The question of cosmology in science goes beyond the contemporary version of cosmology as a reference to the “Big Bang”. Even with the precise dating of the Big Bang the contemporary person is left adrift as an informed spectator in an enormous impersonal universe of unheard of spaces and power. The capacity for abstract mathematics and computation to form images of the birth of the universe in this way is unprecedented. However, the human doesn’t seem to fit into it in any significant way. We are watching from an elegantly constructed loge in the opera house of the universe while the actual play goes on somewhere distant from our home planet. We could ask is the way that we are using mathematics leading to a spiritual crisis? In an autobiographical work My Philosophical Development, Bertrand Russell came to a startling confession that he found that all mathematics is tautology. A tautology is a circular statement such as a four-legged animal is an animal.

1 Bertrand Russell

After a lifetime of pursuing the philosophy of science and mathematics this scholar came to the conclusion that self consistent mathematical schemes that tell everything that can be observed will always be able to give the correct number of legs that come into view when we observe something that is called animal but it tells us nothing of the why of an animal. To modern mathematicians who seek solutions through abstract techniques the task of mathematics is complete, once a what or how question is answered. The question of why is not the realm of mathematics because it implies some framework that is not impersonal. The answer to tje question why is not available to computation. The closer the researcher comes to the 49.9 /50.1 relationship on any question the more room there is for moral error of the highest degree. Russell concluded that once a mathematical scheme has sescribed the number of legs, then the job as a mathematical physicist is complete.

The contention of this article is that the computational mode of mathematics that is the mainstay of modern science is extremely adept at numbering and weighing things but creates a boundary between humans and the deeper cosmological truths that lie just beyond the reach of arithmetic or abstract (binary) methods of studying phenomena. The idea is that there exists a kind of cosmological abyss in the methods of science that makes it easy to provide data regarding the changing climate and difficult to provide a bridge between human destiny and the destiny of the earth as a cosmic, ensouled being. As an example of this abyss my computer has just informed me as I typed the word ensouled that there is no such word in the dictionary. The Encarta world dictionary offers that ensouling is: to keep deep within or to cherish deeply something such as a feeling or memory. In another age this would be an obvious description of the soul of the earth that possesses the capacity of a living entity to experience a consciousness of its own life.

This is the traditional characterization of an ensouled being. It comes from a time when a priest, a scientist and a doctor were all within the same person, the shaman. At that time the world was filled with soul and all beings in it participated in the world soul. The human being also was a part of that cosmology. This relationship gave rise to the mythos that allowed cultures to be built in which people could not only make a living on the earth but strive to become a better person as part of a greater plan of the creator.

2 an ellipse geometrically projected to the infinite plane

Cultures that value this more symbolic and metaphysical approach to life are often the same cultures that prefer the more symbolic and cosmological mathematics based on geometry. The weighing and numbering of contemporary science moves the consciousness of the researcher into abstract computation and away from the possibility that the soul of the earth is somehow entwined with the destinies of the humans that live there. We could ask is there some kind of scientific approach that could enable a researcher to approach the earth as a cosmological reality? One answer could be that the geometric discipline of what is known as projective or synthetic geometry is used to explore infinitudes in a rational way. The image shows an ellipse that is linked through tangent planes to the infinitely distant plane. This is a fundamental form in projective geometry. The laws of this archetypal geometry while being mathematical can also provide cosmological laws for the researcher to ponder. These laws can also be more effectively extrapolated into the spaces around the earth than the physical earthbound projections so commonplace today. A physical scientist might ask why it is necessary to go into the extraterrestrial spaces to try to establish a working model for climate? Isn’t climate simply a physical phenomenon that follows explicitly physical laws?

3 eclipse projection grid

In answer to that, the following articles will present the reader numerous case studies to illustrate another way of studying climate using the patterns of rhythmic counterpoints created by motion in arc events that are projected geometrically onto a field grid of potentials. The grid in image 3 is generated by a geometric projection of eclipse positions. The grid allows for a much more fluid modeling protocol than is standard in climatology. These somewhat alien concepts will be brought into the realm of contemporary science as much as possible to illustrate that the pieces are already in place in science for a shift in consciousness. The idea is that a more cosmological viewpoint of the climate crisis needs to be taken that is not solely driven by the power of computer modeling. It is worth mentioning that the critics of the current climate crisis research often focus their criticism on the practice of extrapolating future events based on algorithms taken from present physical data. The decay of accuracy is so great for this common approach that the National Weather Service considers any forecast for over three to five days in advance has a probability of 50% accuracy. With the projective geometric approach the decay of the initial forecast is not so rapid. Regular accuracy of around 75% a year in advance is approachable with these geometries.

4 lunar perturbation diagram

The articles that follow will address three main areas where the more cosmological / geometric approach can be successfully applied to the task of building reliable modeling techniques for climate research. The first area of study will be to look at the realm of what are known as obscure influences in climate research. Obscure influences are anything that has to do with the influence of the sun or moon on weather and climate. The image shows the effect of the lunar orbit on the magnetotail of the earth. This is thought to generate geomagenetic storms at regular intervals linked to the lunar phases. In contemporary thought this makes it an obscure influence. Obscure influence is a bit of a derogatory term since most climate scientists believe that while the sun may provide the warmth that drives the weather and the moon has something to do with the tides, any weather influence beyond these most fundamental things is not in the realm of science but in the realm of old wives tales. The obscure influences article will present studies done in a rigorous way that point to much larger roles for the sun and the moon in the formation of weather events.

5 longitude equivalent diagram

The second article will advance a model for using projective geometric techniques to analyze field fluctuations of the atmosphere at the 500mb level over the whole northern hemisphere. This is known as geodetic equivalency. Geodetic equivalency allows for the building of a grid that is very useful for modeling past climate events on a hemispheric level. The image shows the geographical longitudinal coordinates superimposed upon a chart that also includes celestial longitude coordinates. The projection of the celestial longitudes onto the earth allows for a grid structure to be constructed that can be used very effectively for tracking the onset and duration of climate trends. The use of this geometrically projected grid allows for a time phenomenology to be built that is remarkably accurate when used for tracking shifts in weather patterns.

6 eclipse grid and jet curves

The third area of research is in the formation of a comprehensive approach towards a phenomenological science of climate where motion in arc events among planets can be empirically interfaced in real time case studies to show significant and robust relationships. The image shows an actual projection grid used by ClimaTrends researchers to track planetary motion in arc events. The influence of the motion in arc events is then interpreted into the standard climatology of the area in historically significant climate events. The use of the projection grid allows for relationships between rhythmic convergence events among planets to be analyzed and compared to unusual climate trends in the historic record. This time phenomenology provides the dynamic that allows for forecasts to be projected into the future with an unprecedented accuracy not found in other models.