook introduces the reader to what being an outstanding communicator is all about. Understanding what effective communications actually are, how information is processed by your brain, how to get your point across in a concise and effective manner, how to build effortless rapport and much more besides.
Contents
Preface
1. Introduction – Effective Communication Skills
1.1 The Importance of Communication
1.2 What Is Communication?
1.3 What Are Communication Skills?
1.4 The Communication Process
1.4.1 Source
Langganan:
Entri (Atom)
Selasa, 25 Oktober 2011
Excel 2010 Advanced
ISBN: 978-87-7681-788-6
1 edition
256 halaman
Diterbitkan di: Juli 7, 2011
Harga: Gratis
deskripsi
Lanjutan Excel 2010 adalah salah satu eBook besar tersedia untuk download dari website kami.
Sabtu, 22 Oktober 2011
Heat Transfer
ISBN: 978-87-7681-432-8
1 edition
156 pages
Published: 01 January 2009
Price: Free
Description
This book explains the basic modes of heat transfer namely conduction, convection and radiation. Fundamental mathematical models representing the heat transfer modes are introduced and application engineering problems are discussed. The principles of heat exchangers operation are covered as well.
Jumat, 21 Oktober 2011
Travel to Paris
ISBN: 978-87-7061-414-6
2 edition
37 pages
Published: 01 January 2010
Price: Free
Description
Travel to Paris is one of the great eBooks available to download from our website.
There are more than 500 Textbooks, Business Books & Travel Guides in our book collection.
Kamis, 20 Oktober 2011
Food Processing
ISBN: 978-87-7681-780-0
1 edition
107 pages
Published: 22 August 2011
Price: Free
Description
This e-book book aimed at undergraduates and practitioners who have an interest in food process engineering. It is designed to provide an overview of the many operations associated with the processing of raw food materials to produce products which are creative, palatable and safe to eat. It covers basic food chemistry and ingredients through to mixing, unsteady steady state heat transfer in freezing for preservation and thermal processing and sterilization.
Essentials of Nanotechnology
This book introduces the reader to the world of Nanotechnology, and explains the basic concepts and definitions regarding choice of materials, then it proceeds to discuss the areas of application.
Preface
Welcome to this Study Guide to nanotechnology.
Nanotechnology is widely considered to constitute the basis of the next technological revolution, following on from the first Industrial Revolution, which began around 1750 with the introduction of the steam engine and steelmaking (and which parallelled, or perhaps caused, upheavals in land ownership and agriculture practice). The Industrial Revolution constituted as profound a change in society and civilization as the earlier Stone, Bronze and Iron revolutions, each of which ushered in a distinctly new age in the history of human civilization. A second Industrial Revolution began around the end of the 19th century with the introduction of electricity on an industrial scale (and which paved the way for other innovations such as wireless communication), and most recently we have had the Information Revolution, characterized by the widespread introduction of computing devices and the internet.
Insofar as the further development of very large-scale integrated circuits used for information processing depends on reducing the sizes of the individual circuit components down to the nanoscale (i.e., a few tens of nanometres), the Information Revolution has now become the Nano Revolution—just as steam engines powered dynamos for the industrial generation of electricity. But, nanotechnology brings its own distinctive challenges, notably: (i) handling matter at the atomic scale (which is what nanotechnology is all about—a synonym is “atomically precise engineering”) means that qualitatively different behaviour needs to be taken into account; and (ii) in order for atomically precisely engineered objects to be useful for humans, they need to be somehow multiplied, which introduces the problem of handling vast numbers of entities.
One should not underestimate the multidisciplinary nature of nanotechnology. This forces researchers to adopt a manner of working more familiar to scientists in the 19th century than in the 21st. Many active fields in nanotechnology research demand an understanding of diverse areas of science. Sometimes this problem is solved by assembling teams of researchers but members of the team still need to be able to effectively communicate with one another. An inevitable consequence of this multidisciplinarity is that the range of material that needs to be covered is rather large. As a result, some topics have had to be dealt with rather sketchily in order to keep the size of this book within reasonable bounds, but I hope I may be at least partly excused for this by the continuing rapid evolution of nanotechnology, which in many cases would make additional details superfluous since their relevance is likely to be soon superseded. Fundamental discoveries will doubtless continue to be made in the realm of a very small—and given the closeness of discoveries to technology in this field, in many cases they will doubtless be rapidly developed into useful products.
References to the original literature are only given (as footnotes to the main text) when I consider the original article to be seminal, or that reading it will bring some additional illumination. At the end of each chapter I list some (mostly relatively short) authoritative review articles (and a few books) that could be usefully read by anyone wishing to go into more detail. These lists do not include standard texts on topics such as the general properties of matter, electricity and magnetism, optics, quantum mechanics, and so forth.
Contents
1. What is nanotechnology?
1.1 Definitions
1.2 History of nanotechnology
1.3 Context of nanotechnology
1.4 Further reading
2. Motivation for nanotechnology
2.1 Materials
2.2 Devices
2.3 Systems
2.4 Issues in miniaturization
2.5 Other motivations
3. Scaling laws
3.1 Materials
3.2 Forces
3.3 Device performance
3.4 Design
3.5 Further reading
4. Nanometrology
4.1 Imaging nanostructures
4.2 Nonimaging approaches
4.3 Other approaches
4.4 Metrology of self-assembly
4.5 Further reading
5. Raw materials of nanotechnology
5.1 Nanoparticles
5.2 Nanofibres
5.3 Nanoplates
5.4 Graphene-based materials
5.5 Biological effects of nanoparticles
5.6 Further reading
6. Nanodevices
6.1 Electronic devices
6.2 Magnetic devices
6.3 Photonic devices
6.4 Mechanical devices
6.5 Fluidic devices
6.6 Biomedical devices
6.7 Further reading
7. Nanofacture
7.1 Top-down methods
7.2 Molecular manufacturing
7.3 Bottom-up methods
7.4 Intermolecular interactions
7.5 Further reading
8. Bionanotechnology
8.1 Biomolecules
8.2 Characteristics of biological molecules
8.3 Mechanism of biological machines
8.4 Biological motors
8.5 The cost of control
8.6 Biophotonic devices
8.7 DNA as construction material
8.8 Further reading
9. New fields of nanotechnology
9.1 Quantum computing and spintronics
9.2 Nanomedicine
9.3 Energy
9.4 Three concepts
9.5 Further reading
10. Implications of nanotechnology
10.1 Enthusiasm
10.2 Neutrality
10.3 Opposition and scepticism
10.4 A sober view of the future
10.5 Further reading
Download Ebook : Essentials of Nanotechnology
Effective Communication Skill Presentation
This textbook introduces the reader to what being an outstanding communicator is all about. Understanding what effective communications actually are, how information is processed by your brain, how to get your point across in a concise and effective manner, how to build effortless rapport and much more besides.
Contents
Preface
1. Introduction – Effective Communication Skills
1.1 The Importance of Communication
1.2 What Is Communication?
1.3 What Are Communication Skills?
1.4 The Communication Process
1.4.1 Source
Langganan:
Entri (Atom)