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Materials, Matter And Particles: A Brief History [Kietas viršelis]

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(University Of York, Uk)
  • Formatas: Hardback, 328 pages
  • Išleidimo metai: 06-Oct-2009
  • Leidėjas: Imperial College Press
  • ISBN-10: 1848164599
  • ISBN-13: 9781848164598
Kitos knygos pagal šią temą:
Materials, Matter And Particles: A Brief HistoryDidesnis paveikslėlis
  • Formatas: Hardback, 328 pages
  • Išleidimo metai: 06-Oct-2009
  • Leidėjas: Imperial College Press
  • ISBN-10: 1848164599
  • ISBN-13: 9781848164598
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9781848164598.html
Raktažodžiai:
This book traces the history of ideas about the nature of matter and also the way that mankind has used material resources that the world offers. Starting with the ideas of ancient civilizations that air, earth, fire and water were the basic ingredients of all matter, it traces the development of the science of chemistry beginning within the ranks of the alchemists. First, the idea of elements grew and then the atomic nature of matter was verified. Physicists had entered the scene, showing the nature of atoms in terms of fundamental particles and then introducing the concept of wave-particle duality that altered the basic concepts of what matter was. Finally the physicists discovered a panoply of fundamental particles, some observed within atom-smashing machines and the existence of others merely postulated.In parallel with the above there is a description of various kinds of matter as it affects everyday life including the nature of matter associated with life itself. The way that early man used the materials directly given by nature, such as stone, wood and animal skins, is followed by the use of materials requiring some process to be employed e.g. metals which include bronze and also concrete. Some important modern materials are discussed, such as synthetic fibres and plastics and semiconductors, and potentially important future products from new developments in nanotechnology.
Introduction 1(4)
The Elements of Nature
5(6)
Early Ideas of the Nature of Matter
11(6)
The Quest for Gold and Eternal Life
17(6)
The Beginning of Chemistry
23(8)
The Chaos of Alchemy
23(1)
Paracelsus and His Medicines
24(1)
Robert Boyle, the Gentleman Scientist
25(6)
Modern Chemistry is Born
31(10)
The Phlogiston Theory
31(1)
Joseph Priestley
32(4)
Antoine Lavoisier
36(5)
Nineteenth Century Chemistry
41(12)
Chemistry Becomes Quantitative
41(1)
John Dalton
42(3)
Amedeo Avogadro
45(2)
The Concept of Valency
47(1)
Chemical Industry is Born
48(2)
Bringing Order to the Elements
50(3)
Atoms Have Structure
53(12)
Michael Faraday
53(2)
The Nature of Cathode Rays
55(3)
J. J. Thomson and the Electron
58(3)
The Charge and Mass of the Electron
61(4)
Radioactivity and the Plum-Pudding Model
65(12)
Rontgen and X-rays
65(3)
Becquerel and Emanations from Uranium
68(2)
The Curies and Radioactivity
70(1)
Rutherford and the Nuclear Atom
71(6)
Some Early 20th Century Physics
77(8)
The Birth of Quantum Physics
77(3)
The Photoelectric Effect
80(2)
Characteristic X-rays
82(3)
What is a Nucleus Made Of?
85(10)
First Ideas on the Nature of the Nucleus
85(1)
Moseley's Contribution to Understanding Atomic Numbers
86(3)
Breaking Up the Nucleus
89(2)
Another Particle is Found
91(4)
Electrons in Atoms
95(12)
The Bohr Atom
95(4)
Waves and Particles
99(2)
The Bohr Theory and Waves
101(2)
An Improvement of the Bohr Theory
103(4)
The New Mechanics
107(14)
Schrodinger's Wave Equation
107(2)
The Wave Equation and Intuition
109(3)
Orbits Become Orbitals
112(4)
The Great Escape
116(2)
Heisenberg and Uncertainty
118(3)
Electrons and Chemistry
121(8)
Shells and the Periodic Table
121(4)
Valency
125(4)
Electron Spin and the Exclusion Principle
129(6)
The Stern-Gerlach Experiment
129(2)
Electrons in a Spin
131(2)
The Pauli Exclusion Principle
133(2)
Isotopes
135(6)
What is an Isotope?
135(1)
The Stable Isotopes of Some Common Materials
136(5)
Radioactivity and More Particles
141(14)
The Emission of α Particles
141(2)
β Emission
143(1)
The Positron
144(3)
Another Kind of β Emitter
147(1)
The Elusive Particle --- The Neutrino
148(4)
How Old is that Ancient Artefact?
152(1)
An Interim Assessment of the Nature of Matter
153(2)
Making Atoms, Explosions and Power
155(14)
The New Alchemy
155(1)
Reactions with α Particles
155(2)
Reactions with Protons
157(1)
γ-ray Induced Reactions
157(1)
Neutron Induced Reactions
158(1)
Fission Reactions
159(3)
The Atomic Bomb
162(3)
Atomic Power
165(1)
Fusion --- Better Power Production and Bigger Bombs
166(3)
Observing Matter on a Small Scale
169(14)
Seeing
169(2)
Microscopes
171(5)
X-ray Diffraction from Crystals
176(7)
Living Matter
183(12)
Defining Life
183(4)
Forms of Life
187(8)
Life at the Atomic Level
195(18)
Seeing Life Matter at the Atomic Level
195(2)
Encoding Complex Structures
197(1)
Encoding Living Matter --- The Chemistry of DNA
198(5)
The Double Helix
203(4)
What Makes Us How We Are?
207(3)
The Artifical Manipulation of Genes
210(3)
Materials from Ancient Times
213(24)
The Earliest Use of Natural Materials --- The Bronze Age
213(2)
Some Early Manufactured Materials --- The Bronze Age
215(7)
The Iron Age
222(5)
Cement and Concrete
227(3)
Clothing Materials
230(7)
Modern Materials
237(18)
Materials Old and New
237(1)
Manufactured Fibres, Synthetic Fibres and Plastics
238(7)
Semiconductors
245(5)
Nanotechnology
250(5)
The Fantastic World of Particles
255(18)
Antics on Ice
255(4)
The First Designed Atom-Smasher
259(2)
The Cyclotron
261(1)
The Stanford Linear Accelerator
262(1)
Synchrotrons and the Large Hadron Collider
263(4)
Some Fundamental Particles
267(6)
How Matter Began
273(14)
Wailing Sirens
273(2)
Measuring the Universe
275(3)
The Expanding Universe
278(2)
The Big Bang Hypothesis
280(1)
The Creation of Matter
281(6)
Making Heavier Elements
287(18)
The Architecture of the Universe
287(3)
Dark Matter and Dark Energy
290(1)
The Formation of a Star
291(3)
The Death of a Star
294(5)
The Evolving Universe
299(6)
Index 305