Algebraic chemistry :: applications and origins /
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Publishers,
[2013]
|
| Schriftenreihe: | Chemical engineering methods and technology
Mathematics research developments |
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource. |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 1622578619 9781622578610 162257866X 9781622578665 |
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| 100 | 1 | |a Whitney, Cynthia Kolb, |d 1941- |1 https://id.oclc.org/worldcat/entity/E39PCjKkvG6jqWRtWDKvPRh9wC | |
| 245 | 1 | 0 | |a Algebraic chemistry : |b applications and origins / |c Cynthia Kolb Whitney. |
| 264 | 1 | |a New York : |b Nova Publishers, |c [2013] | |
| 300 | |a 1 online resource. | ||
| 336 | |a text |b txt |2 rdacontent | ||
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| 338 | |a online resource |b cr |2 rdacarrier | ||
| 490 | 0 | |a Chemical engineering methods and technology | |
| 490 | 0 | |a Mathematics research developments | |
| 504 | |a Includes bibliographical references and index. | ||
| 588 | |a Description based on print version record and CIP data provided by publisher. | ||
| 546 | |a English. | ||
| 505 | 0 | |a Intro -- ALGEBRAIC CHEMISTRY -- ALGEBRAIC CHEMISTRY -- CONTENTS -- PREFACE -- INTRODUCTION -- 1. THE BACKGROUND -- 2. THIS BOOK -- 2.1. About Part I -- 2.2. About Part II -- 2.3. About Part III -- 2.4. About So Much More -- 3. THE CHARACTERS -- PART I. CHEMISTRY AS NUMERICAL REGULARITIES -- PROLOG TO PART I -- ABOUT PATTERNS -- REFERENCES -- APPENDIX: THE PERIODIC TABLE, MENDELEYEV STYLE -- IONIZATION POTENTIALS OF ATOMS -- ABSTRACT -- INTRODUCTION -- 1. OBSERVED BEHAVIOR OF IONIZATION POTENTIALS OF ALL ORDERS -- 2. DETAILS ON BEHAVIOR OF FIRST-ORDER IONIZATION POTENTIALS -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX: BASIC DATA ON FIRST-ORDER IONIZATION POTENTIALS OF ATOMS -- IONIZATION POTENTIALS OF IONS -- ABSTRACT -- INTRODUCTION -- 1. MODEL DEVELOPMENT -- 2. SYMBOLIC FORMULAE -- CONCLUSION -- AN INVITATION TO READERS -- APPENDIX: FORMULAE AND EVALUATIONS FOR SEQUENTIAL IONIZATIONS OF SELECTED ELEMENTS -- 1. Hydrogen -- 2. Helium -- 3. Lithium -- 4. Beryllium -- 5. Boron -- 6. Carbon -- 7. Nitrogen -- 8. Oxygen -- 9. Fluorine -- 10. Neon -- 11. Sodium -- 12. Magnesium -- 13. Aluminum -- 14. Silicon -- 15. Phosphorus -- 16. Sulfur -- 17. Chlorine -- 18. Argon -- 19. Potassium -- 21. Scandium -- 24. Chromium -- 26. Iron -- 27. Cobalt -- 29. Copper -- 30. Zinc -- 31. Gallium -- 32. Germanium -- 33. Arsenic -- 35. Bromine -- 36. Krypton -- 37. Rubidium -- 39. Yttrium -- 45. Rhodium -- 46. Palladium -- 47. Silver -- 48. Cadmium -- 49. Indium -- 50. Tin -- 51. Antimony -- 54. Xenon -- 55. Cesium -- 57. Lanthanum -- 74. Tungsten -- 78. Platinum -- 79. Gold -- 80. Mercury -- 81. Thallium -- 82. Lead -- 83. Bismuth -- 84. Polonium -- 86. Radon -- 87. Francium -- 89. Actinium -- IONS AND STATES OF MATTER -- ABSTRACT -- INTRODUCTION -- 1. STATE CHANGE TEMPER ATURES AND FIRST ORDER IONIZATION POTENTIALS -- 2. RELATIONSHIPS BETWEEN SOME ELEMENT PAIRS. | |
| 505 | 8 | |a 2.1. Hydrogen and Helium -- 2.2. Lithium and Beryllium -- 2.3. Nitrogen and Oxygen -- 3. STATES OF MATTER AND STATES OF IONIZATION -- 3.1. Melting Points -- 3.2. Boiling Points -- 3.3. Phase Diagrams -- 4. HOW TEMPARATURE DRIVES POPULATIONS OF IONIZATION STATES -- 4.1. Boltzmann Factors -- 4.2. The Planck Black-Body Spectrum -- 4.3. A Mechanism for Driving Macroscopic State Changes -- CONCLUSION -- ACKNOWLEDGMENTS -- A RESPITE FOR READERS -- REFERENCES -- SINGULAR ELEMENTS -- ABSTRACT -- INTRODUCTION -- 1. KEYSTONE ELEMENTS -- 2. NOBLE GASSES -- 2.1. Helium -- 2.2. Neon -- 3. HALOGENS -- 3.1. Bromine -- 4. METALS -- 4.1. Mercury -- 4.2. Gallium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCE -- TYPICAL MOLECULES -- ABSTRACT -- INTRODUCTION -- 1. GENERAL INFORMATION -- 2. DIATOMIC MOLECULES -- 3. TRIATOMIC MOLECULES -- 4. HYDROCARBONS -- 4.1. Methane CH4 -- 4.2. Ethane C2H6 -- 4.3. Propane C3H8 -- 4.4. Butane C4H10 -- 4.5. Pentane C5H12 -- 4.6. Hexane C6H14 -- 4.7. Septane, Octane, and Beyond -- 4.8. A Brief Revisit to Hydrocarbons and States of Matter -- CONCLUSION -- A PROJECT FOR READERS -- IMPORTANT REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. HYDROCARBON COMBUSTION -- 2. HYDROCARBON COMBUSTION IN STEPS -- 2.1. Steps in Methane Combustion -- 2.2. Energies from Steps in Methane Combustion -- 2.3. Focus on the First Step of Methane Combustion -- 3. FIRST STEP OF COMBUSTION FOR OTHER HYDROCARBONS -- 3.1. Hexane Combustion, First Step 2 -- 3.2. Septane Combustion, First Step H -- 3.3. Octane Combustion, First Step -- 3.4. Real Combustion, First Step -- 4. FIRST STEP OF COMBUSTION FOR A FUEL MIX -- 5. THE NECESSARY POST SCRIPT TO HYDROCARBON COMBUSTION -- 5.1. Rhodium -- 5.2. Palladium -- 5.3. Platinium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCES -- CATALYSIS OF CHEMICAL REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. THE EXAMPLE REACTION. | |
| 505 | 8 | |a 1.1. The Full Reaction -- 1.2. The Textbook Catalyzed Reaction Steps -- 1.3. Why the Textbook Story Didn't Work -- 2. A NEW ATTACK ON THE PROBLEM -- 2.1. The First Catalyzed Reaction Step -- 2.2. The Second Catalyzed Reaction Step -- 2.3. Define More Reaction Steps? -- 3. QUESTIONING THE ASSUMED REACTION -- 4. NATURAL CATALYSIS -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- ELECTRO-CHEMISTRY IN POWER GENERATION -- ABSTRACT -- INTRODUCTION -- 1. THE ORIGINS OF CONTROVERSY -- 1.1. Lack of Neutrons -- 1.2. Variability of Excess Heat -- 1.3. Lack of Credible Theory -- 2. THE NUMERICAL INFORMATION NEEDED -- 3. WHAT HAPPENS IN THE ELECTROLYTIC SOLUTION -- 4. WHAT HAPPENS AT THE CATHODE -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCE -- PART II. CHEMISTRY AS QUANTUM MECHANICS -- PROLOG TO PART II -- REFERENCES -- HYDROGEN AS THE PROTOTYPICAL ATOM -- ABSTRACT -- INTRODUCTION -- 1. RADIATION FROM ACCELERATING CHARGES -- 2. TORQUING IN THE HYDROGEN ATOM -- 3. EVEN MORE RADIATION -- 4. BALANCE AT THE GROUND STATE -- 5. EXCITED STATES -- CONCLUSION -- REFERENCES -- GENERAL CHARGE PAIRS -- ABSTRACT -- INTRODUCTION -- 1. HYDROGEN -- 2. POSITRONIUM -- 3. THE PROTON PAIR -- 4. THE ELECTRON PAIR -- CONCLUSION -- REFERENCE -- ELECTRON RINGS AND STRUCTURES THEREOF -- ABSTRACT -- INTRODUCTION -- 1. COMFORTABLE ELEMENTS -- 1.1. A Ring of Three Electrons -- 1.2. Two Rings of Three Electrons -- 1.3. A Ring of Five Electrons -- 1.4. Two Rings of Five Electrons -- 1.5. A Ring of Seven Electrons -- 1.6. Two Rings of Seven Electrons -- 2. UNCOMFORTABLE ELEMENTS -- 3. PECULIAR ELEMENTS -- CONCLUSION -- APPENDIX -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- EXPLOSIONS AND EXPLANATIONS -- ABSTRACT -- INTRODUCTION -- 1. LOG-LINEARITY OF IONIZATION POTENTIALS. | |
| 505 | 8 | |a 2. ON THE MEANING OF HIGHER-ORDER IONIZATION POTENTIALS -- 2.1. Observations -- 2.2. Explanations -- 3. ON THE MEANING OF FIRST-ORDER IONIZATION POTENTIALS -- 3.1. Full Periods -- 3.2. Sub-Period Levels -- 3.3. Sub-Period Slopes -- 4. ON THE UTILITY OF HIGHER-ORDER IONIZATION POTENTIALS IN CHEMISTRY -- CONCLUSION -- REFERENCES -- PART III. QUANTUM MECHANICS AS ELECTRODYNAMICS -- PROLOG TO PART III -- REFERENCE -- PHOTONS AND MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. APPROACH -- 2. E'S AND B'S FOR ONE OF THE TWO ORIENTATIONS -- 3. WAVEFORM EVOLUTION -- 4. WAVEFORM ENERGY DENSITIES -- 5. RELATIVE MOTION -- 6. IMPLICATIONS FOR FIELDS DELIVERED -- 7. IMPLICATIONS FOR RELATIVITY THEORY -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX -- [A] Theory of the Photon -- The Concept of Convergence -- REFERENCES -- ON THE INVARIANCE OF MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. EXTENDED TENSOR NOTATION, WITH MATRIX DEMONSTRATIONS -- 3. GALILEAN TRANSFORMATION OF MAXWELL'S EQUATIONS -- CONCLUSION -- REFERENCES -- CONCLUSION -- 1. SOME HISTORY TO RECALL -- 2. THE TASK TO ADDRESS -- 3. SPECIFIC TOOLS TO USE -- ACKNOWLEDGMENTS -- REFERENCES -- INDEX. | |
| 650 | 0 | |a Molecular dynamics |x Mathematics. | |
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| 650 | 0 | |a Quantum chemistry. |0 http://id.loc.gov/authorities/subjects/sh85109456 | |
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Datensatz im Suchindex
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|---|---|
| _version_ | 1816882523065548801 |
| adam_text | |
| any_adam_object | |
| author | Whitney, Cynthia Kolb, 1941- |
| author_facet | Whitney, Cynthia Kolb, 1941- |
| author_role | |
| author_sort | Whitney, Cynthia Kolb, 1941- |
| author_variant | c k w ck ckw |
| building | Verbundindex |
| bvnumber | localFWS |
| callnumber-first | Q - Science |
| callnumber-label | QD96 |
| callnumber-raw | QD96.M65 |
| callnumber-search | QD96.M65 |
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| contents | Intro -- ALGEBRAIC CHEMISTRY -- ALGEBRAIC CHEMISTRY -- CONTENTS -- PREFACE -- INTRODUCTION -- 1. THE BACKGROUND -- 2. THIS BOOK -- 2.1. About Part I -- 2.2. About Part II -- 2.3. About Part III -- 2.4. About So Much More -- 3. THE CHARACTERS -- PART I. CHEMISTRY AS NUMERICAL REGULARITIES -- PROLOG TO PART I -- ABOUT PATTERNS -- REFERENCES -- APPENDIX: THE PERIODIC TABLE, MENDELEYEV STYLE -- IONIZATION POTENTIALS OF ATOMS -- ABSTRACT -- INTRODUCTION -- 1. OBSERVED BEHAVIOR OF IONIZATION POTENTIALS OF ALL ORDERS -- 2. DETAILS ON BEHAVIOR OF FIRST-ORDER IONIZATION POTENTIALS -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX: BASIC DATA ON FIRST-ORDER IONIZATION POTENTIALS OF ATOMS -- IONIZATION POTENTIALS OF IONS -- ABSTRACT -- INTRODUCTION -- 1. MODEL DEVELOPMENT -- 2. SYMBOLIC FORMULAE -- CONCLUSION -- AN INVITATION TO READERS -- APPENDIX: FORMULAE AND EVALUATIONS FOR SEQUENTIAL IONIZATIONS OF SELECTED ELEMENTS -- 1. Hydrogen -- 2. Helium -- 3. Lithium -- 4. Beryllium -- 5. Boron -- 6. Carbon -- 7. Nitrogen -- 8. Oxygen -- 9. Fluorine -- 10. Neon -- 11. Sodium -- 12. Magnesium -- 13. Aluminum -- 14. Silicon -- 15. Phosphorus -- 16. Sulfur -- 17. Chlorine -- 18. Argon -- 19. Potassium -- 21. Scandium -- 24. Chromium -- 26. Iron -- 27. Cobalt -- 29. Copper -- 30. Zinc -- 31. Gallium -- 32. Germanium -- 33. Arsenic -- 35. Bromine -- 36. Krypton -- 37. Rubidium -- 39. Yttrium -- 45. Rhodium -- 46. Palladium -- 47. Silver -- 48. Cadmium -- 49. Indium -- 50. Tin -- 51. Antimony -- 54. Xenon -- 55. Cesium -- 57. Lanthanum -- 74. Tungsten -- 78. Platinum -- 79. Gold -- 80. Mercury -- 81. Thallium -- 82. Lead -- 83. Bismuth -- 84. Polonium -- 86. Radon -- 87. Francium -- 89. Actinium -- IONS AND STATES OF MATTER -- ABSTRACT -- INTRODUCTION -- 1. STATE CHANGE TEMPER ATURES AND FIRST ORDER IONIZATION POTENTIALS -- 2. RELATIONSHIPS BETWEEN SOME ELEMENT PAIRS. 2.1. Hydrogen and Helium -- 2.2. Lithium and Beryllium -- 2.3. Nitrogen and Oxygen -- 3. STATES OF MATTER AND STATES OF IONIZATION -- 3.1. Melting Points -- 3.2. Boiling Points -- 3.3. Phase Diagrams -- 4. HOW TEMPARATURE DRIVES POPULATIONS OF IONIZATION STATES -- 4.1. Boltzmann Factors -- 4.2. The Planck Black-Body Spectrum -- 4.3. A Mechanism for Driving Macroscopic State Changes -- CONCLUSION -- ACKNOWLEDGMENTS -- A RESPITE FOR READERS -- REFERENCES -- SINGULAR ELEMENTS -- ABSTRACT -- INTRODUCTION -- 1. KEYSTONE ELEMENTS -- 2. NOBLE GASSES -- 2.1. Helium -- 2.2. Neon -- 3. HALOGENS -- 3.1. Bromine -- 4. METALS -- 4.1. Mercury -- 4.2. Gallium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCE -- TYPICAL MOLECULES -- ABSTRACT -- INTRODUCTION -- 1. GENERAL INFORMATION -- 2. DIATOMIC MOLECULES -- 3. TRIATOMIC MOLECULES -- 4. HYDROCARBONS -- 4.1. Methane CH4 -- 4.2. Ethane C2H6 -- 4.3. Propane C3H8 -- 4.4. Butane C4H10 -- 4.5. Pentane C5H12 -- 4.6. Hexane C6H14 -- 4.7. Septane, Octane, and Beyond -- 4.8. A Brief Revisit to Hydrocarbons and States of Matter -- CONCLUSION -- A PROJECT FOR READERS -- IMPORTANT REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. HYDROCARBON COMBUSTION -- 2. HYDROCARBON COMBUSTION IN STEPS -- 2.1. Steps in Methane Combustion -- 2.2. Energies from Steps in Methane Combustion -- 2.3. Focus on the First Step of Methane Combustion -- 3. FIRST STEP OF COMBUSTION FOR OTHER HYDROCARBONS -- 3.1. Hexane Combustion, First Step 2 -- 3.2. Septane Combustion, First Step H -- 3.3. Octane Combustion, First Step -- 3.4. Real Combustion, First Step -- 4. FIRST STEP OF COMBUSTION FOR A FUEL MIX -- 5. THE NECESSARY POST SCRIPT TO HYDROCARBON COMBUSTION -- 5.1. Rhodium -- 5.2. Palladium -- 5.3. Platinium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCES -- CATALYSIS OF CHEMICAL REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. THE EXAMPLE REACTION. 1.1. The Full Reaction -- 1.2. The Textbook Catalyzed Reaction Steps -- 1.3. Why the Textbook Story Didn't Work -- 2. A NEW ATTACK ON THE PROBLEM -- 2.1. The First Catalyzed Reaction Step -- 2.2. The Second Catalyzed Reaction Step -- 2.3. Define More Reaction Steps? -- 3. QUESTIONING THE ASSUMED REACTION -- 4. NATURAL CATALYSIS -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- ELECTRO-CHEMISTRY IN POWER GENERATION -- ABSTRACT -- INTRODUCTION -- 1. THE ORIGINS OF CONTROVERSY -- 1.1. Lack of Neutrons -- 1.2. Variability of Excess Heat -- 1.3. Lack of Credible Theory -- 2. THE NUMERICAL INFORMATION NEEDED -- 3. WHAT HAPPENS IN THE ELECTROLYTIC SOLUTION -- 4. WHAT HAPPENS AT THE CATHODE -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCE -- PART II. CHEMISTRY AS QUANTUM MECHANICS -- PROLOG TO PART II -- REFERENCES -- HYDROGEN AS THE PROTOTYPICAL ATOM -- ABSTRACT -- INTRODUCTION -- 1. RADIATION FROM ACCELERATING CHARGES -- 2. TORQUING IN THE HYDROGEN ATOM -- 3. EVEN MORE RADIATION -- 4. BALANCE AT THE GROUND STATE -- 5. EXCITED STATES -- CONCLUSION -- REFERENCES -- GENERAL CHARGE PAIRS -- ABSTRACT -- INTRODUCTION -- 1. HYDROGEN -- 2. POSITRONIUM -- 3. THE PROTON PAIR -- 4. THE ELECTRON PAIR -- CONCLUSION -- REFERENCE -- ELECTRON RINGS AND STRUCTURES THEREOF -- ABSTRACT -- INTRODUCTION -- 1. COMFORTABLE ELEMENTS -- 1.1. A Ring of Three Electrons -- 1.2. Two Rings of Three Electrons -- 1.3. A Ring of Five Electrons -- 1.4. Two Rings of Five Electrons -- 1.5. A Ring of Seven Electrons -- 1.6. Two Rings of Seven Electrons -- 2. UNCOMFORTABLE ELEMENTS -- 3. PECULIAR ELEMENTS -- CONCLUSION -- APPENDIX -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- EXPLOSIONS AND EXPLANATIONS -- ABSTRACT -- INTRODUCTION -- 1. LOG-LINEARITY OF IONIZATION POTENTIALS. 2. ON THE MEANING OF HIGHER-ORDER IONIZATION POTENTIALS -- 2.1. Observations -- 2.2. Explanations -- 3. ON THE MEANING OF FIRST-ORDER IONIZATION POTENTIALS -- 3.1. Full Periods -- 3.2. Sub-Period Levels -- 3.3. Sub-Period Slopes -- 4. ON THE UTILITY OF HIGHER-ORDER IONIZATION POTENTIALS IN CHEMISTRY -- CONCLUSION -- REFERENCES -- PART III. QUANTUM MECHANICS AS ELECTRODYNAMICS -- PROLOG TO PART III -- REFERENCE -- PHOTONS AND MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. APPROACH -- 2. E'S AND B'S FOR ONE OF THE TWO ORIENTATIONS -- 3. WAVEFORM EVOLUTION -- 4. WAVEFORM ENERGY DENSITIES -- 5. RELATIVE MOTION -- 6. IMPLICATIONS FOR FIELDS DELIVERED -- 7. IMPLICATIONS FOR RELATIVITY THEORY -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX -- [A] Theory of the Photon -- The Concept of Convergence -- REFERENCES -- ON THE INVARIANCE OF MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. EXTENDED TENSOR NOTATION, WITH MATRIX DEMONSTRATIONS -- 3. GALILEAN TRANSFORMATION OF MAXWELL'S EQUATIONS -- CONCLUSION -- REFERENCES -- CONCLUSION -- 1. SOME HISTORY TO RECALL -- 2. THE TASK TO ADDRESS -- 3. SPECIFIC TOOLS TO USE -- ACKNOWLEDGMENTS -- REFERENCES -- INDEX. |
| ctrlnum | (OCoLC)1162412115 |
| dewey-full | 541.01/512 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 541 - Physical chemistry |
| dewey-raw | 541.01/512 |
| dewey-search | 541.01/512 |
| dewey-sort | 3541.01 3512 |
| dewey-tens | 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie |
| format | Electronic eBook |
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ind2=" "><subfield code="a">English.</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Intro -- ALGEBRAIC CHEMISTRY -- ALGEBRAIC CHEMISTRY -- CONTENTS -- PREFACE -- INTRODUCTION -- 1. THE BACKGROUND -- 2. THIS BOOK -- 2.1. About Part I -- 2.2. About Part II -- 2.3. About Part III -- 2.4. About So Much More -- 3. THE CHARACTERS -- PART I. CHEMISTRY AS NUMERICAL REGULARITIES -- PROLOG TO PART I -- ABOUT PATTERNS -- REFERENCES -- APPENDIX: THE PERIODIC TABLE, MENDELEYEV STYLE -- IONIZATION POTENTIALS OF ATOMS -- ABSTRACT -- INTRODUCTION -- 1. OBSERVED BEHAVIOR OF IONIZATION POTENTIALS OF ALL ORDERS -- 2. DETAILS ON BEHAVIOR OF FIRST-ORDER IONIZATION POTENTIALS -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX: BASIC DATA ON FIRST-ORDER IONIZATION POTENTIALS OF ATOMS -- IONIZATION POTENTIALS OF IONS -- ABSTRACT -- INTRODUCTION -- 1. MODEL DEVELOPMENT -- 2. SYMBOLIC FORMULAE -- CONCLUSION -- AN INVITATION TO READERS -- APPENDIX: FORMULAE AND EVALUATIONS FOR SEQUENTIAL IONIZATIONS OF SELECTED ELEMENTS -- 1. Hydrogen -- 2. Helium -- 3. Lithium -- 4. Beryllium -- 5. Boron -- 6. Carbon -- 7. Nitrogen -- 8. Oxygen -- 9. Fluorine -- 10. Neon -- 11. Sodium -- 12. Magnesium -- 13. Aluminum -- 14. Silicon -- 15. Phosphorus -- 16. Sulfur -- 17. Chlorine -- 18. Argon -- 19. Potassium -- 21. Scandium -- 24. Chromium -- 26. Iron -- 27. Cobalt -- 29. Copper -- 30. Zinc -- 31. Gallium -- 32. Germanium -- 33. Arsenic -- 35. Bromine -- 36. Krypton -- 37. Rubidium -- 39. Yttrium -- 45. Rhodium -- 46. Palladium -- 47. Silver -- 48. Cadmium -- 49. Indium -- 50. Tin -- 51. Antimony -- 54. Xenon -- 55. Cesium -- 57. Lanthanum -- 74. Tungsten -- 78. Platinum -- 79. Gold -- 80. Mercury -- 81. Thallium -- 82. Lead -- 83. Bismuth -- 84. Polonium -- 86. Radon -- 87. Francium -- 89. Actinium -- IONS AND STATES OF MATTER -- ABSTRACT -- INTRODUCTION -- 1. STATE CHANGE TEMPER ATURES AND FIRST ORDER IONIZATION POTENTIALS -- 2. RELATIONSHIPS BETWEEN SOME ELEMENT PAIRS.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2.1. Hydrogen and Helium -- 2.2. Lithium and Beryllium -- 2.3. Nitrogen and Oxygen -- 3. STATES OF MATTER AND STATES OF IONIZATION -- 3.1. Melting Points -- 3.2. Boiling Points -- 3.3. Phase Diagrams -- 4. HOW TEMPARATURE DRIVES POPULATIONS OF IONIZATION STATES -- 4.1. Boltzmann Factors -- 4.2. The Planck Black-Body Spectrum -- 4.3. A Mechanism for Driving Macroscopic State Changes -- CONCLUSION -- ACKNOWLEDGMENTS -- A RESPITE FOR READERS -- REFERENCES -- SINGULAR ELEMENTS -- ABSTRACT -- INTRODUCTION -- 1. KEYSTONE ELEMENTS -- 2. NOBLE GASSES -- 2.1. Helium -- 2.2. Neon -- 3. HALOGENS -- 3.1. Bromine -- 4. METALS -- 4.1. Mercury -- 4.2. Gallium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCE -- TYPICAL MOLECULES -- ABSTRACT -- INTRODUCTION -- 1. GENERAL INFORMATION -- 2. DIATOMIC MOLECULES -- 3. TRIATOMIC MOLECULES -- 4. HYDROCARBONS -- 4.1. Methane CH4 -- 4.2. Ethane C2H6 -- 4.3. Propane C3H8 -- 4.4. Butane C4H10 -- 4.5. Pentane C5H12 -- 4.6. Hexane C6H14 -- 4.7. Septane, Octane, and Beyond -- 4.8. A Brief Revisit to Hydrocarbons and States of Matter -- CONCLUSION -- A PROJECT FOR READERS -- IMPORTANT REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. HYDROCARBON COMBUSTION -- 2. HYDROCARBON COMBUSTION IN STEPS -- 2.1. Steps in Methane Combustion -- 2.2. Energies from Steps in Methane Combustion -- 2.3. Focus on the First Step of Methane Combustion -- 3. FIRST STEP OF COMBUSTION FOR OTHER HYDROCARBONS -- 3.1. Hexane Combustion, First Step 2 -- 3.2. Septane Combustion, First Step H -- 3.3. Octane Combustion, First Step -- 3.4. Real Combustion, First Step -- 4. FIRST STEP OF COMBUSTION FOR A FUEL MIX -- 5. THE NECESSARY POST SCRIPT TO HYDROCARBON COMBUSTION -- 5.1. Rhodium -- 5.2. Palladium -- 5.3. Platinium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCES -- CATALYSIS OF CHEMICAL REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. THE EXAMPLE REACTION.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">1.1. The Full Reaction -- 1.2. The Textbook Catalyzed Reaction Steps -- 1.3. Why the Textbook Story Didn't Work -- 2. A NEW ATTACK ON THE PROBLEM -- 2.1. The First Catalyzed Reaction Step -- 2.2. The Second Catalyzed Reaction Step -- 2.3. Define More Reaction Steps? -- 3. QUESTIONING THE ASSUMED REACTION -- 4. NATURAL CATALYSIS -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- ELECTRO-CHEMISTRY IN POWER GENERATION -- ABSTRACT -- INTRODUCTION -- 1. THE ORIGINS OF CONTROVERSY -- 1.1. Lack of Neutrons -- 1.2. Variability of Excess Heat -- 1.3. Lack of Credible Theory -- 2. THE NUMERICAL INFORMATION NEEDED -- 3. WHAT HAPPENS IN THE ELECTROLYTIC SOLUTION -- 4. WHAT HAPPENS AT THE CATHODE -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCE -- PART II. CHEMISTRY AS QUANTUM MECHANICS -- PROLOG TO PART II -- REFERENCES -- HYDROGEN AS THE PROTOTYPICAL ATOM -- ABSTRACT -- INTRODUCTION -- 1. RADIATION FROM ACCELERATING CHARGES -- 2. TORQUING IN THE HYDROGEN ATOM -- 3. EVEN MORE RADIATION -- 4. BALANCE AT THE GROUND STATE -- 5. EXCITED STATES -- CONCLUSION -- REFERENCES -- GENERAL CHARGE PAIRS -- ABSTRACT -- INTRODUCTION -- 1. HYDROGEN -- 2. POSITRONIUM -- 3. THE PROTON PAIR -- 4. THE ELECTRON PAIR -- CONCLUSION -- REFERENCE -- ELECTRON RINGS AND STRUCTURES THEREOF -- ABSTRACT -- INTRODUCTION -- 1. COMFORTABLE ELEMENTS -- 1.1. A Ring of Three Electrons -- 1.2. Two Rings of Three Electrons -- 1.3. A Ring of Five Electrons -- 1.4. Two Rings of Five Electrons -- 1.5. A Ring of Seven Electrons -- 1.6. Two Rings of Seven Electrons -- 2. UNCOMFORTABLE ELEMENTS -- 3. PECULIAR ELEMENTS -- CONCLUSION -- APPENDIX -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- EXPLOSIONS AND EXPLANATIONS -- ABSTRACT -- INTRODUCTION -- 1. LOG-LINEARITY OF IONIZATION POTENTIALS.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2. ON THE MEANING OF HIGHER-ORDER IONIZATION POTENTIALS -- 2.1. Observations -- 2.2. Explanations -- 3. 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| id | ZDB-4-EBA-on1162412115 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:29:58Z |
| institution | BVB |
| isbn | 1622578619 9781622578610 162257866X 9781622578665 |
| language | English |
| lccn | 2020686793 |
| oclc_num | 1162412115 |
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| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource. |
| psigel | ZDB-4-EBA |
| publishDate | 2013 |
| publishDateSearch | 2013 |
| publishDateSort | 2013 |
| publisher | Nova Publishers, |
| record_format | marc |
| series2 | Chemical engineering methods and technology Mathematics research developments |
| spelling | Whitney, Cynthia Kolb, 1941- https://id.oclc.org/worldcat/entity/E39PCjKkvG6jqWRtWDKvPRh9wC Algebraic chemistry : applications and origins / Cynthia Kolb Whitney. New York : Nova Publishers, [2013] 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier Chemical engineering methods and technology Mathematics research developments Includes bibliographical references and index. Description based on print version record and CIP data provided by publisher. English. Intro -- ALGEBRAIC CHEMISTRY -- ALGEBRAIC CHEMISTRY -- CONTENTS -- PREFACE -- INTRODUCTION -- 1. THE BACKGROUND -- 2. THIS BOOK -- 2.1. About Part I -- 2.2. About Part II -- 2.3. About Part III -- 2.4. About So Much More -- 3. THE CHARACTERS -- PART I. CHEMISTRY AS NUMERICAL REGULARITIES -- PROLOG TO PART I -- ABOUT PATTERNS -- REFERENCES -- APPENDIX: THE PERIODIC TABLE, MENDELEYEV STYLE -- IONIZATION POTENTIALS OF ATOMS -- ABSTRACT -- INTRODUCTION -- 1. OBSERVED BEHAVIOR OF IONIZATION POTENTIALS OF ALL ORDERS -- 2. DETAILS ON BEHAVIOR OF FIRST-ORDER IONIZATION POTENTIALS -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX: BASIC DATA ON FIRST-ORDER IONIZATION POTENTIALS OF ATOMS -- IONIZATION POTENTIALS OF IONS -- ABSTRACT -- INTRODUCTION -- 1. MODEL DEVELOPMENT -- 2. SYMBOLIC FORMULAE -- CONCLUSION -- AN INVITATION TO READERS -- APPENDIX: FORMULAE AND EVALUATIONS FOR SEQUENTIAL IONIZATIONS OF SELECTED ELEMENTS -- 1. Hydrogen -- 2. Helium -- 3. Lithium -- 4. Beryllium -- 5. Boron -- 6. Carbon -- 7. Nitrogen -- 8. Oxygen -- 9. Fluorine -- 10. Neon -- 11. Sodium -- 12. Magnesium -- 13. Aluminum -- 14. Silicon -- 15. Phosphorus -- 16. Sulfur -- 17. Chlorine -- 18. Argon -- 19. Potassium -- 21. Scandium -- 24. Chromium -- 26. Iron -- 27. Cobalt -- 29. Copper -- 30. Zinc -- 31. Gallium -- 32. Germanium -- 33. Arsenic -- 35. Bromine -- 36. Krypton -- 37. Rubidium -- 39. Yttrium -- 45. Rhodium -- 46. Palladium -- 47. Silver -- 48. Cadmium -- 49. Indium -- 50. Tin -- 51. Antimony -- 54. Xenon -- 55. Cesium -- 57. Lanthanum -- 74. Tungsten -- 78. Platinum -- 79. Gold -- 80. Mercury -- 81. Thallium -- 82. Lead -- 83. Bismuth -- 84. Polonium -- 86. Radon -- 87. Francium -- 89. Actinium -- IONS AND STATES OF MATTER -- ABSTRACT -- INTRODUCTION -- 1. STATE CHANGE TEMPER ATURES AND FIRST ORDER IONIZATION POTENTIALS -- 2. RELATIONSHIPS BETWEEN SOME ELEMENT PAIRS. 2.1. Hydrogen and Helium -- 2.2. Lithium and Beryllium -- 2.3. Nitrogen and Oxygen -- 3. STATES OF MATTER AND STATES OF IONIZATION -- 3.1. Melting Points -- 3.2. Boiling Points -- 3.3. Phase Diagrams -- 4. HOW TEMPARATURE DRIVES POPULATIONS OF IONIZATION STATES -- 4.1. Boltzmann Factors -- 4.2. The Planck Black-Body Spectrum -- 4.3. A Mechanism for Driving Macroscopic State Changes -- CONCLUSION -- ACKNOWLEDGMENTS -- A RESPITE FOR READERS -- REFERENCES -- SINGULAR ELEMENTS -- ABSTRACT -- INTRODUCTION -- 1. KEYSTONE ELEMENTS -- 2. NOBLE GASSES -- 2.1. Helium -- 2.2. Neon -- 3. HALOGENS -- 3.1. Bromine -- 4. METALS -- 4.1. Mercury -- 4.2. Gallium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCE -- TYPICAL MOLECULES -- ABSTRACT -- INTRODUCTION -- 1. GENERAL INFORMATION -- 2. DIATOMIC MOLECULES -- 3. TRIATOMIC MOLECULES -- 4. HYDROCARBONS -- 4.1. Methane CH4 -- 4.2. Ethane C2H6 -- 4.3. Propane C3H8 -- 4.4. Butane C4H10 -- 4.5. Pentane C5H12 -- 4.6. Hexane C6H14 -- 4.7. Septane, Octane, and Beyond -- 4.8. A Brief Revisit to Hydrocarbons and States of Matter -- CONCLUSION -- A PROJECT FOR READERS -- IMPORTANT REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. HYDROCARBON COMBUSTION -- 2. HYDROCARBON COMBUSTION IN STEPS -- 2.1. Steps in Methane Combustion -- 2.2. Energies from Steps in Methane Combustion -- 2.3. Focus on the First Step of Methane Combustion -- 3. FIRST STEP OF COMBUSTION FOR OTHER HYDROCARBONS -- 3.1. Hexane Combustion, First Step 2 -- 3.2. Septane Combustion, First Step H -- 3.3. Octane Combustion, First Step -- 3.4. Real Combustion, First Step -- 4. FIRST STEP OF COMBUSTION FOR A FUEL MIX -- 5. THE NECESSARY POST SCRIPT TO HYDROCARBON COMBUSTION -- 5.1. Rhodium -- 5.2. Palladium -- 5.3. Platinium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCES -- CATALYSIS OF CHEMICAL REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. THE EXAMPLE REACTION. 1.1. The Full Reaction -- 1.2. The Textbook Catalyzed Reaction Steps -- 1.3. Why the Textbook Story Didn't Work -- 2. A NEW ATTACK ON THE PROBLEM -- 2.1. The First Catalyzed Reaction Step -- 2.2. The Second Catalyzed Reaction Step -- 2.3. Define More Reaction Steps? -- 3. QUESTIONING THE ASSUMED REACTION -- 4. NATURAL CATALYSIS -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- ELECTRO-CHEMISTRY IN POWER GENERATION -- ABSTRACT -- INTRODUCTION -- 1. THE ORIGINS OF CONTROVERSY -- 1.1. Lack of Neutrons -- 1.2. Variability of Excess Heat -- 1.3. Lack of Credible Theory -- 2. THE NUMERICAL INFORMATION NEEDED -- 3. WHAT HAPPENS IN THE ELECTROLYTIC SOLUTION -- 4. WHAT HAPPENS AT THE CATHODE -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCE -- PART II. CHEMISTRY AS QUANTUM MECHANICS -- PROLOG TO PART II -- REFERENCES -- HYDROGEN AS THE PROTOTYPICAL ATOM -- ABSTRACT -- INTRODUCTION -- 1. RADIATION FROM ACCELERATING CHARGES -- 2. TORQUING IN THE HYDROGEN ATOM -- 3. EVEN MORE RADIATION -- 4. BALANCE AT THE GROUND STATE -- 5. EXCITED STATES -- CONCLUSION -- REFERENCES -- GENERAL CHARGE PAIRS -- ABSTRACT -- INTRODUCTION -- 1. HYDROGEN -- 2. POSITRONIUM -- 3. THE PROTON PAIR -- 4. THE ELECTRON PAIR -- CONCLUSION -- REFERENCE -- ELECTRON RINGS AND STRUCTURES THEREOF -- ABSTRACT -- INTRODUCTION -- 1. COMFORTABLE ELEMENTS -- 1.1. A Ring of Three Electrons -- 1.2. Two Rings of Three Electrons -- 1.3. A Ring of Five Electrons -- 1.4. Two Rings of Five Electrons -- 1.5. A Ring of Seven Electrons -- 1.6. Two Rings of Seven Electrons -- 2. UNCOMFORTABLE ELEMENTS -- 3. PECULIAR ELEMENTS -- CONCLUSION -- APPENDIX -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- EXPLOSIONS AND EXPLANATIONS -- ABSTRACT -- INTRODUCTION -- 1. LOG-LINEARITY OF IONIZATION POTENTIALS. 2. ON THE MEANING OF HIGHER-ORDER IONIZATION POTENTIALS -- 2.1. Observations -- 2.2. Explanations -- 3. ON THE MEANING OF FIRST-ORDER IONIZATION POTENTIALS -- 3.1. Full Periods -- 3.2. Sub-Period Levels -- 3.3. Sub-Period Slopes -- 4. ON THE UTILITY OF HIGHER-ORDER IONIZATION POTENTIALS IN CHEMISTRY -- CONCLUSION -- REFERENCES -- PART III. QUANTUM MECHANICS AS ELECTRODYNAMICS -- PROLOG TO PART III -- REFERENCE -- PHOTONS AND MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. APPROACH -- 2. E'S AND B'S FOR ONE OF THE TWO ORIENTATIONS -- 3. WAVEFORM EVOLUTION -- 4. WAVEFORM ENERGY DENSITIES -- 5. RELATIVE MOTION -- 6. IMPLICATIONS FOR FIELDS DELIVERED -- 7. IMPLICATIONS FOR RELATIVITY THEORY -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX -- [A] Theory of the Photon -- The Concept of Convergence -- REFERENCES -- ON THE INVARIANCE OF MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. EXTENDED TENSOR NOTATION, WITH MATRIX DEMONSTRATIONS -- 3. GALILEAN TRANSFORMATION OF MAXWELL'S EQUATIONS -- CONCLUSION -- REFERENCES -- CONCLUSION -- 1. SOME HISTORY TO RECALL -- 2. THE TASK TO ADDRESS -- 3. SPECIFIC TOOLS TO USE -- ACKNOWLEDGMENTS -- REFERENCES -- INDEX. Molecular dynamics Mathematics. Ionization constants Measurement. http://id.loc.gov/authorities/subjects/sh85067825 Quantum chemistry. http://id.loc.gov/authorities/subjects/sh85109456 Dynamique moléculaire Mathématiques. Chimie quantique. SCIENCE Chemistry Physical & Theoretical. bisacsh Ionization constants Measurement fast Molecular dynamics Mathematics fast Quantum chemistry fast has work: Algebraic chemistry (Text) https://id.oclc.org/worldcat/entity/E39PCGWYgCPbRDb4WMX6QymmkC https://id.oclc.org/worldcat/ontology/hasWork Print version: Algebraic chemistry New York : Nova Publishers, 2013. 1622578619 (hardcover) (DLC) 2012031714 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=610679 Volltext |
| spellingShingle | Whitney, Cynthia Kolb, 1941- Algebraic chemistry : applications and origins / Intro -- ALGEBRAIC CHEMISTRY -- ALGEBRAIC CHEMISTRY -- CONTENTS -- PREFACE -- INTRODUCTION -- 1. THE BACKGROUND -- 2. THIS BOOK -- 2.1. About Part I -- 2.2. About Part II -- 2.3. About Part III -- 2.4. About So Much More -- 3. THE CHARACTERS -- PART I. CHEMISTRY AS NUMERICAL REGULARITIES -- PROLOG TO PART I -- ABOUT PATTERNS -- REFERENCES -- APPENDIX: THE PERIODIC TABLE, MENDELEYEV STYLE -- IONIZATION POTENTIALS OF ATOMS -- ABSTRACT -- INTRODUCTION -- 1. OBSERVED BEHAVIOR OF IONIZATION POTENTIALS OF ALL ORDERS -- 2. DETAILS ON BEHAVIOR OF FIRST-ORDER IONIZATION POTENTIALS -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX: BASIC DATA ON FIRST-ORDER IONIZATION POTENTIALS OF ATOMS -- IONIZATION POTENTIALS OF IONS -- ABSTRACT -- INTRODUCTION -- 1. MODEL DEVELOPMENT -- 2. SYMBOLIC FORMULAE -- CONCLUSION -- AN INVITATION TO READERS -- APPENDIX: FORMULAE AND EVALUATIONS FOR SEQUENTIAL IONIZATIONS OF SELECTED ELEMENTS -- 1. Hydrogen -- 2. Helium -- 3. Lithium -- 4. Beryllium -- 5. Boron -- 6. Carbon -- 7. Nitrogen -- 8. Oxygen -- 9. Fluorine -- 10. Neon -- 11. Sodium -- 12. Magnesium -- 13. Aluminum -- 14. Silicon -- 15. Phosphorus -- 16. Sulfur -- 17. Chlorine -- 18. Argon -- 19. Potassium -- 21. Scandium -- 24. Chromium -- 26. Iron -- 27. Cobalt -- 29. Copper -- 30. Zinc -- 31. Gallium -- 32. Germanium -- 33. Arsenic -- 35. Bromine -- 36. Krypton -- 37. Rubidium -- 39. Yttrium -- 45. Rhodium -- 46. Palladium -- 47. Silver -- 48. Cadmium -- 49. Indium -- 50. Tin -- 51. Antimony -- 54. Xenon -- 55. Cesium -- 57. Lanthanum -- 74. Tungsten -- 78. Platinum -- 79. Gold -- 80. Mercury -- 81. Thallium -- 82. Lead -- 83. Bismuth -- 84. Polonium -- 86. Radon -- 87. Francium -- 89. Actinium -- IONS AND STATES OF MATTER -- ABSTRACT -- INTRODUCTION -- 1. STATE CHANGE TEMPER ATURES AND FIRST ORDER IONIZATION POTENTIALS -- 2. RELATIONSHIPS BETWEEN SOME ELEMENT PAIRS. 2.1. Hydrogen and Helium -- 2.2. Lithium and Beryllium -- 2.3. Nitrogen and Oxygen -- 3. STATES OF MATTER AND STATES OF IONIZATION -- 3.1. Melting Points -- 3.2. Boiling Points -- 3.3. Phase Diagrams -- 4. HOW TEMPARATURE DRIVES POPULATIONS OF IONIZATION STATES -- 4.1. Boltzmann Factors -- 4.2. The Planck Black-Body Spectrum -- 4.3. A Mechanism for Driving Macroscopic State Changes -- CONCLUSION -- ACKNOWLEDGMENTS -- A RESPITE FOR READERS -- REFERENCES -- SINGULAR ELEMENTS -- ABSTRACT -- INTRODUCTION -- 1. KEYSTONE ELEMENTS -- 2. NOBLE GASSES -- 2.1. Helium -- 2.2. Neon -- 3. HALOGENS -- 3.1. Bromine -- 4. METALS -- 4.1. Mercury -- 4.2. Gallium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCE -- TYPICAL MOLECULES -- ABSTRACT -- INTRODUCTION -- 1. GENERAL INFORMATION -- 2. DIATOMIC MOLECULES -- 3. TRIATOMIC MOLECULES -- 4. HYDROCARBONS -- 4.1. Methane CH4 -- 4.2. Ethane C2H6 -- 4.3. Propane C3H8 -- 4.4. Butane C4H10 -- 4.5. Pentane C5H12 -- 4.6. Hexane C6H14 -- 4.7. Septane, Octane, and Beyond -- 4.8. A Brief Revisit to Hydrocarbons and States of Matter -- CONCLUSION -- A PROJECT FOR READERS -- IMPORTANT REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. HYDROCARBON COMBUSTION -- 2. HYDROCARBON COMBUSTION IN STEPS -- 2.1. Steps in Methane Combustion -- 2.2. Energies from Steps in Methane Combustion -- 2.3. Focus on the First Step of Methane Combustion -- 3. FIRST STEP OF COMBUSTION FOR OTHER HYDROCARBONS -- 3.1. Hexane Combustion, First Step 2 -- 3.2. Septane Combustion, First Step H -- 3.3. Octane Combustion, First Step -- 3.4. Real Combustion, First Step -- 4. FIRST STEP OF COMBUSTION FOR A FUEL MIX -- 5. THE NECESSARY POST SCRIPT TO HYDROCARBON COMBUSTION -- 5.1. Rhodium -- 5.2. Palladium -- 5.3. Platinium -- CONCLUSION -- A PROJECT FOR READERS -- REFERENCES -- CATALYSIS OF CHEMICAL REACTIONS -- ABSTRACT -- INTRODUCTION -- 1. THE EXAMPLE REACTION. 1.1. The Full Reaction -- 1.2. The Textbook Catalyzed Reaction Steps -- 1.3. Why the Textbook Story Didn't Work -- 2. A NEW ATTACK ON THE PROBLEM -- 2.1. The First Catalyzed Reaction Step -- 2.2. The Second Catalyzed Reaction Step -- 2.3. Define More Reaction Steps? -- 3. QUESTIONING THE ASSUMED REACTION -- 4. NATURAL CATALYSIS -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- ELECTRO-CHEMISTRY IN POWER GENERATION -- ABSTRACT -- INTRODUCTION -- 1. THE ORIGINS OF CONTROVERSY -- 1.1. Lack of Neutrons -- 1.2. Variability of Excess Heat -- 1.3. Lack of Credible Theory -- 2. THE NUMERICAL INFORMATION NEEDED -- 3. WHAT HAPPENS IN THE ELECTROLYTIC SOLUTION -- 4. WHAT HAPPENS AT THE CATHODE -- CONCLUSION -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCE -- PART II. CHEMISTRY AS QUANTUM MECHANICS -- PROLOG TO PART II -- REFERENCES -- HYDROGEN AS THE PROTOTYPICAL ATOM -- ABSTRACT -- INTRODUCTION -- 1. RADIATION FROM ACCELERATING CHARGES -- 2. TORQUING IN THE HYDROGEN ATOM -- 3. EVEN MORE RADIATION -- 4. BALANCE AT THE GROUND STATE -- 5. EXCITED STATES -- CONCLUSION -- REFERENCES -- GENERAL CHARGE PAIRS -- ABSTRACT -- INTRODUCTION -- 1. HYDROGEN -- 2. POSITRONIUM -- 3. THE PROTON PAIR -- 4. THE ELECTRON PAIR -- CONCLUSION -- REFERENCE -- ELECTRON RINGS AND STRUCTURES THEREOF -- ABSTRACT -- INTRODUCTION -- 1. COMFORTABLE ELEMENTS -- 1.1. A Ring of Three Electrons -- 1.2. Two Rings of Three Electrons -- 1.3. A Ring of Five Electrons -- 1.4. Two Rings of Five Electrons -- 1.5. A Ring of Seven Electrons -- 1.6. Two Rings of Seven Electrons -- 2. UNCOMFORTABLE ELEMENTS -- 3. PECULIAR ELEMENTS -- CONCLUSION -- APPENDIX -- A PROJECT FOR READERS -- ACKNOWLEDGMENTS -- REFERENCES -- EXPLOSIONS AND EXPLANATIONS -- ABSTRACT -- INTRODUCTION -- 1. LOG-LINEARITY OF IONIZATION POTENTIALS. 2. ON THE MEANING OF HIGHER-ORDER IONIZATION POTENTIALS -- 2.1. Observations -- 2.2. Explanations -- 3. ON THE MEANING OF FIRST-ORDER IONIZATION POTENTIALS -- 3.1. Full Periods -- 3.2. Sub-Period Levels -- 3.3. Sub-Period Slopes -- 4. ON THE UTILITY OF HIGHER-ORDER IONIZATION POTENTIALS IN CHEMISTRY -- CONCLUSION -- REFERENCES -- PART III. QUANTUM MECHANICS AS ELECTRODYNAMICS -- PROLOG TO PART III -- REFERENCE -- PHOTONS AND MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. APPROACH -- 2. E'S AND B'S FOR ONE OF THE TWO ORIENTATIONS -- 3. WAVEFORM EVOLUTION -- 4. WAVEFORM ENERGY DENSITIES -- 5. RELATIVE MOTION -- 6. IMPLICATIONS FOR FIELDS DELIVERED -- 7. IMPLICATIONS FOR RELATIVITY THEORY -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX -- [A] Theory of the Photon -- The Concept of Convergence -- REFERENCES -- ON THE INVARIANCE OF MAXWELL'S EQUATIONS -- ABSTRACT -- INTRODUCTION -- 1. EXTENDED TENSOR NOTATION, WITH MATRIX DEMONSTRATIONS -- 3. GALILEAN TRANSFORMATION OF MAXWELL'S EQUATIONS -- CONCLUSION -- REFERENCES -- CONCLUSION -- 1. SOME HISTORY TO RECALL -- 2. THE TASK TO ADDRESS -- 3. SPECIFIC TOOLS TO USE -- ACKNOWLEDGMENTS -- REFERENCES -- INDEX. Molecular dynamics Mathematics. Ionization constants Measurement. http://id.loc.gov/authorities/subjects/sh85067825 Quantum chemistry. http://id.loc.gov/authorities/subjects/sh85109456 Dynamique moléculaire Mathématiques. Chimie quantique. SCIENCE Chemistry Physical & Theoretical. bisacsh Ionization constants Measurement fast Molecular dynamics Mathematics fast Quantum chemistry fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85067825 http://id.loc.gov/authorities/subjects/sh85109456 |
| title | Algebraic chemistry : applications and origins / |
| title_auth | Algebraic chemistry : applications and origins / |
| title_exact_search | Algebraic chemistry : applications and origins / |
| title_full | Algebraic chemistry : applications and origins / Cynthia Kolb Whitney. |
| title_fullStr | Algebraic chemistry : applications and origins / Cynthia Kolb Whitney. |
| title_full_unstemmed | Algebraic chemistry : applications and origins / Cynthia Kolb Whitney. |
| title_short | Algebraic chemistry : |
| title_sort | algebraic chemistry applications and origins |
| title_sub | applications and origins / |
| topic | Molecular dynamics Mathematics. Ionization constants Measurement. http://id.loc.gov/authorities/subjects/sh85067825 Quantum chemistry. http://id.loc.gov/authorities/subjects/sh85109456 Dynamique moléculaire Mathématiques. Chimie quantique. SCIENCE Chemistry Physical & Theoretical. bisacsh Ionization constants Measurement fast Molecular dynamics Mathematics fast Quantum chemistry fast |
| topic_facet | Molecular dynamics Mathematics. Ionization constants Measurement. Quantum chemistry. Dynamique moléculaire Mathématiques. Chimie quantique. SCIENCE Chemistry Physical & Theoretical. Ionization constants Measurement Molecular dynamics Mathematics Quantum chemistry |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=610679 |
| work_keys_str_mv | AT whitneycynthiakolb algebraicchemistryapplicationsandorigins |