Contents
Preface
PART ONE: LOVE
Chapter One: Lovey-Dovey
Chapter Two: Real and Unreal—The First Step
Chapter Three: The Virtues of Selfishness
Chapter Four: Attached to Nothing
QUESTIONS
* Will you please speak about the difference between a healthy love of oneself and
egoistic pride?
* Why is love so painful?
* How is it that the inscription on the Greek temple of Delphi says “Know
Thyself” and not “Love Thyself”?
* How can I love better?
PART TWO: FROM RELATIONSHIP TO RELATING
Chapter Five: The Honeymoon that Never Ends
Chapter Six: From Lust to Love to Loving
Chapter Seven: Let There Be Spaces . . .
Chapter Eight: The Koan of Relationship
QUESTIONS
* How can I know that a woman has fallen in love in reality, and not playing
games?
* If the jealousies, the possessiveness, the attachment, the needs and expectations
and desires and illusions drop, will anything be left of my love?
* What is the difference between liking and loving, to like and to love? And also,
* what is the difference between ordinary love and spiritual love?
* There are many people I love but I don’t feel committed to. How can I predict if I
will love them tomorrow?
* Even if sometimes lovelike feelings arise in my heart, immediately I start feeling
this is not love, it is my hidden cravings for sex and all that.
* In the East, it has been stressed that one should stay with a person, one person,
in a love relationship. In the West, now people float from one relationship to
another. Which are you in favor of?
* Lately, I have begun to realize how even my lover is a stranger to me. Still, there
is an intense longing to overcome the separation between us.
PART THREE: FREEDOM
Chapter Nine: Tabula Rasa
Chapter Ten: The Fundamental Slavery
Chapter Eleven: Beware of the Popes
Chapter Twelve: Is There Life After Sex?
Chapter Thirteen: It Takes a Village . . .
QUESTIONS
* You said that love can make you free. But ordinarily we see that love becomes
attachment, and instead of freeing us it makes us more bound. So tell us
something about attachment and freedom.
* My boyfriend feels less and less like making love, and this makes me upset and
frustrated, even to the point where I act aggressive toward him. What can I do?
* My sex life has become very quiet lately — not that I don’t want sex or that I am
not courageous enough to approach women, but it just doesn’t happen. What am
I doing wrong?
* How can I know if detachment or indifference is growing within?
* In your vision of a model society, would there be one large commune or a series
of communes? What would be their relationship to one another?
PART FOUR: ALONENESS
Chapter Fourteen: Aloneness Is Your Nature
Chapter Fifteen: Strangers to Ourselves
Chapter Sixteen: Solitary and Elect
Chapter Seventeen: The Lion and the Sheep
QUESTIONS
* Never belonged, never been on the “inside,” never felt “at one” with another.
Why such a loner all my life?
* Why does my sadness feel more real than my happiness? I want so much to be
real and authentic, not to wear any masks, but this seems to mean so much
rejection by others. Is it possible to be so alone?
* As I move deeper into meditation and looking into who I really am, I am having
trouble maintaining any relationship. Is this something to be expected, or have I
gone wrong somewhere?
Caveat: Two Women and a Monk
Epilogue: Embracing the Paradox
28 Aralık 2019 Cumartesi
200 German Verbs
01-50
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51-100
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101-150
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151-200
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51-100
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101-150
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151-200
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11 Aralık 2019 Çarşamba
Andrew Rex - Commonly asked questions in physcis
1 Classical Mechanics 1
1-What Is Physics? 1
2-What Is the SI System of Units? 2
3-How Are SI Units Defined? 2
4-What Are SI Base Units and Derived Units? 3
5-Are SI Units the Only Ones Used in Physics? 4
6-What Are Velocity and Acceleration? 4
7-Are Velocity and Speed the Same? 6
8-What Is a Force? 8
9-What Are Newton’s Laws of Motion? 8
10-Are Mass and Weight the Same? 9
11-Why Do Different Masses (or Weights) Fall at the Same Rate? 10
12-What Are Friction and Drag Forces? 10
13-What Are Work and Energy? 11
14-What Is the Work–Energy Theorem? 12
15-What Is Potential Energy? 12
16-What Is Conservation of Mechanical Energy? 12
17-What Is Power? 13
18-What Is Momentum Conservation? 13
19-How Do Rockets Work? 14
20-What Is Center of Mass? 14
21-What Is Simple Harmonic Motion? 15
22-What Are Torque and Angular Momentum? 17
23-What Is a Gyroscope? 18
24-What Is Newton’s Law of Universal Gravitation? 19
25-Why Is Newton’s Gravitation Law Considered “Universal”? 19
26-What Keeps Planets and Satellites in Orbit? 20
27-What Orbits Do the Planets Follow? 21
28-What Other Kinds of Orbital Paths Are Possible? 21
29-What Is a Geosynchronous Satellite? 21
30-Why Does the Acceleration due to Gravity Vary with Altitude and
Latitude? 22
31-What Is the Coriolis Force? 23
32-Can Classical Mechanics Explain Everything? 23
2 Electromagnetism and Electronics 25
33-What Are Electric Charges, and How Do They Affect Each Other? 25
34-Why Do I Get Shocked after Walking on Carpet? 26
35-What Is Coulomb’s Law? 26
36-How Strong Is the Electric Force Compared with Gravity? 26
37-What Is Quantization of Charge? 27
38-What Is an Electric Field? 27
39-What Happens in a Thunderstorm? 28
40-What Is Electric Potential? 29
41-What Is a Capacitor? 29
42-How Does a Defibrillator Work? 30
43-What Are Electric Current and Resistance? 30
44-What Is Ohm’s Law? 31
45-What Are Semiconductors? 32
46-What Are Diodes and Transistors? 33
47-What Are Superconductors? 35
48-What Are Some Applications of Superconductors? 36
49-What Are Magnetic Dipoles and Magnetic Fields? 36
50-What about Earth’s Magnetic Field? 38
51-How Do Animals Use Earth’s Magnetic Field? 39
52-What Is Electromagnetism? 39
53-What Is Magnetic Induction? 39
54-How Does an Electromagnet Work? 40
55-What Is a Solenoid? 41
56-How Are Magnetic Materials like Electromagnets? 42
57-What Are Direct Current and Alternating Current? 43
58-How Do Electric Motors Work? 44
59-What Is an Electromagnetic Wave? 45
60-What Is the Electromagnetic Spectrum? 46
61-How Does Wireless Communication Work? 47
62-How Does a Microwave Oven Work? 48
3 Solids and Fluids 49
63-What Are the States of Matter? 49
64-What Is Plasma? 50
65-How Are the States of Matter Related to Density, Pressure, and
Temperature? 50
66-What Makes Some Solids Stronger Than Others? 51
67-What Is a Fluid? 52
68-Why Does Fluid Pressure Depend on Depth? 52
69-How Does a Barometer Work? 54
70-What Is Decompression Sickness? 54
71-How Is Air Pressure Related to Weather? 55
72-What Does Your Blood Pressure Mean? 56
73-What Causes Buoyancy? 56
74-What Is Bernoulli’s Principle? 57
75-What Is Surface Tension? 58
76-What Is a Superfluid? 60
77-What Are Transverse and Longitudinal Waves? 61
78-What Is Wave Interference? 62
79-What Is a Standing Wave? 62
80-What Is a Tsunami (Tidal Wave)? 63
81-How Is Sound Generated? 64
82-What Is the Speed of Sound? 64
83-What Is the Decibel Scale? 65
84-How Does Your Hearing Work? 65
85-How Are Music and Musical Harmonies Made? 67
86-What Is the Doppler Effect? 68
87-What Makes a Sonic Boom? 69
4 Quantum Mechanics 71
88-What Is Quantization? 71
89-How Are Mass and Electric Charge Quantized? 72
90-How Is Atomic Energy Quantized? 73
91-What Is Blackbody Radiation? 74
92-How Is Electromagnetic Radiation Quantized? 76
93-What Is a Photon? 76
94-What Is the Photoelectric Effect? 77
95-What Is Wave–Particle Duality? 80
96-What Does the Two-Slit Experiment Reveal about Wave–Particle
Duality? 80
97-What Are Particle Waves? 82
98-What Is the Heisenberg Uncertainty Principle? 83
99-What Does Quantum Mechanics Tell Us about Hydrogen Atoms? 84
100-How Does Quantum Mechanics Describe Transitions between States? 87
101-How Does Quantum Mechanics Apply to Other Atoms? 87
102-What Is the Zeeman Effect? 90
103-What Is the Stern–Gerlach Experiment? 91
104-What Are NMR and MRI? 91
105-What Is Quantum Tunneling? 91
106-What Is a Quantum Computer? 92
107-What Are Some Other Applications of Quantum Mechanics? 92
5 Light and Optics 95
108-What Is Light? 95
109-What Are Ray Optics and Wave Optics? 96
110-What Is the Law of Reflection? 96
111-How Does the Law of Reflection Explain the Images You See in
a Mirror? 97
112-Why Doesn’t Everything Reflect like a Mirror? 97
113-How Do Curved Mirrors Form Images? 97
114-What Is Refraction? 99
115-What Is Total Internal Reflection, and How Is It Used? 101
116-What Is Dispersion? 101
117-Why Do Diamonds Sparkle? 102
118-How Do Rainbows Form? 102
119-How Do Lenses Work? 103
120-How Do Converging Lenses Form Images? 105
121-Does Your Eye Form Images This Way? 106
122-What Are Aberration Effects in Lenses? 106
123-What Are Some Common Refractive Vision Disorders, and How Are They
Corrected with Lenses? 106
124-What Does Your Corrective Lens Prescription Mean? 107
125-How Do Microscopes Work? 108
126-What Is an Electron Microscope? 109
127-How Do Telescopes Work? 109
128-How Does a Refracting Telescope Work? 110
129-How Does a Reflecting Telescope Work? 111
130-What Are Some Novel Designs for Modern Reflecting Telescopes? 113
131-Can You Use Telescopes to See Other Kinds of (Invisible) Radiation? 113
132-How Does Interference Reveal Light’s Wave Properties? 114
133-Can You See Thin-Film Interference from White Light? 114
134-Are There Any Useful Applications of Interference? 116
135-What Is Diffraction? 117
136-What Is Polarization, and Why Is It Useful? 117
137-Why Is the Sky Blue? 118
138-How Do Lasers Work, and What Makes Them Different from Other Light
Sources? 118
139-How Do CD and DVD Players Work? 119
140-What Is a Light-Emitting Diode? 119
141-What Is a Solar (Photovoltaic) Cell? 120
6 Thermodynamics 121
142-What Is Temperature? 121
143-What Are Some Common Temperature Scales? 122
144-What Is the Kinetic Theory of Gases? 123
145-What Is Thermal Expansion? 125
146-What Are the Units for Thermal Energy, Heat, and Food Energy? 127
147-What Are Heat Capacity and Specific Heat? 128
148-How Is Specific Heat Measured for Gases? 128
149-What Is the Equipartition Theorem? 129
150-What Are Phase Changes? 130
151-What Is Latent Heat? 131
152-What Is Evaporative Cooling? 131
153-What Is the First Law of Thermodynamics? 131
154-What Are Conduction, Convection, and Radiation? 132
155-How Does a Thermos Bottle Work? 133
156-What Is the Greenhouse Effect? 133
157-What Is the Second Law of Thermodynamics? 134
158-What Is Entropy? 135
159-What Is a Heat Engine? 137
160-How Do Refrigerators, Air Conditioners, and Heat Pumps Work? 138
161-What Is a Fuel Cell? 138
162-What Are Quantum Statistics? 139
163-How Cold Can You Get? 140
7 Atoms and Nuclei 143
164-Atoms and Elements—What Are They? 143
165-What Are Atomic Spectra? 144
166-What Is the Rutherford–Bohr Model of the Atom? 144
167-What Are Atomic Orbitals and Shells? 148
168-How Do Atomic Shells and Subshells Explain the Periodic Table? 149
169-How Are X-Rays Produced? 150
170-What Is the Difference between Characteristic and Bremsstrahlung
X-Rays? 151
171-How Do Medical X-Rays Work? 152
172-What Are the Basic Properties of Nuclei? 153
173-What Is the Strong (Nuclear) Force? 153
174-How Are Nuclei Bound by the Nuclear Force? 155
175-Which Combinations of Z and N Are More Stable? 155
176-What Is Nuclear Binding Energy? 156
177-What Are the Benefits and Dangers of Radioactive Nuclei? 156
178-What Is Alpha Decay? 156
179-What Is Beta Decay? 158
180-What Is Gamma Decay? 159
181-What Is a Radioactive Half-Life? 160
182-What Are Decay Chains? 160
183-How Are Radioactive Nuclides Used in Medicine? 161
184-How Does Radioactive Dating Work? 162
185-What Is Fission? 163
186-What Is a Chain Reaction? 164
187-What Makes an Atomic Bomb Work? 165
188-How Much Energy Is Released in Fission? 165
189-How Does a Nuclear Reactor Work? 165
190-What Is Fusion? 168
191-What Is a Hydrogen Bomb? 169
192-What Are the Prospects for Large-Scale Energy Production from
Fusion? 169
8 Fundamental Particles and Forces 171
193-What Are Fundamental and Composite Particles? 171
194-What Are the Historical Roots of the Search for Fundamental Particles? 172
195-What Is Antimatter? 172
196-What Is the Relative Abundance of Matter and Antimatter in the
Universe? 173
197-What Is the Particle Zoo? 173
198-How Do Particles Mediate Forces? 176
199-What Are Quarks? 176
200-What Is Color Charge? 178
201-What Are Gluons? 179
202-What Is Quark Confinement? 179
203-What Are Leptons? 179
204-What Is Neutrino Oscillation? 181
205-What Is the Weak Force? 182
206-What Is a Feynman Diagram? 182
207-What Conservation Laws Are Associated with Hadrons and Leptons? 184
208-What Is the Higgs Boson? 185
209-What Is Unification? 185
9 Relativity 187
210-What’s the Difference between Special Relativity and General Relativity? 187
211-How Was Special Relativity Developed? 188
212-What are the Two Principles (or Postulates) of Special Relativity? 189
213-How Are Time and Distance Measurements Affected in Relativity? 190
214-What Are Proper Time and Proper Length? 190
215-How Are Time Dilation and Length Contraction Related? 191
216-What Is the Twin Paradox? 192
217-Can You Travel Backward in Time? 193
218-What Is Spacetime? 193
219-How Are Velocity Measurements Affected by High Speeds? 194
220-What Is the Doppler Effect? 195
221-What Is Relativistic Energy? 196
222-What Are Photons? 198
223-How Is Relativity Connected to Electromagnetism? 199
224-What Is the Principle of Equivalence? 199
225-How Does General Relativity Describe Gravity? 200
226-What Are Some Consequences of General Relativity? 200
227-What Is a Black Hole? 202
228-What Are Gravitational Waves? 203
229-How Do We Use Relativity? 203
230-So Is Everything Really Relative? 204
10 Astrophysics and Cosmology 207
231-What Are Astronomy, Astrophysics, and Cosmology? 207
232-How Was Our Solar System Formed? 208
233-How Was the Moon Formed? 209
234-What Are the Orbits of the Planets? 209
235-What Other Objects Are in the Solar System? 211
236-Why Isn’t Pluto Considered a Planet? 212
237-What Is the Solar Wind? 213
238-What Are Stars? 213
239-How Do Stars Evolve in Time? 214
240-How Are Stars Classified? 214
241-What Is a Supernova? 215
242-What Are Galaxies? 217
243-How Has the Universe Evolved in Time? 218
244-What Is the Evidence for the Big Bang and Expanding Universe? 218
245-How Are Cosmic Distances Determined? 219
246-What Are Dark Matter and Dark Energy? 220
247-Where Do We Go from Here? 221
Kenneth W. Ford - 101 Soruda Kuantum - 101 Quantum Questions
I. Bölüm - Atom Altı Dünya
1-Kuantum nedir?
2-Kuantum fizik yasaları nerede hüküm sürer?
3-Uyumluluk ilkesi nedir?
4-Bir atom ne kadar büyüktür*
5-Atomun içinde ne vardır?
6-Katı madde eğer çoğunlukla boş mekansa neden katıdır?
7-Bir elektron ne kadar büyüktür? İçinde bir şey var mıdır?
I. The Subatomic World
1. What is a quantum, anyway?
2. Where do the laws of quantum physics hold sway?
3. What is the correspondence principle?
4. How big is an atom?
5. What is inside an atom?
6. Why is solid matter solid if it is mostly empty space?
7. How big is an electron? Is there anything inside it?
II. Bölüm - Derine İnmek
8-Bir çekirdek ne kadar büyüktür? İçinde ne vardır?
9-Proton ve nötronun büyüklüğü nedir? İçlerinde ne vardır?
10-Planck sabiti nedir ve neden önemlidir?
11-Foton nedir?
12-Fotoelektrik etki nedir?
13-Hangi parçacıkların temel olduğu düşünülmektedir?
14-Standart model nedir?
II. Digging Deeper
8. How big is a nucleus? What is inside it?
9. How big are protons and neutrons? What is inside them?
10. What is Planck’s constant and what is its significance?
11. What is a photon?
12. What is the photoelectric effect?
13. What particles are believed to be fundamental? What particles are composite?
14. What is the standard model?
III. Bölüm - Küçük ve Çevik
15-Kuantum mesafe ölçekleri nelerdir?
16-Bir parçacık başka bir parçacığı etkilemek için ne kadar uzağa uzanabilir?
17-Parçacıklar hangi hızla hareket eder?
18-Kuantum zaman ölçekleri nelerdir?
19-E=mc^2 'nin anlamı nedir?
20-Elektrik yükü nedir?
21-Spin nedir?
III. The Small and the Swift
15. What are some quantum scales of distance?
16. How far can one particle “reach out” to influence another one?
17. How fast do particles move?
18. What are some quantum scales of time?
19. What is the meaning of E = mc2?
20. What is electric charge?
21. What is spin?
IV. Bölüm - Kuantum Öbekler ve Kuantum Sıçramalar
22-Neler öbeklidir, neler değildir?
23-"Hareket durumu" nedir?
24-Uyarılmış hareket durumundaki bir hidrojen atomu farklı durumdaki aynı atom mudur, yoksa başka bir atom mudur?
25-Kuantum sayıları nedir? Birleştirilme kuralları nedir?
26-Kuantum sıçrama nedir?
27-Kuantum fiziğinde olasılığın rolü nedir?
28-kuantum dünyasında hiç belirlilik var mı?
IV. Quantum Lumps and Quantum Jumps
22. What are some things that are lumpy (and some that are not)?
23. What is a “state of motion”?
24. Is a hydrogen atom in an excited state of motion the same atom in a different state or is it a different atom?
25. What are quantum numbers? What are the rules for combining them?
26. What is a quantum jump?
27. What is the role of probability in quantum physics?
28. Is there any certainty in the quantum world?
V. Bölüm - Atomlar ve Çekirdekler
29-Çizgi spektrumu nedir? Bize atomlar hakkında ne öğretmektedir?
30-Element tablosu neden periyodiktir?
31-Ağır atomlar neden hafif atomlarla neredeyse aynı büyüklüktedir?
32-Protonlar ve nötronlar çekirdek içerisinde nasıl hareket ederler?
33-Atom numarası ve (bağıl) atom kütlesi nedir?
V. Atoms and Nuclei
29. What is a line spectrum? What does it reveal about atoms?
30. Why is the chart of the elements periodic?
31. Why are heavy atoms nearly the same size as lightweight atoms?
32. How do protons and neutrons move within a nucleus?
33. What are atomic number and atomic mass?
VI. Bölüm - Çekirdeklere Devam
34-Periyodik tablo niçin son bulur?
35-Radyoaktivite nedir? Biçimleri nelerdir?
36-Nötron çekirdek içerisinde kararlıyken, yalnız olduğunda neden kararsızdır?
37-Nükleer bölünme(fisyon) nedir? Neden enerji açığa çıkartır?
38-Nükleer birleşme (füzyon) nasıl gerçekleşiyor?
VI. And More about Nuclei
34. Why does the periodic table end?
35. What is radioactivity? What are its forms?
36. Why is the neutron stable within a nucleus but unstable when alone?
37. What is nuclear fission? Why does it release energy?
38. What about nuclear fusion?
VII. Bölüm - Parçacıklar
39-Lepton nedir? Nitelikleri nelerdir?
40-Kaç farklı nötrino var? Nereden biliyoruz?
41-Nötrinoların kütlesi var mıdır? Neden 'salınırlar'?
42-Parçacıkların gerçekten sadece üç nesli mi vardır?
43-Tüm elektronların özdeş olduğunu nereden biliyoruz?
VII. Particles
39. What is a lepton? What are its flavors?
40. How many distinct neutrinos are there? How do we know?
41. Do neutrinos have mass? Why do they “oscillate”?
42. Are there really only three generations of particles?
43. How do we know that all electrons are identical?
VIII. Bölüm - Parçacıklara Devam
44-İsimler, isimler, isimler. Tüm bunlar ne anlama geliyor?
45-Kuarkların özellikleri nelerdir? Nasıl birleşirler?
46-Bileşik parçacıklar hangileridir? Sayıları nedir?
47-Her parçacığın bir fermiyon ya da bozon olması zorunlu mudur? Bu iki sınıfı ayıran nedir?
48-Bose-Einstein yoğunlaşması nedir?
49-Bozon ve fermiyonlar isimlerini nereden alır?
VIII. And More Particles
44. Names, names, names. What do they all mean?
45. What are the properties of quarks? How do they combine?
46. What are the composite particles? How many are there?
47. Does every particle have to be a fermion or a boson? What sets these two classes apart?
48. What is a Bose–Einstein condensate?
49. How did bosons and fermions get their names?
IX. Bölüm - Etkileşimler
50-Feynman diyagramı nedir?
51-Feynman diyagramlarının ana özellikleri nelerdir?
52-Feynman diyagramlarında yeğin, zayıf ve elektromanyetik etkileşimler nasıl gösterilir?
53-Hangi parçacıklar kararlıdır? Hangileri kararsızdır? Bir parçacığın bozunduğunu söylemek ne anlama gelmektedir?
54-Saçılım nedir?
55-Bir saçılım veya bir bozunumun öncesi ve sonrasında aynı kalan nedir?
56-Bir saçılım veya bozunum sırasında ne değişir?
IX. Interactions
50. What is a Feynman diagram?
51. What are the essential features of Feynman diagrams?
52. How do Feynman diagrams illustrate the strong, weak, and electromagnetic interactions?
53. Which particles are stable? Which are unstable? What does it mean to say that a particle decays?
54. What is scattering?
55. What is the same before and after a scattering or a decay?
56. What changes during a scattering or decay?
X. Bölüm - Değişimdeki Sabitlik
57-Mutlak korunum yasalarının "dört büyükleri" kimler?
58-Kuantum dünyasında başka hangi mutlak korunum yasaları geçerlidir?
59-TCP teoremi nedir?
60-Sadece "kısmi" olan korunum yasaları hangileridir?
61-Hangi simetri ilkeleri sadece "kısmidir"?
62-Yasaklama ve zorunluluk yasaları nedir?
63-Simetri, değişmezlik ve korunum kavramları birbirleriyle nasıl ilişkilenmektedir?
X. Constancy during Change
57. What are the “big four” absolute conservation laws?
58. What additional absolute conservation laws operate in the quantum world?
59. What is the TCP theorem?
60. What conservation laws are only “partial”?
61. What symmetry principles are only “partial”?
62. What are laws of compulsion and of prohibition?
63. How are the concepts of symmetry, invariance, and conservation related?
XI. Bölüm - Dalgalar ve Parçacıklar
64-Dalgalar ve prçacıkların ortak noktaları nelerdir? Farkları nelerdir?
65-De Broglie nedir? Neden önemlidir?
66-Dalgaların kuantum öbekleriyle bağlantısı nedir?
67-Dalgaların atomların boyutlarıyla bağlantısı nedir?
68-Kırınım nedir? Girişim nedir?
69-Çift yarık deneyi nedir? Neden önemlidir?
70-Tünelleme nedir?
XI. Waves and Particles
64. What do waves and particles have in common? How do they differ?
65. What is the de Broglie equation? What is its significance?
66. How are waves related to quantum lumps?
67. How do waves relate to the size of atoms?
68. What is diffraction? What is interference?
69. What is the two-slit experiment? Why is it important?
70. What is tunneling?
XII. Bölüm - Dalgalar ve Olasılık
71-Dalga fonksiyonu nedir? Schrödinger denklemi nedir?
72-Dalgalar olasılıkları nasıl belirler?
73-Dalgalar parçacıkların sabit konuma sahip olmalarını nasıl engeller?
74-belirsizlik ilkesi nedir?
75-Belirsizlik ilkesi, maddenin dalga doğası ile nasıl ilişkilenir?
76-Üst üste binme nedir?
77-Dalgalar gerekli mi?
XII. Waves and Probability
71. What is a wave function? What is Schrödinger’s equation?
72. How do waves determine probabilities?
73. How do waves prevent particles from having fixed positions?
74. What is the uncertainty principle?
75. How does the uncertainty principle relate to the wave nature of matter?
76. What is superposition?
77. Are waves necessary?
XIII. Bölüm - Kuantum Fiziği ve Teknoloji
78-Parçacıklar ışık hızına yakın hızlara nasıl çıkartılıyorlar?
79-Yüksek enerjili parçacıkların algılanması nasıl gerçekleşir?
80-Lazer nasıl çalışır?
81-Bir metalde elektronlar nasıl davranır?
82-Yarı iletken nedir?
83-Bir p-n yüzey birleşimi nedir? Niçin diyottur?
84-Diyotlar nerelerde kullanılır?
85-Transistör nedir?
XIII. Quantum Physics and Technology
78. How are particles pushed close to the speed of light?
79. How are high–energy particles detected?
80. How does a laser work?
81. How do electrons behave in a metal?
82. What is a semiconductor?
83. What is a p–n junction? Why is it a diode?
84. What are some uses of diodes?
85. What is a transistor?
XIV. Bölüm - Tüm Ölçeklerde Kuantum Fiziği
86-Kara delikler neden buharlaşır?
87-Güneş'in merkezinde kuantum fiziği nasıl işler?
88-Süer iletkenlik nedir?
89-Süper akışkanlık nedir?
90-Josephson eklemi nedir?
91-Kuantum benek nedir?
92-Kuark-gluon plazması nedir?
93-Planck uzunluğu nedir? Kuantum köpüğü nedir?
XIV. Quantum Physics at Every Scale
86. Why do black holes evaporate?
87. How does quantum physics operate in the center of the Sun?
88. What is superconductivity?
89. What is superfluidity?
90. What is a Josephson junction?
91. What is a quantum dot?
92. What is a quark–gluon plasma?
93. What is the Planck length? What is quantum foam?
XV. Bölüm - Sınırlar ve Bulmacalar
94-Fizikçiler neden 137 sayısını sever?
95-Dolanıklık nedir?
96-Bell eşitsizliği nedir?
97-Kubit nedir? Kuantum hesaplama nedir?
98-Higgs parçacığı nedir? Neden önemldir?
99-Sicim kuramı nedir?
100-"Ölçüm sorunu" nedir?
101-Niçin kuantum?
XV. Frontiers and Puzzles
94. Why are physicists in love with the number 137?
95. What is entanglement?
96. What is Bell’s in equality?
97. What is a qubit? What is quantum computing?
98. What is the Higgs particle? Why is it important?
99. What is string theory?
100. What is the “measurement problem”?
101. How come the quantum?
1-Kuantum nedir?
2-Kuantum fizik yasaları nerede hüküm sürer?
3-Uyumluluk ilkesi nedir?
4-Bir atom ne kadar büyüktür*
5-Atomun içinde ne vardır?
6-Katı madde eğer çoğunlukla boş mekansa neden katıdır?
7-Bir elektron ne kadar büyüktür? İçinde bir şey var mıdır?
I. The Subatomic World
1. What is a quantum, anyway?
2. Where do the laws of quantum physics hold sway?
3. What is the correspondence principle?
4. How big is an atom?
5. What is inside an atom?
6. Why is solid matter solid if it is mostly empty space?
7. How big is an electron? Is there anything inside it?
II. Bölüm - Derine İnmek
8-Bir çekirdek ne kadar büyüktür? İçinde ne vardır?
9-Proton ve nötronun büyüklüğü nedir? İçlerinde ne vardır?
10-Planck sabiti nedir ve neden önemlidir?
11-Foton nedir?
12-Fotoelektrik etki nedir?
13-Hangi parçacıkların temel olduğu düşünülmektedir?
14-Standart model nedir?
II. Digging Deeper
8. How big is a nucleus? What is inside it?
9. How big are protons and neutrons? What is inside them?
10. What is Planck’s constant and what is its significance?
11. What is a photon?
12. What is the photoelectric effect?
13. What particles are believed to be fundamental? What particles are composite?
14. What is the standard model?
III. Bölüm - Küçük ve Çevik
15-Kuantum mesafe ölçekleri nelerdir?
16-Bir parçacık başka bir parçacığı etkilemek için ne kadar uzağa uzanabilir?
17-Parçacıklar hangi hızla hareket eder?
18-Kuantum zaman ölçekleri nelerdir?
19-E=mc^2 'nin anlamı nedir?
20-Elektrik yükü nedir?
21-Spin nedir?
III. The Small and the Swift
15. What are some quantum scales of distance?
16. How far can one particle “reach out” to influence another one?
17. How fast do particles move?
18. What are some quantum scales of time?
19. What is the meaning of E = mc2?
20. What is electric charge?
21. What is spin?
IV. Bölüm - Kuantum Öbekler ve Kuantum Sıçramalar
22-Neler öbeklidir, neler değildir?
23-"Hareket durumu" nedir?
24-Uyarılmış hareket durumundaki bir hidrojen atomu farklı durumdaki aynı atom mudur, yoksa başka bir atom mudur?
25-Kuantum sayıları nedir? Birleştirilme kuralları nedir?
26-Kuantum sıçrama nedir?
27-Kuantum fiziğinde olasılığın rolü nedir?
28-kuantum dünyasında hiç belirlilik var mı?
IV. Quantum Lumps and Quantum Jumps
22. What are some things that are lumpy (and some that are not)?
23. What is a “state of motion”?
24. Is a hydrogen atom in an excited state of motion the same atom in a different state or is it a different atom?
25. What are quantum numbers? What are the rules for combining them?
26. What is a quantum jump?
27. What is the role of probability in quantum physics?
28. Is there any certainty in the quantum world?
V. Bölüm - Atomlar ve Çekirdekler
29-Çizgi spektrumu nedir? Bize atomlar hakkında ne öğretmektedir?
30-Element tablosu neden periyodiktir?
31-Ağır atomlar neden hafif atomlarla neredeyse aynı büyüklüktedir?
32-Protonlar ve nötronlar çekirdek içerisinde nasıl hareket ederler?
33-Atom numarası ve (bağıl) atom kütlesi nedir?
V. Atoms and Nuclei
29. What is a line spectrum? What does it reveal about atoms?
30. Why is the chart of the elements periodic?
31. Why are heavy atoms nearly the same size as lightweight atoms?
32. How do protons and neutrons move within a nucleus?
33. What are atomic number and atomic mass?
VI. Bölüm - Çekirdeklere Devam
34-Periyodik tablo niçin son bulur?
35-Radyoaktivite nedir? Biçimleri nelerdir?
36-Nötron çekirdek içerisinde kararlıyken, yalnız olduğunda neden kararsızdır?
37-Nükleer bölünme(fisyon) nedir? Neden enerji açığa çıkartır?
38-Nükleer birleşme (füzyon) nasıl gerçekleşiyor?
VI. And More about Nuclei
34. Why does the periodic table end?
35. What is radioactivity? What are its forms?
36. Why is the neutron stable within a nucleus but unstable when alone?
37. What is nuclear fission? Why does it release energy?
38. What about nuclear fusion?
VII. Bölüm - Parçacıklar
39-Lepton nedir? Nitelikleri nelerdir?
40-Kaç farklı nötrino var? Nereden biliyoruz?
41-Nötrinoların kütlesi var mıdır? Neden 'salınırlar'?
42-Parçacıkların gerçekten sadece üç nesli mi vardır?
43-Tüm elektronların özdeş olduğunu nereden biliyoruz?
VII. Particles
39. What is a lepton? What are its flavors?
40. How many distinct neutrinos are there? How do we know?
41. Do neutrinos have mass? Why do they “oscillate”?
42. Are there really only three generations of particles?
43. How do we know that all electrons are identical?
VIII. Bölüm - Parçacıklara Devam
44-İsimler, isimler, isimler. Tüm bunlar ne anlama geliyor?
45-Kuarkların özellikleri nelerdir? Nasıl birleşirler?
46-Bileşik parçacıklar hangileridir? Sayıları nedir?
47-Her parçacığın bir fermiyon ya da bozon olması zorunlu mudur? Bu iki sınıfı ayıran nedir?
48-Bose-Einstein yoğunlaşması nedir?
49-Bozon ve fermiyonlar isimlerini nereden alır?
VIII. And More Particles
44. Names, names, names. What do they all mean?
45. What are the properties of quarks? How do they combine?
46. What are the composite particles? How many are there?
47. Does every particle have to be a fermion or a boson? What sets these two classes apart?
48. What is a Bose–Einstein condensate?
49. How did bosons and fermions get their names?
IX. Bölüm - Etkileşimler
50-Feynman diyagramı nedir?
51-Feynman diyagramlarının ana özellikleri nelerdir?
52-Feynman diyagramlarında yeğin, zayıf ve elektromanyetik etkileşimler nasıl gösterilir?
53-Hangi parçacıklar kararlıdır? Hangileri kararsızdır? Bir parçacığın bozunduğunu söylemek ne anlama gelmektedir?
54-Saçılım nedir?
55-Bir saçılım veya bir bozunumun öncesi ve sonrasında aynı kalan nedir?
56-Bir saçılım veya bozunum sırasında ne değişir?
IX. Interactions
50. What is a Feynman diagram?
51. What are the essential features of Feynman diagrams?
52. How do Feynman diagrams illustrate the strong, weak, and electromagnetic interactions?
53. Which particles are stable? Which are unstable? What does it mean to say that a particle decays?
54. What is scattering?
55. What is the same before and after a scattering or a decay?
56. What changes during a scattering or decay?
X. Bölüm - Değişimdeki Sabitlik
57-Mutlak korunum yasalarının "dört büyükleri" kimler?
58-Kuantum dünyasında başka hangi mutlak korunum yasaları geçerlidir?
59-TCP teoremi nedir?
60-Sadece "kısmi" olan korunum yasaları hangileridir?
61-Hangi simetri ilkeleri sadece "kısmidir"?
62-Yasaklama ve zorunluluk yasaları nedir?
63-Simetri, değişmezlik ve korunum kavramları birbirleriyle nasıl ilişkilenmektedir?
X. Constancy during Change
57. What are the “big four” absolute conservation laws?
58. What additional absolute conservation laws operate in the quantum world?
59. What is the TCP theorem?
60. What conservation laws are only “partial”?
61. What symmetry principles are only “partial”?
62. What are laws of compulsion and of prohibition?
63. How are the concepts of symmetry, invariance, and conservation related?
XI. Bölüm - Dalgalar ve Parçacıklar
64-Dalgalar ve prçacıkların ortak noktaları nelerdir? Farkları nelerdir?
65-De Broglie nedir? Neden önemlidir?
66-Dalgaların kuantum öbekleriyle bağlantısı nedir?
67-Dalgaların atomların boyutlarıyla bağlantısı nedir?
68-Kırınım nedir? Girişim nedir?
69-Çift yarık deneyi nedir? Neden önemlidir?
70-Tünelleme nedir?
XI. Waves and Particles
64. What do waves and particles have in common? How do they differ?
65. What is the de Broglie equation? What is its significance?
66. How are waves related to quantum lumps?
67. How do waves relate to the size of atoms?
68. What is diffraction? What is interference?
69. What is the two-slit experiment? Why is it important?
70. What is tunneling?
XII. Bölüm - Dalgalar ve Olasılık
71-Dalga fonksiyonu nedir? Schrödinger denklemi nedir?
72-Dalgalar olasılıkları nasıl belirler?
73-Dalgalar parçacıkların sabit konuma sahip olmalarını nasıl engeller?
74-belirsizlik ilkesi nedir?
75-Belirsizlik ilkesi, maddenin dalga doğası ile nasıl ilişkilenir?
76-Üst üste binme nedir?
77-Dalgalar gerekli mi?
XII. Waves and Probability
71. What is a wave function? What is Schrödinger’s equation?
72. How do waves determine probabilities?
73. How do waves prevent particles from having fixed positions?
74. What is the uncertainty principle?
75. How does the uncertainty principle relate to the wave nature of matter?
76. What is superposition?
77. Are waves necessary?
XIII. Bölüm - Kuantum Fiziği ve Teknoloji
78-Parçacıklar ışık hızına yakın hızlara nasıl çıkartılıyorlar?
79-Yüksek enerjili parçacıkların algılanması nasıl gerçekleşir?
80-Lazer nasıl çalışır?
81-Bir metalde elektronlar nasıl davranır?
82-Yarı iletken nedir?
83-Bir p-n yüzey birleşimi nedir? Niçin diyottur?
84-Diyotlar nerelerde kullanılır?
85-Transistör nedir?
XIII. Quantum Physics and Technology
78. How are particles pushed close to the speed of light?
79. How are high–energy particles detected?
80. How does a laser work?
81. How do electrons behave in a metal?
82. What is a semiconductor?
83. What is a p–n junction? Why is it a diode?
84. What are some uses of diodes?
85. What is a transistor?
XIV. Bölüm - Tüm Ölçeklerde Kuantum Fiziği
86-Kara delikler neden buharlaşır?
87-Güneş'in merkezinde kuantum fiziği nasıl işler?
88-Süer iletkenlik nedir?
89-Süper akışkanlık nedir?
90-Josephson eklemi nedir?
91-Kuantum benek nedir?
92-Kuark-gluon plazması nedir?
93-Planck uzunluğu nedir? Kuantum köpüğü nedir?
XIV. Quantum Physics at Every Scale
86. Why do black holes evaporate?
87. How does quantum physics operate in the center of the Sun?
88. What is superconductivity?
89. What is superfluidity?
90. What is a Josephson junction?
91. What is a quantum dot?
92. What is a quark–gluon plasma?
93. What is the Planck length? What is quantum foam?
XV. Bölüm - Sınırlar ve Bulmacalar
94-Fizikçiler neden 137 sayısını sever?
95-Dolanıklık nedir?
96-Bell eşitsizliği nedir?
97-Kubit nedir? Kuantum hesaplama nedir?
98-Higgs parçacığı nedir? Neden önemldir?
99-Sicim kuramı nedir?
100-"Ölçüm sorunu" nedir?
101-Niçin kuantum?
XV. Frontiers and Puzzles
94. Why are physicists in love with the number 137?
95. What is entanglement?
96. What is Bell’s in equality?
97. What is a qubit? What is quantum computing?
98. What is the Higgs particle? Why is it important?
99. What is string theory?
100. What is the “measurement problem”?
101. How come the quantum?
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