Page Content (OCR)
transformation rate. The density of time is not linear but discontinu- ous, thus fractal, and implies that events are more or less present in quantities of time defined by convention. In other words, in a density of time D, there is less information than in a density D+1. Density can be represented by a graphic axis describ- ing the transition from one density to another. The keyword is velocity or rate (of transformation). It is a quantity of time units during an exchange of information or in motion and can also be interpreted as the possible (or potential) amount of information or the number of movements per conventional time unit (second). Time unit: temporal quantum (Qt). We need to understand that in one second there is a variable quan- tity of time units. The higher the time density, the greater the number of time quanta. All time densities pass at the same time (the example of the hourglass), both in the past and the future, but on different spatial scales. The more temporal density there is, the farther we go into the ae. THE PRESENT OF TIME: alignment of temporal quanta in the har- monic frequencies. The fluctuation of the present is connected to the Temporal density —<_iZ Y partial adjacent large temporal superposition time quanta = interva = =temporal — fuzzy causality strict freedom causality Figure 55 2 food adjacent strict = temporal freedom Absolute relativity, or the end of the quest 209 past and future. Temporal density superposition time quanta = fuzzy causality causality