|
Chapter Summary | PART 0101 - KICKSTARTER0101-01: That each type of elementary fermion consists of a minimum of two quants.
PART 0102 - QUANT PROPERTIES0102-01: That every quant has these properties: mass, spin, and rejectivity.
0102-02: That every quant has the same measure of mass.
0102-03: That every quant's spinrate is measured in revolutions per time period.
0102-04:
That every quant occupies the whole of its place in space and
time and therefore has the height, width, depth, and duration of that
place in space and time.
0102-05: That every quant has the same dimensions.
0102-06: That every quant is a sphere.
0102-07: That every quant has a centre and a surface.
PART 0103 - ENERGY0103-01:
That every quant attracts every other quant in the Universe at a
rate proportional to the product of their masses and inversely
proportional to the square of the distance between them.
0103-02: That the gravitypull of every quant is equally strong at every point on its surface.
0103-03: That the effects of gravity are apparent in quantpairs but not in isolated quants.
0103-04: That every quantpair has energy which is the movement of its quants due to their mutual gravitypull.
0103-05: That every quantpair has energy as kineticenergy or potentialenergy or as a mix of both.
0103-06: That energy is a conserved property.
PART 0104 - SPINSPEED0104-01: That every quant has measures of spin, speed, and spinspeed.
0104-02: That the speed of a quant can be as realspeed, potentialspeed, and totalspeed.
0104-03: That spinspeed is a conserved property.
0104-04: That every quant has a measure of spin which is the latentenergy of a quantpair.
PART 0105 - SPACE0105-01: That the Universe consists of space and quants.
0105-02: That space has no properties independent of the quants within it.
0105-03: That space has property measures which are the sum of the property measures of its quants and quantpairs.
0105-04: That the dimensions of the Universe can be measured by reference to the quants within it.
PART 0106 - TIME0106-01:
That every quant is subject to the passage of time but the
passage of that time can only be measured by reference to events.
0106-02: That events taking place within the Universe enable the passage of time for the Universe to be measured. PHYSICS SELFPROOFSSelfproof 0100: Physics Selfproofs - Home
Selfproof 0101: Elementary Particles
Selfproof 0102: Elementary Fermions
Selfproof 0103: Elementary Bosons
Selfproof 0104: Mass
Selfproof 0105: Gravity
Selfproof 0106: Rotation
Selfproof 0107: Electric Charge
Selfproof 0108: Pauli Exclusion Principle
Selfproof 0109: Rejectivity
Selfproof 0110: Energy
Selfproof 0111: Speed
Selfproof 0112: Mass-Energy Equivalence
Selfproof 0113: Inertial Mass/Gravitational Mass Equivalence
Selfproof 0114: Space
Selfproof 0115: Time
Selfproof 0116: Spacetime
Selfproof 0117: Space Curvature
Selfproof 0118: Time Dilation
Selfproof 0119: Gravitational Waves
Selfproof 0120: Religion
Selfproof 0121: String Theory
Selfproof 0122: Quants
Selfproof 0123: Quantum Gravity
Selfproof 0124: Quants, Mass, and Galileo
|
|
|