Verfügbarkeit: Let there be light :

Let there be light :: the story of light from atoms to galaxies /

This book is the first of its kind to devote itself at this level to the key role played by light and electromagnetic radiation in the universe. Readers are introduced to philosophical hypotheses such as the economy, symmetry, and universality of natural laws, and are then guided to practical conseq...

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Bibliographische Detailangaben
1. Verfasser:	Montwill, Alex
Körperschaft:	World Scientific (Firm)
Weitere Verfasser:	Breslin, Ann
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	London : Singapore : Imperial College Press ; Distributed by World Scientific, ©2008.
Schlagworte:	Light. Electromagnetic waves. Physics > History. Lumière. Ondes électromagnétiques. Physique > Histoire. light (energy) electromagnetic radiation. SCIENCE > Physics > Optics & Light. Electromagnetic waves Light Physics History
Online-Zugang:	Volltext
Zusammenfassung:	This book is the first of its kind to devote itself at this level to the key role played by light and electromagnetic radiation in the universe. Readers are introduced to philosophical hypotheses such as the economy, symmetry, and universality of natural laws, and are then guided to practical consequences such as the rules of geometrical optics and even Einstein's well-known but mysterious relationship, E = mc2. Most chapters feature a pen picture of the life and character of a relevant scientific figure. These "Historical Interludes" include, among others, Galileo's conflicts with the Inquisition, Fourier's taunting of the guillotine, Neils Bohr and World War II, and the unique character of Richard Feynman.
Beschreibung:	Includes index.
Beschreibung:	1 online resource (xxxiii, 595 pages) : illustrations (some color), maps (some color)
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781860948510 1860948510 9781848163287 1848163282

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100	1		\|a Montwill, Alex.
245	1	0	\|a Let there be light : \|b the story of light from atoms to galaxies / \|c Alex Montwill & Ann Breslin.
260			\|a London : \|b Imperial College Press ; \|a Singapore : \|b Distributed by World Scientific, \|c ©2008.
300			\|a 1 online resource (xxxiii, 595 pages) : \|b illustrations (some color), maps (some color)
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505	0		\|a Ch. 1. Introducing light. 1.1. The perception of light through the ages. 1.2. Colours. 1.3. Measuring the speed of light. 1.4. The process of vision. 1.5. The nature of light. 1.6. The birth of quantum mechanics -- ch. 2. Geometrical optics: reflection. 2.1. Fermat's law. 2.2. Mirrors -- ch. 3. Geometrical optics: refraction. 3.1. Refraction. 3.2. Lenses. 3.4. Objects and images: converging lenses. 3.5. Lens combinations. 3.6. The eye. 3.7. Making visible what the eye cannot see. 3.8. Combinations of lenses. 3.9. A final note on Fermat's principle -- ch. 4. Light from afar -- astronomy. 4.1. The earth. 4.2. The Moon. 4.3. Sizes and distances. 4.4. The planets. 4.5. The Copernican revolution. 4.6. After Copernicus. 4.7. The solar system in perspective -- ch. 5. Light from the past -- astrophysics. 5.1. The birth of astrophysics. 5.2. The methods of astrophysics. 5.3. Other stars and their 'solar systems'. 5.4. Reconstructing the past. 5.5. The life and death of a star -- ch. 6. Introducing waves. 6.1 Waves -- the basic means of communication. 6.2. The mathematics of a travelling wave. 6.3. The superposition of waves. 6.4. Applying the superposition principle. 6.5. Forced oscillations and resonance. 6.6. Resonance -- a part of life. 6.7. Diffraction -- waves can bend around corners. 6.8. The magic of sine and the simplicity of nature -- ch. 7. Sound waves. 7.1. Sound and hearing. 7.2. Sound as a tool. 7.3. Superposition of sound waves. 7.4. Sound intensity. 7.5. Other sensations. 7.6. Strings and pipes in music. 7.7. The Doppler effect -- ch. 8. Light as a wave. 8.1. Light as a wave. 8.2. Wave properties which do not make reference to a medium. 8.3. Specifically light. 8.4. Is there a limit to what we can distinguish? 8.5. Other electromagnetic waves. 8.6. Light from two sources. 8.7. Interference as a tool. 8.8. Thin films. 8.9. Diffraction gratings. 8.10. Other 'lights'. 8.11. Coherence. 8.12. Polarisation -- ch. 9. Making images. 9.1. Creating images. 9.2. Holography -- ch. 10. There was electricity, there was magnetism, and then there was light ... 10.1. The mystery of 'action at a distance'. 10.2. 'Fields of force'. 10.3. Magnetism. 10.4. Electrodynamics. 10.5. Getting electric charges to move with the help of magnetism. 10.6. Maxwell's synthesis. 10.7. Then there was light -- ch. 11. 'Atoms of light' -- the birth of quantum theory. 11.1. Emission of energy by radiation. 11.2. Classical theoretical models of the blackbody radiation spectrum. 11.3. Max Planck enters the scene. 11.4. Planck's 'act of despair'. 11.5. From an idea to a formula -- the mathematical journey -- ch. 12. The development of quantum mechanics. 12.1. The development of quantum mechanics. 12.2. Matrix mechanics. 12.3. Order does matter. 12.4. Wave mechanics. 12.5. Generalised quantum mechanics. 12.6. Quantum reality -- ch. 13. Atoms of light acting as particles. 13.1. The photoelectric effect. 13.2. The Compton effect -- more evidence -- ch. 14. Atoms of light behaving as waves. 14.1. Photons one at a time. 14.2. Feynman's 'strange theory of the photon' -- ch. 15. Relativity pt. 1: how it began. 15.1. Space and time. 15.2. 'Dogmatic rigidity'. 15.3. Looking for the ether. 15.4. Symmetry. 15.5. The first postulate. 15.6. The second postulate. 15.7. The fourth dimension. 15.8. A philosophical interlude -- ch. 16. Relativity pt. 2: verifiable predictions. 16.1. Time dilation. 16.2. E = mc2, the most famous result of all. 16.3. The steps from symmetry to nuclear energy. 16.4. Working with relativity -- ch. 17. Epilogue. 17.1. Making matter out of energy. 17.2. A unified theory of weak and electromagnetic forces.
520			\|a This book is the first of its kind to devote itself at this level to the key role played by light and electromagnetic radiation in the universe. Readers are introduced to philosophical hypotheses such as the economy, symmetry, and universality of natural laws, and are then guided to practical consequences such as the rules of geometrical optics and even Einstein's well-known but mysterious relationship, E = mc2. Most chapters feature a pen picture of the life and character of a relevant scientific figure. These "Historical Interludes" include, among others, Galileo's conflicts with the Inquisition, Fourier's taunting of the guillotine, Neils Bohr and World War II, and the unique character of Richard Feynman.
504			\|a Includes bibliographical references and index.
650		0	\|a Light. \|0 http://id.loc.gov/authorities/subjects/sh85076871
650		0	\|a Electromagnetic waves. \|0 http://id.loc.gov/authorities/subjects/sh85042179
650		0	\|a Physics \|x History.
650		6	\|a Lumière.
650		6	\|a Ondes électromagnétiques.
650		6	\|a Physique \|x Histoire.
650		7	\|a light (energy) \|2 aat
650		7	\|a electromagnetic radiation. \|2 aat
650		7	\|a SCIENCE \|x Physics \|x Optics & Light. \|2 bisacsh
650		7	\|a Electromagnetic waves \|2 fast
650		7	\|a Light \|2 fast
650		7	\|a Physics \|2 fast
655		7	\|a History \|2 fast
700	1		\|a Breslin, Ann.
710	2		\|a World Scientific (Firm) \|0 http://id.loc.gov/authorities/names/no2001005546
758			\|i has work: \|a Let there be light (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCGfHjGCfMC9J3mkfB4tmgq \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|a Breslin, Ann. \|t Let There Be Light : The Story Of Light From Atoms To Galaxies. \|d Singapore : World Scientific & Imperial College Press, ©2008 \|z 9781860948503
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contents	Ch. 1. Introducing light. 1.1. The perception of light through the ages. 1.2. Colours. 1.3. Measuring the speed of light. 1.4. The process of vision. 1.5. The nature of light. 1.6. The birth of quantum mechanics -- ch. 2. Geometrical optics: reflection. 2.1. Fermat's law. 2.2. Mirrors -- ch. 3. Geometrical optics: refraction. 3.1. Refraction. 3.2. Lenses. 3.4. Objects and images: converging lenses. 3.5. Lens combinations. 3.6. The eye. 3.7. Making visible what the eye cannot see. 3.8. Combinations of lenses. 3.9. A final note on Fermat's principle -- ch. 4. Light from afar -- astronomy. 4.1. The earth. 4.2. The Moon. 4.3. Sizes and distances. 4.4. The planets. 4.5. The Copernican revolution. 4.6. After Copernicus. 4.7. The solar system in perspective -- ch. 5. Light from the past -- astrophysics. 5.1. The birth of astrophysics. 5.2. The methods of astrophysics. 5.3. Other stars and their 'solar systems'. 5.4. Reconstructing the past. 5.5. The life and death of a star -- ch. 6. Introducing waves. 6.1 Waves -- the basic means of communication. 6.2. The mathematics of a travelling wave. 6.3. The superposition of waves. 6.4. Applying the superposition principle. 6.5. Forced oscillations and resonance. 6.6. Resonance -- a part of life. 6.7. Diffraction -- waves can bend around corners. 6.8. The magic of sine and the simplicity of nature -- ch. 7. Sound waves. 7.1. Sound and hearing. 7.2. Sound as a tool. 7.3. Superposition of sound waves. 7.4. Sound intensity. 7.5. Other sensations. 7.6. Strings and pipes in music. 7.7. The Doppler effect -- ch. 8. Light as a wave. 8.1. Light as a wave. 8.2. Wave properties which do not make reference to a medium. 8.3. Specifically light. 8.4. Is there a limit to what we can distinguish? 8.5. Other electromagnetic waves. 8.6. Light from two sources. 8.7. Interference as a tool. 8.8. Thin films. 8.9. Diffraction gratings. 8.10. Other 'lights'. 8.11. Coherence. 8.12. Polarisation -- ch. 9. Making images. 9.1. Creating images. 9.2. Holography -- ch. 10. There was electricity, there was magnetism, and then there was light ... 10.1. The mystery of 'action at a distance'. 10.2. 'Fields of force'. 10.3. Magnetism. 10.4. Electrodynamics. 10.5. Getting electric charges to move with the help of magnetism. 10.6. Maxwell's synthesis. 10.7. Then there was light -- ch. 11. 'Atoms of light' -- the birth of quantum theory. 11.1. Emission of energy by radiation. 11.2. Classical theoretical models of the blackbody radiation spectrum. 11.3. Max Planck enters the scene. 11.4. Planck's 'act of despair'. 11.5. From an idea to a formula -- the mathematical journey -- ch. 12. The development of quantum mechanics. 12.1. The development of quantum mechanics. 12.2. Matrix mechanics. 12.3. Order does matter. 12.4. Wave mechanics. 12.5. Generalised quantum mechanics. 12.6. Quantum reality -- ch. 13. Atoms of light acting as particles. 13.1. The photoelectric effect. 13.2. The Compton effect -- more evidence -- ch. 14. Atoms of light behaving as waves. 14.1. Photons one at a time. 14.2. Feynman's 'strange theory of the photon' -- ch. 15. Relativity pt. 1: how it began. 15.1. Space and time. 15.2. 'Dogmatic rigidity'. 15.3. Looking for the ether. 15.4. Symmetry. 15.5. The first postulate. 15.6. The second postulate. 15.7. The fourth dimension. 15.8. A philosophical interlude -- ch. 16. Relativity pt. 2: verifiable predictions. 16.1. Time dilation. 16.2. E = mc2, the most famous result of all. 16.3. The steps from symmetry to nuclear energy. 16.4. Working with relativity -- ch. 17. Epilogue. 17.1. Making matter out of energy. 17.2. A unified theory of weak and electromagnetic forces.
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Introducing waves. 6.1 Waves -- the basic means of communication. 6.2. The mathematics of a travelling wave. 6.3. The superposition of waves. 6.4. Applying the superposition principle. 6.5. Forced oscillations and resonance. 6.6. Resonance -- a part of life. 6.7. Diffraction -- waves can bend around corners. 6.8. The magic of sine and the simplicity of nature -- ch. 7. Sound waves. 7.1. Sound and hearing. 7.2. Sound as a tool. 7.3. Superposition of sound waves. 7.4. Sound intensity. 7.5. Other sensations. 7.6. Strings and pipes in music. 7.7. The Doppler effect -- ch. 8. Light as a wave. 8.1. Light as a wave. 8.2. Wave properties which do not make reference to a medium. 8.3. Specifically light. 8.4. Is there a limit to what we can distinguish? 8.5. Other electromagnetic waves. 8.6. Light from two sources. 8.7. Interference as a tool. 8.8. Thin films. 8.9. Diffraction gratings. 8.10. Other 'lights'. 8.11. Coherence. 8.12. Polarisation -- ch. 9. Making images. 9.1. Creating images. 9.2. Holography -- ch. 10. There was electricity, there was magnetism, and then there was light ... 10.1. The mystery of 'action at a distance'. 10.2. 'Fields of force'. 10.3. Magnetism. 10.4. Electrodynamics. 10.5. Getting electric charges to move with the help of magnetism. 10.6. Maxwell's synthesis. 10.7. Then there was light -- ch. 11. 'Atoms of light' -- the birth of quantum theory. 11.1. Emission of energy by radiation. 11.2. Classical theoretical models of the blackbody radiation spectrum. 11.3. Max Planck enters the scene. 11.4. Planck's 'act of despair'. 11.5. From an idea to a formula -- the mathematical journey -- ch. 12. The development of quantum mechanics. 12.1. The development of quantum mechanics. 12.2. Matrix mechanics. 12.3. Order does matter. 12.4. Wave mechanics. 12.5. Generalised quantum mechanics. 12.6. Quantum reality -- ch. 13. Atoms of light acting as particles. 13.1. The photoelectric effect. 13.2. The Compton effect -- more evidence -- ch. 14. Atoms of light behaving as waves. 14.1. Photons one at a time. 14.2. Feynman's 'strange theory of the photon' -- ch. 15. Relativity pt. 1: how it began. 15.1. Space and time. 15.2. 'Dogmatic rigidity'. 15.3. Looking for the ether. 15.4. Symmetry. 15.5. The first postulate. 15.6. The second postulate. 15.7. The fourth dimension. 15.8. A philosophical interlude -- ch. 16. Relativity pt. 2: verifiable predictions. 16.1. Time dilation. 16.2. E = mc2, the most famous result of all. 16.3. The steps from symmetry to nuclear energy. 16.4. Working with relativity -- ch. 17. Epilogue. 17.1. Making matter out of energy. 17.2. A unified theory of weak and electromagnetic forces.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">This book is the first of its kind to devote itself at this level to the key role played by light and electromagnetic radiation in the universe. 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id	ZDB-4-EBA-ocn756209319
illustrated	Illustrated
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spelling	Montwill, Alex. Let there be light : the story of light from atoms to galaxies / Alex Montwill & Ann Breslin. London : Imperial College Press ; Singapore : Distributed by World Scientific, ©2008. 1 online resource (xxxiii, 595 pages) : illustrations (some color), maps (some color) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes index. Ch. 1. Introducing light. 1.1. The perception of light through the ages. 1.2. Colours. 1.3. Measuring the speed of light. 1.4. The process of vision. 1.5. The nature of light. 1.6. The birth of quantum mechanics -- ch. 2. Geometrical optics: reflection. 2.1. Fermat's law. 2.2. Mirrors -- ch. 3. Geometrical optics: refraction. 3.1. Refraction. 3.2. Lenses. 3.4. Objects and images: converging lenses. 3.5. Lens combinations. 3.6. The eye. 3.7. Making visible what the eye cannot see. 3.8. Combinations of lenses. 3.9. A final note on Fermat's principle -- ch. 4. Light from afar -- astronomy. 4.1. The earth. 4.2. The Moon. 4.3. Sizes and distances. 4.4. The planets. 4.5. The Copernican revolution. 4.6. After Copernicus. 4.7. The solar system in perspective -- ch. 5. Light from the past -- astrophysics. 5.1. The birth of astrophysics. 5.2. The methods of astrophysics. 5.3. Other stars and their 'solar systems'. 5.4. Reconstructing the past. 5.5. The life and death of a star -- ch. 6. Introducing waves. 6.1 Waves -- the basic means of communication. 6.2. The mathematics of a travelling wave. 6.3. The superposition of waves. 6.4. Applying the superposition principle. 6.5. Forced oscillations and resonance. 6.6. Resonance -- a part of life. 6.7. Diffraction -- waves can bend around corners. 6.8. The magic of sine and the simplicity of nature -- ch. 7. Sound waves. 7.1. Sound and hearing. 7.2. Sound as a tool. 7.3. Superposition of sound waves. 7.4. Sound intensity. 7.5. Other sensations. 7.6. Strings and pipes in music. 7.7. The Doppler effect -- ch. 8. Light as a wave. 8.1. Light as a wave. 8.2. Wave properties which do not make reference to a medium. 8.3. Specifically light. 8.4. Is there a limit to what we can distinguish? 8.5. Other electromagnetic waves. 8.6. Light from two sources. 8.7. Interference as a tool. 8.8. Thin films. 8.9. Diffraction gratings. 8.10. Other 'lights'. 8.11. Coherence. 8.12. Polarisation -- ch. 9. Making images. 9.1. Creating images. 9.2. Holography -- ch. 10. There was electricity, there was magnetism, and then there was light ... 10.1. The mystery of 'action at a distance'. 10.2. 'Fields of force'. 10.3. Magnetism. 10.4. Electrodynamics. 10.5. Getting electric charges to move with the help of magnetism. 10.6. Maxwell's synthesis. 10.7. Then there was light -- ch. 11. 'Atoms of light' -- the birth of quantum theory. 11.1. Emission of energy by radiation. 11.2. Classical theoretical models of the blackbody radiation spectrum. 11.3. Max Planck enters the scene. 11.4. Planck's 'act of despair'. 11.5. From an idea to a formula -- the mathematical journey -- ch. 12. The development of quantum mechanics. 12.1. The development of quantum mechanics. 12.2. Matrix mechanics. 12.3. Order does matter. 12.4. Wave mechanics. 12.5. Generalised quantum mechanics. 12.6. Quantum reality -- ch. 13. Atoms of light acting as particles. 13.1. The photoelectric effect. 13.2. The Compton effect -- more evidence -- ch. 14. Atoms of light behaving as waves. 14.1. Photons one at a time. 14.2. Feynman's 'strange theory of the photon' -- ch. 15. Relativity pt. 1: how it began. 15.1. Space and time. 15.2. 'Dogmatic rigidity'. 15.3. Looking for the ether. 15.4. Symmetry. 15.5. The first postulate. 15.6. The second postulate. 15.7. The fourth dimension. 15.8. A philosophical interlude -- ch. 16. Relativity pt. 2: verifiable predictions. 16.1. Time dilation. 16.2. E = mc2, the most famous result of all. 16.3. The steps from symmetry to nuclear energy. 16.4. Working with relativity -- ch. 17. Epilogue. 17.1. Making matter out of energy. 17.2. A unified theory of weak and electromagnetic forces. This book is the first of its kind to devote itself at this level to the key role played by light and electromagnetic radiation in the universe. Readers are introduced to philosophical hypotheses such as the economy, symmetry, and universality of natural laws, and are then guided to practical consequences such as the rules of geometrical optics and even Einstein's well-known but mysterious relationship, E = mc2. Most chapters feature a pen picture of the life and character of a relevant scientific figure. These "Historical Interludes" include, among others, Galileo's conflicts with the Inquisition, Fourier's taunting of the guillotine, Neils Bohr and World War II, and the unique character of Richard Feynman. Includes bibliographical references and index. Light. http://id.loc.gov/authorities/subjects/sh85076871 Electromagnetic waves. http://id.loc.gov/authorities/subjects/sh85042179 Physics History. Lumière. Ondes électromagnétiques. Physique Histoire. light (energy) aat electromagnetic radiation. aat SCIENCE Physics Optics & Light. bisacsh Electromagnetic waves fast Light fast Physics fast History fast Breslin, Ann. World Scientific (Firm) http://id.loc.gov/authorities/names/no2001005546 has work: Let there be light (Text) https://id.oclc.org/worldcat/entity/E39PCGfHjGCfMC9J3mkfB4tmgq https://id.oclc.org/worldcat/ontology/hasWork Print version: Breslin, Ann. Let There Be Light : The Story Of Light From Atoms To Galaxies. Singapore : World Scientific & Imperial College Press, ©2008 9781860948503 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=516768 Volltext
spellingShingle	Montwill, Alex Let there be light : the story of light from atoms to galaxies / Ch. 1. Introducing light. 1.1. The perception of light through the ages. 1.2. Colours. 1.3. Measuring the speed of light. 1.4. The process of vision. 1.5. The nature of light. 1.6. The birth of quantum mechanics -- ch. 2. Geometrical optics: reflection. 2.1. Fermat's law. 2.2. Mirrors -- ch. 3. Geometrical optics: refraction. 3.1. Refraction. 3.2. Lenses. 3.4. Objects and images: converging lenses. 3.5. Lens combinations. 3.6. The eye. 3.7. Making visible what the eye cannot see. 3.8. Combinations of lenses. 3.9. A final note on Fermat's principle -- ch. 4. Light from afar -- astronomy. 4.1. The earth. 4.2. The Moon. 4.3. Sizes and distances. 4.4. The planets. 4.5. The Copernican revolution. 4.6. After Copernicus. 4.7. The solar system in perspective -- ch. 5. Light from the past -- astrophysics. 5.1. The birth of astrophysics. 5.2. The methods of astrophysics. 5.3. Other stars and their 'solar systems'. 5.4. Reconstructing the past. 5.5. The life and death of a star -- ch. 6. Introducing waves. 6.1 Waves -- the basic means of communication. 6.2. The mathematics of a travelling wave. 6.3. The superposition of waves. 6.4. Applying the superposition principle. 6.5. Forced oscillations and resonance. 6.6. Resonance -- a part of life. 6.7. Diffraction -- waves can bend around corners. 6.8. The magic of sine and the simplicity of nature -- ch. 7. Sound waves. 7.1. Sound and hearing. 7.2. Sound as a tool. 7.3. Superposition of sound waves. 7.4. Sound intensity. 7.5. Other sensations. 7.6. Strings and pipes in music. 7.7. The Doppler effect -- ch. 8. Light as a wave. 8.1. Light as a wave. 8.2. Wave properties which do not make reference to a medium. 8.3. Specifically light. 8.4. Is there a limit to what we can distinguish? 8.5. Other electromagnetic waves. 8.6. Light from two sources. 8.7. Interference as a tool. 8.8. Thin films. 8.9. Diffraction gratings. 8.10. Other 'lights'. 8.11. Coherence. 8.12. Polarisation -- ch. 9. Making images. 9.1. Creating images. 9.2. Holography -- ch. 10. There was electricity, there was magnetism, and then there was light ... 10.1. The mystery of 'action at a distance'. 10.2. 'Fields of force'. 10.3. Magnetism. 10.4. Electrodynamics. 10.5. Getting electric charges to move with the help of magnetism. 10.6. Maxwell's synthesis. 10.7. Then there was light -- ch. 11. 'Atoms of light' -- the birth of quantum theory. 11.1. Emission of energy by radiation. 11.2. Classical theoretical models of the blackbody radiation spectrum. 11.3. Max Planck enters the scene. 11.4. Planck's 'act of despair'. 11.5. From an idea to a formula -- the mathematical journey -- ch. 12. The development of quantum mechanics. 12.1. The development of quantum mechanics. 12.2. Matrix mechanics. 12.3. Order does matter. 12.4. Wave mechanics. 12.5. Generalised quantum mechanics. 12.6. Quantum reality -- ch. 13. Atoms of light acting as particles. 13.1. The photoelectric effect. 13.2. The Compton effect -- more evidence -- ch. 14. Atoms of light behaving as waves. 14.1. Photons one at a time. 14.2. Feynman's 'strange theory of the photon' -- ch. 15. Relativity pt. 1: how it began. 15.1. Space and time. 15.2. 'Dogmatic rigidity'. 15.3. Looking for the ether. 15.4. Symmetry. 15.5. The first postulate. 15.6. The second postulate. 15.7. The fourth dimension. 15.8. A philosophical interlude -- ch. 16. Relativity pt. 2: verifiable predictions. 16.1. Time dilation. 16.2. E = mc2, the most famous result of all. 16.3. The steps from symmetry to nuclear energy. 16.4. Working with relativity -- ch. 17. Epilogue. 17.1. Making matter out of energy. 17.2. A unified theory of weak and electromagnetic forces. Light. http://id.loc.gov/authorities/subjects/sh85076871 Electromagnetic waves. http://id.loc.gov/authorities/subjects/sh85042179 Physics History. Lumière. Ondes électromagnétiques. Physique Histoire. light (energy) aat electromagnetic radiation. aat SCIENCE Physics Optics & Light. bisacsh Electromagnetic waves fast Light fast Physics fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85076871 http://id.loc.gov/authorities/subjects/sh85042179
title	Let there be light : the story of light from atoms to galaxies /
title_auth	Let there be light : the story of light from atoms to galaxies /
title_exact_search	Let there be light : the story of light from atoms to galaxies /
title_full	Let there be light : the story of light from atoms to galaxies / Alex Montwill & Ann Breslin.
title_fullStr	Let there be light : the story of light from atoms to galaxies / Alex Montwill & Ann Breslin.
title_full_unstemmed	Let there be light : the story of light from atoms to galaxies / Alex Montwill & Ann Breslin.
title_short	Let there be light :
title_sort	let there be light the story of light from atoms to galaxies
title_sub	the story of light from atoms to galaxies /
topic	Light. http://id.loc.gov/authorities/subjects/sh85076871 Electromagnetic waves. http://id.loc.gov/authorities/subjects/sh85042179 Physics History. Lumière. Ondes électromagnétiques. Physique Histoire. light (energy) aat electromagnetic radiation. aat SCIENCE Physics Optics & Light. bisacsh Electromagnetic waves fast Light fast Physics fast
topic_facet	Light. Electromagnetic waves. Physics History. Lumière. Ondes électromagnétiques. Physique Histoire. light (energy) electromagnetic radiation. SCIENCE Physics Optics & Light. Electromagnetic waves Light Physics History
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work_keys_str_mv	AT montwillalex lettherebelightthestoryoflightfromatomstogalaxies AT breslinann lettherebelightthestoryoflightfromatomstogalaxies AT worldscientificfirm lettherebelightthestoryoflightfromatomstogalaxies

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