Resonant Fields

The Fundamental Mechanism of Physics - Made Easy to Understand

Table of Contents

CHAPTER 1: THE THEORY OF EVERYTHING - MADE SIMPLE

1.1 PHYSICS FOR THE 3rd MILLENNIUM

1.2 AUTHORS RESPONSIBILITY

1.3 A REVOLUTIONARY BOOK

1.4 THE EXCITEMENT OF DISCOVERY

1.5 HUMOR AND STYLE

1.6 HOW TO UNDERSTAND EVERYTHING

1.7 ANSWERING THE FIRST GREAT RIDDLE

CHAPTER 2: THE PATHWAY TO DISCOVERY

2.1 A LITTLE LIGHT ON EVERYTHING

2.2 UNIVERSAL MYSTERIES IN LIGHT et al

2.3 SUMMARY OF DISCOVERY TO DATE

2.4 WHERE THE NEW RESONANT FIELD THEORY FITS IN

2.5 BASIC MECHANISMS GENERATED BY MORE FUNDAMENTAL MECHANISMS

2.6 THE UNCERTAINTIES of QUANTUM MECHANICS

2.7 DUALITY

2.8 GRAVITY

2.9 GRAND UNIFICATION

2.10 WHAT'S NEXT

Chapter 3: WHAT THE UNIVERSE IS REALLY MADE OF

3.1 IS THE UNIVERSE DIGITAL OR ANALOG?

3.2 WHAT IS ENERGY?

3.3 WHAT ARE FIELDS AND WHAT ARE THEIR INTRINSIC QUALITIES?

3.3.1 Fields have potential energy

3.3.2 Fields move

3.3.3 Fields transport energy, and have kinetic energy

3.3.4 Fields exert force upon other fields

3.3.5 Fields have geometry

3.3.6 Fields flow

3.3.7 Fields carry information

3.3.8 Fields have orientation and directionality

3.3.9 Geometry + directionality + flowing patterns = attraction, repulsion or neither

3.3.11 Fields support stress

3.3.12 Fields move at the speed of light

3.3.13 Fields propagate force at the speed of light

3.3.14 Fields are Relativistic

3.3.15 Fields are dynamic

3.3.16 Force propagation takes place in three dimensions

3.3.17 Fields are four dimensional

3.4 SERVO RELATIONS BETWEEN FORCES

3.4.1 What servos do

3.4.2 Why field systems oscillate

3.5 RESONANCE

3.5.1 Free-running oscillators are in resonance

3.5.2 Fields always obey the rules

3.5.3 All encounters between oscillators are regulated events

3.5.4 Self-maintenance, self-existence

3.5.5 The only difference between things is their flow patterns

3.5.6 Resonance = non-stop light speed travel

3.5.7 Oscillators within oscillators

3.6 FEMTO INTERFERENCE

3.7 GRAND UNIFICATION

3.8 THE FUNDAMENTAL MECHANISM

CHAPTER 4: NOT WAVES - NOT PARTICLES

4.1 THE QUANTUM STATISTICAL METHOD

4.2 ERWIN SCHRÖDINGER ON THE DUALITY CONUNDRUM

4.3 DIFFERENT FROM WAVES and DIFFERENT FROM PARTICLES

Chapter 5

LIGHT: THE KEY TO THE UNIVERSE

5.1 WHAT IS A PHOTON?

5.1.1 Sifting through photonic definitions

5.2 THE CONSEQUENCES OF QUANTIZATION?

5.3 FUNDAMENTAL NATURAL UNITS

5.3.1 Natural work

5.3.2 Natural Energy and Power

5.3.3 Natural Force

5.3.4 The value of using natural units

5.3.5 Summary of Natural Units

5.4 MEASURING PHOTONS

5.4.1 What happens in the photoelectric effect?

5.4.2 How does this affect how the word "photon" is used?

5.4.3 How big is a photon?

5.4.4 What is the shortest theoretical pulse?

5.4.5 How wide is a single photon?

5.4.6 The true nature of “photons.”

5.4.7 Diffraction

5.4.8 Inverse Square

5.4.9 Image formation

5.4.10 Interference

5.4.11 Intensity

5.5 USEFUL PROCESSES

5.5.1 The Principle of Repeated Similarities

5.5.2 Using mirrors in interferometers

5.5.3 Vector Summation

5.5.4 Where does this "interference" occur

5.6 EVIDENCE OF DETERMINISTIC BEHAVIOR

5.6.1 Zeroing in on the basic structure of light

5.7 EVIDENCE OF FEMTO INTERFERENCE

5.7.1 Energy Flow Algorithms

5.7.2 Quantum Interference

5.7.3 Quantum Limit

5.7.4 Linear resonant energy flow algorithms

5.7.5 Looking at field movement inside the photon

5.8 RESONANCE RESULTS THAT CONTROL THE UNIVERSE

5.8.1 Internal force relationships

5.8.2 Subquantum activity

Chapter 6

LIGHT ALGORITHMS

6.1 EARLY ENERGY FLOW MAPS

6.2 INSIDE ONE CYCLE OF THE "MYSTERIOUS" PROCESS OF INTERFERENCE

6.2.1 Not a conventional fringe

6.2.2 Hunting

6.2.3 The geometry of resonance

6.2.4 Self-modifying

6.2.5 Phase matching in constructive interference (CI)

6.2.6 Destructive interference

6.2.7 Quantum uncertainties

6.3 MAKING NEW LIGHT STRUCTURES

6.4 FEMTO INTERFERENCE AND VECTOR SUMMATION

6.5 SUMMING UP FEMTO INTERFERENCE

6.6 THREE DIMENSIONAL INTERFERENCE

6.7 BUILDING A WAVEFRONT, and the GENERATION OF DIFFRACTION

6.8 WHY PHOTONS ARE SO DIFFICULT TO UNDERSTAND IN WAVES

6.9 NON-INDEPENDENCE OF SEQUENTIAL FEMTO INTERFERENCE EVENTS

6.10 INDEX OF REFRACTION IN 4-SPACE

6.11 PARALLEL INFORMATION

6.12 THE BIAS FIELD

6.13 SUPERPOSITIONING OF SINGLE-CYCLE UNITS HAVING DIFFERENT WAVELENGTHS

6.14 GENERATING RADIO WAVES

6.15 FIELD STRUCTURE HETERODYNING

6.16 THE IMPORTANCE OF HETERODYNING TO THE RESONANT FIELD THEORY

6.17 COMPLEX INTERACTIONS INVOLVING DIFFERENT WAVELENGTHS

6.18 DOPPLER INTERACTIONS

6.19 THE "PARTICLE" NATURE OF DOPPLER EFFECT

6.20 QUANTUM DOPPLER INTERFERENCE

6.21 NON-QUANTUM INTERACTIONS

Chapter 7

FEMTO-FORCE RELATIONS

7.1 BUILDING THE UNIVERSE FROM THE BOTTOM UP

7.2 THE UNIVERSAL LAWS OF PHYSICS

7.3 SPACE

7.4 DIRECTIONALITY and GEOMETRY

7.5 FORCE

7.6 FIELDS

7.7 STRESS

7.8 VECTORS & TENSORS

7.9 CONSTANT SPEED

7.10 THEE SPEED

7.11 FIELD MOVEMENT

7.12 PROGRESSIVE SUPERPOSITIONING

7.13 SERVO RELATIONSHIP OF FORCES

7.14 FIELD MOVEMENT ENCOUNTERS NO RESISTANCE

7.15 ENERGY

7.16 DETERMINISM

7.17 RESONANCE

7.18 ENERGY TRAPPING

7.19 SELF-REORGANIZING

7.20 ENERGY FLOW ALGORITHMS

7.21 DISCRETE THINGS

7.22 SELF-MAINTAINING

7.23 TIMING

7.24 PERPETUAL and PERPETUALLY AVAILABLE

7.25 QUANTIZATION

7.26 LINEAR & SPHERICAL RESONANCE

7.27 STRUCTURAL INTERACTIONS and REACTIONS

7.28 RESONANCE IS THE NATURAL STATE OF DYNAMIC EQUILIBRIUM

7.29 ENERGY DIGITATION

7.30 NO ETHER

7.31 SUBQUANTUM MOTOR/GENERATOR INTERACTIONS

7.32 SUBQUANTUM QUANTUM

7.33 THE ANALOG WAY?

7.34 FUNDAMENTAL UNIVERSAL SUBSTANCE

Chapter 8

NONLINEAR RESONANT ALGORITHMS

8.1 ALGORITHMIC INTERACTIONS

8.2 RESONANT CIRCULAR FORCE STRUCTURES

8.3 SERVO STABILIZATION

8.4 INTERACTING WITH OTHER FIELD SYSTEMS

8.5 EMISSIONS

8.6 EVIDENCE OF ALGORITHMIC BEHAVIOR

8.7 PERVASIVENESS OF ALGORITHMIC INTERACTION

8.8 MULTIPLE STABLE STATES

8.9 "SPONTANEOUS" EMISSION

8.10 TIMED EVENTS

8.11 PROGRAMMED INTERACTION

8.12 GEODESIC RESONANT FORCE FIELD STRUCTURES

8.13 HOLDING STILL

8.14 BINDING FORCES WITHIN CONCENTRIC SHELLS

8.15 TRANSPARENCY AND INDEX OF REFRACTION

8.16 SHELL STABILIZATION

8.17 CENTER OF GRAVITY

8.18 De BROGLIE WAVES IN THE SAME SPACE-TIME

8.19 RESONANT FEMTO INTERFERENCE, NOT GRAVITY, HOLDS ATOMS TOGETHER

8.20 NO DIRECT WARP SPEED

8.21 ABSORPTION

8.22 HEATING

8.23 INTERACTIONS BETWEEN LIGHT AND MATTER

8.23.1 Information loss

8.23.2 Capture range, complex bias and the precision of subquantum interactions

8.23.3 Multiple wavelength absorption

8.23.4 Reflection

8.23.5 Refraction and transparency

8.23.6 Index of Refraction

8.23.7 Chromatic dispersion

8.23.8 Different Elements

8.23.9 Polarization

8.23.10 Birefringence

8.24 ENCOUNTERS WITH OTHER CIRCULATING FORCE STRUCTURES

8.24.1 Elastic collisions

8.24.2 Compressive and tensile stress, Hook and Newton's laws

8.24.3 Bonding

8.25 De BROGLIE WAVES IN FUNDAMENTAL PARTICLES AND ATOMS

8.25.1 de Broglie

8.26 SUPERPOSITIONING de BROGLIE WAVES

8.26.1 Energy content

8.27 ELECTRONS AND ELECTRON SHELLS

8.28 MECHANICAL ENERGY

Chapter 9

GOING NUCLEAR

9.1 NUCLEAR RESONANCE

9.2 NUCLEONS

9.2.1 Fusion

9.2.2 Fission

9.3 ELECTROSTATIC FORCE, WEAK NUCLEAR FORCE,and the STRONG NUCLEAR FORCE.

9.4 NUCLEAR "PARTICLES" or NUCLEAR MAPS?

9.5 NUCLEAR BINDING ENERGY

9.6 NUCLEAR ONION or CRYSTAL?

9.7 WEAK and STRONG TOGETHER?

Chapter 10

PROJECTED RESONANT STRUCTURES

10.1 MAGNETOELECTRIC INTERACTION

10.1.1 Real waves

10.1.2 Coulomb's Law

10.2 MAGNETIC POLARITY

10.3 STATIC ELECTRIC FIELDS

10.3.1 Both projected field types

10.3.2 Quantization by its pieces and parts

10.3.3 Re-resonation causes femto field generation.

10.4 SUBQUANTUM EXCHANGES

10.5 WHY WE KNOW PROJECTED FIELDS FLOW, HAVE GEOMETRY, PHASE ETC.

10.6 COMPARISON TO ATOMIC STRUCTURE.

10.7 PROJECTING A FIELD THROUGH WAVELENGTH MATCHING

10.7.1 Finite fields

10.7.2 Field strength

10.7.3 Field concentration

Chapter 11

STRUCTURAL INTERACTIONS

11.1 ELECTRIC CURRENTS

11.2 IONIZATION

11.3 CURRENT FLOW

11.4 THE ELECTRODYNAMICS of HEAT and HEAT FLOW

11.4.1 Cold atoms

11.4.2 Warm atoms

11.4.3 Hot atoms

11.4.4 Gasses

11.4.5 Liquids and solids

11.5 MOLECULAR BONDING

11.6 EVAPORATION, CONDENSATION, MELTING and SOLIDIFICATION

11.6.1 Solidification

11.6.2 Evaporation

11.6.3 Condensation

11.7 EXPANSION and CONTRACTION

11.8 MOLECULAR UNBONDING

11.9 CHEMISTRY

11.10 CONDUCTORS, SEMICONDUCTORS, INSULATORS

11.11 WIRE SHELLS

11.12 ELECTROLYTES

11.13 SUPERCONDUCTIVITY

11.14 ELECTRONS - THE PARTICLE

11.15 EVIDENCE OF ALGORITHMIC FLOW

11.16 ELECTRICITY WITHOUT ELECTRONS

11.17 HOLES AND "FREE" ELECTRONS

11.18 ALGORITHMIC ELECTRICITY

11.19 WHAT IS ELECTRICITY REALLY?

Chapter 12

QUANTUM QUESTIONS

12.1 FINDING ORDER IN UNCERTAINTY

12.2 PSEUDO RANDOMNESS OF NATURE

12.3 DETERMINISTIC BEHAVIOR

12.4 SUBQUANTUM FIELDS IN COMPOSITE FIELD STRUCTURES

12.5 COPING WITH UNCERTAINTY

12.6 MEASUREMENTS BELOW THE QUANTUM LIMIT

12.7 FINDING A PARTICLE'S LOCATION

12.8 FINDING A PARTICLE'S MOMENTUM

12.9 QUANTUM ABSORPTION

12.10 ONE ACT OF MEASURING

12.11 QUANTUM EXPERIMENTS

12.11.1 Problem 1: the definition of the “photon” itself.

12.11.2 Problem 2: antiquated theories of interference.

12.11.3 Problem 3: Copenhagen confusion.

12.11.4 Problem 4: is interference a measurement, or does “measurement” require absorption?

12.11.5 Problem 5: does analysis equal reality?

12.11.6 Problem 6: Fourier’s method, analysis or reality?

12.11.7 Problem 7: image accumulation.

12.11.8 Problem 8: photons are not indivisible!

12.11.9 Problem 9: spherical waves.

12.11.10 Problem 10: multiple cycle oscillators.

12.11.11 Problem 11: adjusting the apparatus.

12.11.12 Problem 12: multiple frequency entities.

12.11.13 Problem 13: energy pumping between resonant systems.

12.11.14 Problem 14: superposition violations.

12.11.15 Problem 15: superpositioning with itself?

12.11.16 Problem 16: ambiguous meanings.

12.11.17 Problem 17: quantization forces two entities to exist.

12.11.18 Problem 18: one path or the other... or both at the same time?

12.11.19 Problem 19: phase.

12.11.20 Problem 20: relying on statistics.

12.11.21 Problem 21: amplitude splitting apparatus.

12.11.22 Problem 22: wavefront splitting apparatus.

12.11.23 Problem 23: complexity of the experiment.

12.11.24 Problem 24: recognizing femto interference.

12.11.25 Problem 25: wide wavefronts.

12.11.26 Problem 26: subwavelength apertures.

12.11.27 Problem 27: diffraction.

12.11.28 Problem 28: billiard ball thinking.

12.11.29 Problem 29: interactions of wave packets with the full field systems of the optics.

12.11.30 Problem 30: random behavior produces random results.

12.11.31 Problem 31: other interactions with matter.

12.11.32 Problem 32: choosing a detector.

12.11.33 Problem 33: probability and the quantum limit.

12.11.34 Problem 34:Feynman’s quantum questions.

12.11.35 Problem 35: half-plancks?

12.11.36 Experimental Conclusions.

12.12 SCHRÖDINGER’S CAT

12.13 UNCERTAINTY ABOUT UNCERTAINTY

12.14 HEISENBERG VS FM RADIO

12.15 EXPERIMENTAL PROOF OF SUBQUANTUM CERTAINTY

12.16 DO IT YOURSELF EXPERIMENT

12.17 THE QUANTUM QUANDARY

Chapter 13

GRAVITY

13.1 GRAVITY FROM A NEW PERSPECTIVE

13.2 ELECTRIC AND MAGNETIC FIELDS COMPARED WITH GRAVITY

13.3 SUBQUANTUM INTERACTIONS

13.4 HOW DOES GRAVITY ACT ON MATTER?

13.5 INERTIAL MASS VS GRAVITATIONAL MASS

13.6 WHAT IS INERTIA?

13.7 TEN FACTORS ENTER INTO ANY INTER-STRUCTURAL REACTION

13.8 HOW THINGS MOVE OR DON’T MOVE

13.9 HOW INERTIA IS GENERATED UPON ACCELERATION

13.10 ACCUMULATED VELOCITY DISTORTION

13.11 WHY IS IT THAT THINGS ACCELERATED TO NEAR THE SPEED OF LIGHT GAIN MASS?

13.12 WHY SOME THINGS HAVE MORE MASS THAN OTHERS

13.13 INERTIA AND THE SPEED OF SOUND

13.14 REST MASS

13.15 THE LOCAL REFERENCE FRAME IS ITS CENTER OF GRAVITY

13.16 POLARIZATION OF GRAVITY

13.17 BY WHAT PROCESS IS GRAVITY GENERATED?

13.18 WHY GRAVITY ACCELERATES

13.18.1 Strength Differences

13.18.2 The bias and a single femto interference event

13.18.3 Acceleration of light

13.19 GRAVITY'S AFFECT ON POLARIZATION

13.20 HOW TINY IS A SUBQUANTUM QUANTUM?

13.21 HOW BIG IS GRAVITY'S De BROGLIE WAVELENGTH?

13.21.1 Gravity's effect on spherical resonant structures

13.21.2 Gravitational sequencing differences

13.21.3 The effect of geometry

13.21.4 Re-resonation

13.21.5 Gravitational distortion

13.21.6 Stress

13.21.7 Tides

13.21.8 Action at a distance, the G-field differential

13.22 WHY WE ONLY OBSERVE ATTRACTING GRAVITY

13.23 PRINCIPLE OF EQUIVALENCE

13.24 ACCUMULATIONS OF GRAVITY

13.25 GRAVITATIONAL POTENTIAL ENERGY

13.26 INFLUENCE VOLUMES

13.27 WHY GRAVITY IS THE WEAKEST OF THE FOUR FORCES

13.28 ORBITS

13.29 MEASURING GRAVITY THROUGH ORBITAL EQUALIZATION

13.30 EVEN LIGHT IS IN ORBIT!

13.31 WARPED SPACE-TIME 13.32 UNIVERSAL GRAVITATIONAL STRUCTURE

13.33 GRAVITY AS A RESONANT STRUCTURE

13.34 IS SPACE FINITE?

13.35 GRAVITATIONAL PHASE

13.36 WAVES WITHIN DE BROGLIE WAVES

13.37 ANTIGRAVITY

13.38 CONCENTRATED ANTIGRAVITY

13.39 THE ANTIGRAVITY MACHINE

13.40 THE DOWN SIDE OF LEVITATION

13.41 GRAND UNIFICATION

Chapter 14

RELATIVELY SIMPLE

14.1 RELATIVELY IMPORTANT QUESTIONS

14.2 SPACE SHIP CLOCK PARADOX

14.3 THE UNCONVENTIONAL CONSTANT DISTANCE/TIME REFERENCE FRAME

14.4 WHY THE SPEED OF LIGHT ALWAYS "MEASURES" THE SAME

14.5 WHY RELATIVITY WORKS

14.6 THAT HIGH SPEED SPACESHIP AND ITS CLOCK

14.7 THE MECHANISM OF RELATIVITY

14.8 DIRECTIONAL INDEPENDENCE

14.9 AVERAGE OR APPARENT WAVELENGTH

14.10 TIME AND DISTANCE DILATION

14.11 FIGURING OUT ENERGY

14.12 E=mc2 FROM THE RESONANT FIELD THEORY PERSPECTIVE

14.13 QUANTUM AND SUBQUANTUM ENERGY

14.14 ALGORITHMIC MAPPING

14.15 WHAT ABOUT WARP SPEED

14.16 RELATIVITY & THE RESONANT FIELD THEORY

Chapter 15

GETTING A BIG BANG OUT OF BLACK HOLES

15.1 THE NEED FOR A NEW THEORY

15.2 A BRIEF VIEW OF THE INVISIBLE

15.3 SOME THINGS THAT HAVE BEEN SAID ABOUT BLACK HOLES

15.4 BLACK HOLES, NEUTRON STARS AND OTHER SUPER STRUCTURES

15.4.1 Gravitational structure mapping

15.4.2 Super structural shape

15.5 FLOW ALGORITHMS IN SUPER STRUCTURES

15.5.1 Gravitational node comparison.

15.6 WAVELENGTHS OF A BLACK HOLE

15.7 WHAT HAPPENS AT THE EVENT HORIZON

15.8 INSIDE THE HOLE

15.9 STRANGE THINGS THAT DON'T HAPPEN

15.10 QUANTIZATION of ANALOG RELATIONS

15.11 BLACK HOLE EMISSIONS

15.12 GRAVITATIONAL ENERGY

15.13 WHY DO BLACK HOLES HAVE SUCH STRONG GRAVITY

15.14 SINGULARITY

15.15 BIG BANG

15.16 EINSTEIN and HEISENBERG... UPDATE

Chapter 16

UNTANGLING STRING THEORY

16.1 TRACING A PATH THROUGH COMPLEXITY

16.2 STRING THEORY

16.3 PLAGUING PROBLEMS

16.4 WHAT, THEN ARE STRINGS?

16.5 WHY IS STRING THEORY SO HARD TO UNDERSTAND?

16.6 THE HEISENBERG HASSLE

16.7 THE GRAVITY OF GRAVITY

Chapter 17

LOGICAL CONCLUSIONS

17.1 RANDOMNESS, PSEUDO RANDOMNESS, CHAOS, DETERMINISM AND ORDER

17.2 ORGANIZATIONAL AND CHAOTIC COMPLEXITY

17.3 FORCED LIMITS ON THE SECOND LAW OF THERMODYNAMICS

17.4 FORCED LIMITS ON COMPLEXITY

17.5 NULL UNIVERSE

17.6 THE ZERO ENERGY UNIVERSE

17.7 THE NON-SYSTEM-SUPPORTED UNIVERSE

17.7.1 Limits established by the natural configurations of resonance

17.7.2 Molecular limits

17.7.3 Engineering structural limits

17.7.4 Thermodynamic limits

17.7.5 Chemical limits

17.7.6 Limits on interactive functions

17.7.7 Limits imposed by the need for diverse components to be assembled

17.7.8 The non-system-supported universe

17.8 PROGRAMMED SUPPORT SYSTEMS

17.9 PROGRAMMED CONTINUAL SELF-EXISTENCE

17.10 PROGRAMMED SERVO MECHANISMS

17.11 SELF-CONSTRUCTING SYSTEMS

17.12 PARALLEL PROGRAMMED PLATEAUS

17.13 TOOLS OF THE TRADE

17.14 THE ROLE OF DETERMINISM IN PROGRAMMED MECHANISMS

17.15 INTELLIGENCE

17.16 MAN MADE PROGRAMABLES

17.17 HISTORICAL SIGNIFICANCE

17.18 UNSUBSTANTIATED EXTRAPOLATIONS

17.19 LOGICAL CONCLUSIONS

Chapter 18

NEW DIRECTIONS

18.1 FROM NEWTON TO NOW

18.2 EVERYTHING MADE SIMPLE

18.3 ORCHESTRATED ORDER

18.4 FUTURE RESEARCH

18.5 A BETTER WORLD ?

REFERENCES

SHORT GLOSSARY

NOTES

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