The thirty-two (32) basic situations in a shift between two four-divisions
Based on the shift-values 0-6-8-6 (A-sequence).
The outcome of the calculations is indicated in the lower figure (when division lines coincide)
The division of the (upper) Large Part is given in Roman numerals with only one division line given. The Small Part (below) consist of the four compartments (four boxes).
A communication value (CF) can be calculated when division lines (of LP and SP) coincide.
If they don't, there can only be an estimation, based on the last and the next CF-values.
The important notion (in a quadralectic environment) is the 'value' of the individual compartments (of the two four-divisions), which is not a rank number, but a shift-value (CF).
The numbers 1 - 4 (1, 2, 3, 4) produce 24 different ways of ranking. If these 24 sequences are shifted within themselves only 2 (two) shift values are produced: 16 times 0-6-8-6 (A-sequence) and 8 times 0-8-4-8 (B-sequence).
See for the full theoretical procedure:
quadralectics.wordpress.com/7-the-quadralectic-theory/
The link with quantum mechanics is - in my view - the treatment of the relation between motion (shift) and location (the 'knot' of coinciding division lines, defined by certain values, which themselves are also generated in a shift/motion).
This latter feature (of measurement) requires a 'higher' division environment (of thinking) to provide the 'space' for a shift.
It is precise this new thinking-space which makes the efforts of the followers of Albert Einstein look pathetic - from Bohr to Schrödinger.
(The basic difference of the atom model is that the Bohr model tells us that electrons have fixed paths while the Schrödinger equation incorporates the 'Uncertainty principle'. So, unlike the Bohr model, it tells us about the region where the electrons are likely to be found).
The 'Uncertainty Principle' (of Heisenberg) states that an electron, or any other particle, can never have its exact position known, or even specified. Bad luck, but if we are able to escape the constraints of two-fold thinking, by entering the four-fold universe, a whole new world opens up.
Maybe the uncertainty principle can be thrown out of the window. The position and speed of a particle get a new meaning in a four-fold relation. Position and speed can be calculated by investigating the parameters of the observer and the observed. Their mutual relation should provide the data for a fixed figure.
The calculation (of a location) should not be performed in terms of probabilities. Forget about the waves! Rather use the Universal Communication Graph (UCG).
The CF-graph looks like a wave with its successive collection of sixteen line segments, but its meaning is completely different. Locations (positions) on the line(s) are not mere figures. The CF-value (the communication factor) carries a far greater load of information, including past, present and future and offer the solution of the measurement problem in the process.
The thirty-two (32) basic situations in a shift between two four-divisions
Based on the shift-values 0-6-8-6 (A-sequence).
The outcome of the calculations is indicated in the lower figure (when division lines coincide)
The division of the (upper) Large Part is given in Roman numerals with only one division line given. The Small Part (below) consist of the four compartments (four boxes).
A communication value (CF) can be calculated when division lines (of LP and SP) coincide.
If they don't, there can only be an estimation, based on the last and the next CF-values.
The important notion (in a quadralectic environment) is the 'value' of the individual compartments (of the two four-divisions), which is not a rank number, but a shift-value (CF).
The numbers 1 - 4 (1, 2, 3, 4) produce 24 different ways of ranking. If these 24 sequences are shifted within themselves only 2 (two) shift values are produced: 16 times 0-6-8-6 (A-sequence) and 8 times 0-8-4-8 (B-sequence).
See for the full theoretical procedure:
quadralectics.wordpress.com/7-the-quadralectic-theory/
The link with quantum mechanics is - in my view - the treatment of the relation between motion (shift) and location (the 'knot' of coinciding division lines, defined by certain values, which themselves are also generated in a shift/motion).
This latter feature (of measurement) requires a 'higher' division environment (of thinking) to provide the 'space' for a shift.
It is precise this new thinking-space which makes the efforts of the followers of Albert Einstein look pathetic - from Bohr to Schrödinger.
(The basic difference of the atom model is that the Bohr model tells us that electrons have fixed paths while the Schrödinger equation incorporates the 'Uncertainty principle'. So, unlike the Bohr model, it tells us about the region where the electrons are likely to be found).
The 'Uncertainty Principle' (of Heisenberg) states that an electron, or any other particle, can never have its exact position known, or even specified. Bad luck, but if we are able to escape the constraints of two-fold thinking, by entering the four-fold universe, a whole new world opens up.
Maybe the uncertainty principle can be thrown out of the window. The position and speed of a particle get a new meaning in a four-fold relation. Position and speed can be calculated by investigating the parameters of the observer and the observed. Their mutual relation should provide the data for a fixed figure.
The calculation (of a location) should not be performed in terms of probabilities. Forget about the waves! Rather use the Universal Communication Graph (UCG).
The CF-graph looks like a wave with its successive collection of sixteen line segments, but its meaning is completely different. Locations (positions) on the line(s) are not mere figures. The CF-value (the communication factor) carries a far greater load of information, including past, present and future and offer the solution of the measurement problem in the process.