The nature of physical singularity before and during the Big Bang

The Big Bang Theory is the leading explanation for how the universe begins and emerges from an infinitely dense, small, and physically paradoxical singularity.

A plant from the fourth level of Vsetzialoto that sprouts. Photo by the author.

The earliest phases of the Big Bang are subject to much speculation. In the most common models, the universe is homogeneous and isotropic with a very high energy density and huge temperatures and pressures and was very rapidly expanding and cooling.

Neither general relativity nor quantum mechanics can currently describe the earliest moments of the Big Bang, but in general, quantum mechanics does not permit particles to inhabit a space smaller than their wavelengths.

Beginning

The transition period of our solar system the dusk, which was before the new 36 242 solar annual cycles, began on December 21, 2012. Beginning, or the moment when the constellation of male and female gametes will form a constellation zygote, is expected to be around 2220.

At the sixth level of Vsetzialoto, the transitional period the dusk began with the beginning of Kali Yuga, at midnight on 17/18 February 3102 BC. Beginning begins when galactic male and female gamete formed a galactic zygote in one of the colors of the Galactic plant is defined as 0 year AC.

In defining the new physical concept of Beginning, which is different from what has been the Big Bang, end the consequences have to be rethought.

The expansion of Vsetzialoto

The expansion of the universe can be seen as an expansion of space-time and practically no objects in space move.

Cosmologists observed the growth of Constellations, Galactic and Mega plants inside because our planet is a certain part of these plants. They also observe the growth of surrounding Galactic plants as well as the expansion of the male gametes of the Mega plant, the latter including all known galaxies. At the same time, the microbiologist examines the processes of expansion in the internal levels of Vsetzialoto.

Indeed, the space occupied by a plant increases with time. As determined by dark energy — the plant grows depending on the breath of Vsetzialoto. As each new plant grows, its parts increase and grow as cells divide depending on the activity of biological processes.

Each plant is created by the first male gamete, which is defined as the root cause of the creation of the first zygote from which this plant originates and it remains to exist in it and the next cycle. A first male gamete can pass through many consecutive circles in different plants of the same species. This transition of the male gamete from one plant to another plant answers the question: How is it possible for matter to exist older than the age of the universe?

Part of page 77r of the most mysterious book “Voynich manuscript”. In all likelihood, there is illustrated a second female gamete in the plant. The book is in the library of Yale University.

Age of the universe

The age of the universe is now defined as the elapsed time since the Big Bang to 13.799 ± 0.021 billion years. Now it will determine the elapsed time from the Beginning until now.

One day of Brahma is 1000 Maha Yugi. It has a duration of 4.32 billion years. One day and one night last 8.64 billion years.

In the course of 13.8 billion years, about 3 194 Maha Yugas pass.

From the above, it is concluded that: Big Bang happens on the seventh level by Vsetzialoto. This is the moment when the first growth of a Mega plant, whose age is now 3194 Maha Yugi or just over two days and one night of Brahma, begins.

The Beginning is determined by the time of pollination of a plant. The germinal period required to grow the zygote of the Mega plant to form the multicellular embryo of the new Mega plant has not been taken into account by cosmologists.

This period lasts about one night of Brahma or 1000 Maha Yugas. It is thus found that: The Beginning of the Mega plant, now defined by cosmologists as the universe, was about 4194.4 Maha Yugi and happened about 18.12 (18.119 (9)) billion years ago.

Supernova

Supernovae may expel much, if not all, of the material away from a star at velocities up to 30 000 km/s or 10% of the speed of light. This drives an expanding and fast-moving shock wave into the surrounding interstellar medium, and in turn, sweeping up an expanding shell of gas and dust, which is observed as a supernova remnant.

Supernovae play a significant role in enriching the interstellar medium with the heavier atomic mass chemical elements. Furthermore, the expanding shock waves from supernovae can trigger the formation of new stars.

Theoretical studies show that most supernovae are triggered by one of two major mechanisms: the sudden re-ignition of nuclear fusion into a degenerate star or the sudden gravitational disintegration of the nucleus of a massive star.

It is supposed that the “mechanism” that uses every plant from the fourth to the sixth level plant from Vsetzialoto to grow and provide it with the necessary matter and energy, is by creating the necessary conditions for the emergence of supernovae.

Each level of Vsetzialoto has its own time for circling, as well as its specific mechanism for the emergence of supernovae.

There are several types of supernovae known in the universe. I believe that each type of supernova has its “specific purpose” for the growth of a particular plant. It is assumed that one type of supernova erupts when the stem of the plant grows, and another type of supernova erupts when the leaf of the plant grows.

Different types of combinations of the order of bursting of the supernova stars shape the different plant forms.

The number of supernovae stars that occur in a plant changes with time, depending on the moment of its development.

Photosynthesis of plants of the fourth level of Vsetzialoto. Photo by the author.

Biologists have found that, through photosynthesis, plants produce organic matter.

Photosynthesis is a biological process in which carbon dioxide is converted into organic compounds by sunlight. In the most common embodiment of the process, water is involved, saccharides are synthesized and oxygen is released as a residual. The main mechanism for capturing light energy is due to the chlorophyll pigment. Chlorophyll is the molecule that traps this ‘most elusive of all powers’ — and is called a photoreceptor. It is found in the chloroplasts of green plants and is what makes green plants, green.

Photosynthetic organisms are photoautotrophs, which means that they can synthesize food directly from carbon dioxide and water using energy from light.

According to biologists, in its growth, the plant performs two contradictory actions at the same time: it absorbs the necessary chemical compounds, chemical elements, and water through its roots and leaves, and absorbs photons from the light, and, on the other, through the nectarine and the stem, releases excess chemical elements that reach to its roots and remain in the soil. Thus, through photosynthesis, plants provide the necessary matter and energy for growth.

Similarly, supernova stars have the same effect in the universe, producing on the one hand matter and energy, and on the other hand “excess” matter passing through the black hole. How far this the “excess” matter reaches not been established.

The process of creating physical singularity before and during the Big Bang

Dark matter in this case is the embryo before it breaks out of its seed. At this time the embryo is invisible. Dark energy is the breathing of Vsetzialoto, which determines the time of the transition and “creates” circumstances for it between night and day on the seventh level of Vsetzialoto.

The pattern of development of the first and second zygotes from their formation to the appearance of the plant illustrated together with the processes of development of the universe before and during the Big Bang is shown in Fig. 1.

Fig. 1 A model for the development of the first and second azygos together with the processes of the universe’s development before and during the Big Bang.

The dusk is the last fourth part of the plant cycle. It starts with the approach of male gametes 1 and 2 towards female gametes 1 and 2.

The beginning of the night is the Beginning of a new cycle. It manifests with the formation of zygote 1. Biologists have found that zygote 1 begins to grow and divide, and zygote 2 forms endosperm. In the universe, the zygote 1 grows, itself providing with matter and energy through two forms the explosions. I believe that zygote 2 is an active galactic nucleus formed in the two types of implosions.

The beginning of dawn has an implosion formed by the endosperm. Then the seed coat is broken and the embryo passes through it.

The dawn ends when the embryo shows up from the ground and the first supernova explosion seen by astronomers is defined as the Big Bang. This moment is the beginning of the day and its occurrence depends on the breathing of the Vsetzialoto.

The nature of the physical singularity before the Big Bang is the embryo of a Mega plant. The nature of physical singularity during the Big Bang is a germinating Mega plant. Their nature is described with the help of the Model of Unity.

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Researcher. I love the unknown. I’m looking for answers to fundamental physical questions.