From the Beginning of the World to the Beginning of Life on Earth

Hypersphere World-Universe Model (WUM) is, in fact, a Paradigm Shift in Cosmology [1]. In this paper, we provide seven Pillars of WUM: Medium of World; Inter-Connectivity of Primary Cosmological Parameters; Creation of Matter; Multicomponent Dark Matter; Macroobjects; Volcanic Rotational Fission; Dark Matter Reactors. We describe the evolution of the World from the Beginning up to the birth of the Solar System and discuss the condition of the Early Earth before the Beginning of life on It.


Introduction
Hypersphere World-Universe Model (WUM) was developed for the last 20 years and is, in fact, a Paradigm Shift in Cosmology [1]. The seven Pillars of WUM are as follows: Cosmology is a branch of Classical Physics. It should then be described by classical notions, which define emergent phenomena. By definition, an emergent phenomenon is a property that is a result of simple interactions that work cooperatively to create a more complex interaction. Physically, simple interactions occur at microscopic level, and the collective result can be observed at macroscopic level.

Medium of World
Physical Aether was suggested as early as the 17th century, by I. Newton. Following the work of T. Young (1804) and A. J. Fresnel (1816), it was believed that light propagates as a transverse wave within an elastic medium called Luminiferous Aether, which was abandoned in 1905. In later years there have been classical physicists who advocated the existence of Aether [2]: • N. Tesla declared in 1937: All attempts to explain the workings of the universe without recognizing the existence of the Aether and the indispensable function it plays in the phenomena are futile and destined to oblivion [3]; • P. Dirac stated in 1951 in an article "Is there an Aether?" that we are rather forced to have an Aether [4].
WUM introduces the Medium of the World, which consists of stable elementary particles with lifetimes longer than the age of the World: protons, electrons, photons, neutrinos, and Dark Matter Particles (DMPs).
The existence of the Medium is a principal point of WUM. It follows from the observations of Intergalactic Plasma; Cosmic Microwave Background Radiation; Far-Infrared Background Radiation. Inter-galactic voids discussed by astronomers are, in fact, examples of the Medium in its purest. Cosmic Microwave Background Radiation is part of the Medium; it then follows that the Medium is the absolute frame of reference. Relative to the Cosmic Microwave Background rest frame, the Milky Way galaxy and the Sun are moving with the speed of 552 and 370 −1 , respectively [5].
The energy density of the Medium is 2/3 of the total energy density of the World. Superclusters, Galaxies, Extrasolar systems, planets, moons, etc. are made of the same particles. The energy density of Macroobjects adds up to 1/3 of the total energy density of the World throughout the World's evolution [5]. Cosmological principal is valid for the Homogeneous and Isotropic Medium. The distribution of Macroobjects is Inhomogeneous and Anisotropic, and therefore, the Cosmological Principal is not viable for the entire World.
WUM is the classical model, therefore classical notions can be introduced only when the very first ensemble of particles was created at the cosmological time equals to: = −2 × 0 ≅ 10 −18 , where is the dimensionless Rydberg constant: = (2 ∞ ) 1/3 (that was later named "Fine-structure constant"); 0 is a basic unit of time: 0 = ⁄ = 5.9059662 × 10 −23 ; is a basic unit of size = 1.7705641 × 10 −14 ; and is a gravitodynamic constant. It is worth noting that the speed of light in vacuum, commonly denoted as c , is not related to the World in our Model, because there is no vacuum in it. Instead, there is the Medium of the World consisting of elementary particles. In WUM, the cosmological principal Universality of physical laws is valid at the cosmological times ≥ because they are determined by the Medium of the World.
In frames of WUM, Time and Space are closely connected with the Mediums' impedance (wave resistance) that equals to the Hubble's parameter : = = −1 and the gravitomagnetic parameter , which equals to: = −1 . It follows that neither Time nor Space could be discussed in absence of the Medium.
The gravitational parameter G that is proportional to the Mediums' energy density can be introduced only for the Medium filled with Matter. The Gravitation is a result of simple interactions of DMPs with Matter (by the introduced new Weak Interaction) that work cooperatively to create a more complex interaction. DMPs are responsible for Le Sage's mechanism of the gravitation. Gravity, Space and Time are all emergent phenomena [5]. In this regard, it is worth recalling Albert Einstein quote: "When forced to summarize the theory of relativity in one sentence: time and space and gravitation have no separate existence from matter".

Inter-Connectivity of Primary Cosmological Parameters
The constancy of the universe fundamental constants, including Newtonian constant of gravitation, is now commonly accepted, although has never been firmly established as a fact. • Muonic neutrino rest energy ; • Tauonic neutrino rest energy .
In frames of WUM, we calculate the values of these Primary Cosmological Parameters, which are in good agreement with the latest results of their measurements. For example: • (1) = 6.674184 × 10 −11 3 −1 −2 (11.64 ) (2) = 6.67484 × 10 −11 3 −1 −2 (11.61 ) • The calculated value of = 2.72518 in the present epoch is in excellent agreement with experimentally measured value of 2.72548 ± 0.00057 [9]. It is worth noting that at the Beginning of the Luminous Epoch (0.45 Gyr) the calculated value was = 6.4775 and at the Birth of the Solar System (9.65 Gyr) -= 3.0141 . Therefore, any Model describing creation of Macroobjects must hold true in cold World conditions; the existence of what they dubbed the "Creation field", or just the "C-field" [11]. P. Dirac in 1974 discussed a continuous creation of matter by an additive mechanism (uniformly throughout space) and a multiplicative mechanism (proportional to the amount of the existing matter) [12].
WUM follows the idea of the continuous creation of matter by the additive mechanism. To provide the creation of Matter by the Universe uniformly throughout the World, we consider the following Concept of the World proposed by G. Riemann in 1854 [13]: 3D Finite World is a Hypersphere of 4D Nucleus. In our view, the World was started by a Fluctuation in Eternal Universe, and 4D Nucleus of the World with a radius of was born. The Nucleus is expanding in Its fourth spatial dimension and Its surface, the Hypersphere, is likewise expanding. The radius of the Nucleus R is increasing with speed (gravitodynamic constant) for a cosmological time from the Beginning and equals to = . By definition, the gravitodynamic constant c is the ratio of the absolute gravitomagnetic unit of charge 0 to the absolute gravitostatic unit of charge 0 / , where 0 is the basic unit of energy: 0 = ℎ ⁄ ( ℎ is the Planck constant). The surface of the Nucleus is created in a process analogous to sublimation. Continuous creation of matter is the result of this process. Sublimation is a well-known endothermic process that happens when surfaces are intrinsically more energetically favorable than the bulk of a material, and hence there is a driving force for surfaces to be created.
Dark Matter (DM) is created by the Universe in the 4D Nucleus of the World. DMPs carry new DM into the 3D Hypersphere World. Ordinary Matter is a byproduct of DMPs self-annihilation. Consequently, a Matter-Antimatter asymmetry problem discussed in literature does not arise (since antimatter does not get created by DMPs self-annihilation). By analogy with 3D ball, which has 2Dspherical surface (that has surface energy), we can imagine that the 3D Hypersphere World has a "Surface Energy" of the 4D Nucleus.
The proposed 4D process is responsible for the Expansion, Creation of Matter, and Arrow of Time. It constitutes the main Hypothesis of WUM. In our view, the arrow of the Cosmological Time does not depend on any physical phenomenon in the Medium of the World. It is the result of the Worlds' expansion due to the driving force for surfaces to be created [14]. It is important to emphasize that: • Creation of Matter is a direct consequence of expansion; • Creation of DM occurs homogeneously in all points of the 3D Finite Hypersphere World. We still do not have a direct confirmation of DMPs' rest energies, but we do have a number of indirect observations. The signatures of DMPs self-annihilation with expected rest energies of 1.3 TeV; 9.6 GeV; 70 MeV; 340 keV; 3.7 keV are found in spectra of the diffuse gamma-ray background and the emissions of various Macroobjects in the World. We connect observed gamma-ray spectra with the structure of Macroobjects (nuclei and shells composition). Self-annihilation of those DMPs can give rise to any combination of gamma-ray lines. Thus, the diversity of Very High Energy gamma-ray sources in the World has a clear explanation in WUM [16].

Multicomponent Dark Matter
In this regard, it is worth recalling a story about neutrinos: "The neutrino was postulated first by W. Pauli in 1930 to explain how beta decay could conserve energy, momentum, and angular momentum (spin). But we still don't know the values of neutrino masses ". Although we still cannot measure neutrinos' masses directly, no one doubts their existence.

Macroobjects
In WUM, Macrostructures of the World (Superclusters, Galaxies, Extrasolar systems) have Nuclei made up of DMFs, which are surrounded by Shells composed of DM and Baryonic Matter. The shells envelope one another, like a Russian doll. The lighter a particle, the greater the radius and the mass of its shell. Innermost shells are the smallest and are made up of heaviest particles; outer shells are larger and consist of lighter particles. Introduced principally new Weak Interaction of DMPs with Matter provides integrity of all shells: a distance between particles is smaller than the range of the weak interaction = 1.65314 × 10 −4 (see Section 7). Table 1  The calculated parameters of the shells show that [5]: • Nuclei made up of DMF1 and/or DMF2 compose Cores of stars in Extrasolar Systems; • Shells of DMF3 and/or Electron-Positron plasma around Nuclei made up of DMF1 and/or DMF2 make up Cores of Galaxies; • Nuclei made up of DMF1 and/or DMF2 surrounded by shells of DMF3 and DMF4 compose Cores of Superclusters.
According to WUM, Cores of Galaxies are DM Compact Objects made up of DMF1 and/or DMF2 with shell of DMF3 with the calculated maximum mass of 6 × 10 10 ʘ . This value is in good agreement with the experimentally obtained value of the most massive black hole ever found, with a mass of 6.6 × 10 10 ʘ at the center of TON 618 [17]. It is worth noting that there are no black holes in WUM.
Laniakea Supercluster (LSC) is a galaxy supercluster that is home to Milky Way (MW) and approximately 100,000 other nearby galaxies (see Figure 1). It is known as one of the largest superclusters with estimated binding mass 10 17 ʘ [18] (see Table 2). The neighboring superclusters to LSC are the Shapley Supercluster, Hercules Supercluster, Coma Supercluster, and Perseus-Pisces Supercluster. Distance from the Earth to the Centre of LSC is 250 , Redshift -0.0708 (center). Figure 1. Laniakea Supercluster. Adapted from [19].
We emphasize that about 100,000 nearby galaxies are moving around Centre of Laniakea Supercluster. They belong to LSC. All these galaxies did not start their movement from the "Initial Singularity". The neighboring superclusters have the same structure (see Figure 1 and Figure 2 in [1]). It means that the World is, in fact, a Multiworld consisting of ≳ 10 3 Superclusters (see Section 7). Big Bang never happened. ʘ . These have attracted little attention hitherto, and we are aware of no published constraints on a SLAB population in the range (10 12 − 10 18 ) ʘ . However, there is already evidence for black holes of up to nearly 10 11 ʘ in galactic nuclei [17], so it is conceivable that SLABs exist, and they may even have been seeded by primordial black holes" [21].
WUM. The calculated maximum mass of the supercluster DM Core of 2.1 × 10 19 solar mass (see Table 1) is in good agreement with the values estimated in [18] and discussed in [21]. In the future, these stupendously large compact objects can give rise new Luminous Superclusters as the result of their DM Cores' rotational fission. 13.77 billion years ago, the estimated number of DM Supercluster Cores in the World was around ~ 10 3 . It is unlikely that all of them gave birth to Luminous Superclusters at the same cosmological time being far away from each other. In our view, there were many "Beginnings" for different Luminous Superclusters (see Section 7).
In frames of WUM, Laniakea Supercluster emerged 13.77 billion years ago due to the Rotational Fission of Its overspinning DM Core and self-annihilation of DMPs (see Section 7). The Core was created during Dark Epoch when only Dark Matter Macroobjects existed [5]. The neighboring superclusters to LSC arise due to the Rotational Fission of their overspinning DM Cores and self-annihilation of DMPs, but in different times.
In our view, the World consists of Multiworlds, which originated by different overspinning DM Cores of Superclusters at different times. The distribution of Macroobjects in the World is not only spatially Inhomogeneous and Anisotropic, but temporally non-simultaneous. Cosmological principal is valid only for the Homogeneous and Isotropic Medium that arised 14.22 Gyr ago. We emphasize that Time, Space, Gravity, Physical Laws are all emergent phenomena, which depend on the characteristics of the Medium only!
The mass-to-light ratio of the Virgo Supercluster (VS) is about 300 times larger than that of the Solar ratio. Similar ratios are obtained for other superclusters [22]. In 1933, F. Zwicky investigated the velocity dispersion of Coma cluster and found a surprisingly high mass-to-light ratio (~500). He concluded: "If this would be confirmed, we would get the surprising result that dark matter is present in much greater amount than luminous matter " [23]. These ratios are one of the main arguments in favor of presence of large amounts of Dark Matter in the World.
Hubble tension is the disagreement in the values of the Hubble's constant 0 obtained by the various teams. It can be explained the following way: • All measurements of Hubble's constant are model-dependent; • Statistics of these measurements is not sufficient to yield reliable conclusions; • Hubble's law in Standard Cosmology is valid for the Big Bang model only when all galaxies start their movement from a single point named "Initial Singularity"; • Observations of Galaxies belonging to different Superclusters; • The experimental observations of galaxies in the universe show that most of them are disk galaxies [24].
It is well-known that when observing spiral galaxies, the side spinning toward us have a slight blueshift relative to the side spinning away from us. There is the meaning of a redshift of Centers of galaxies only; • In LSC, some galaxies are moving toward MW, and some are moving away (see Figure 1). We can only meaningfully discuss the redshift of the Centre of supercluster (0.0708).

Volcanic Rotational Fission
Lunar Origin Fission Hypothesis was proposed by G. Darwin in 1879 to explain the origin of Moon by fast spinning Earth, on which equatorial gravitative attraction was nearly overcome by centrifugal force [26].
Solar Fission Theory was proposed by L. Jacot in 1951 who stated that [27]: • The planets were expelled from the Sun one by one from the equatorial bulge caused by rotation; • One of these planets shattered to form the asteroid belt; • Moons and rings of planets were formed from the similar expulsion of material from their parent planets.
T. Van Flandern further extended this theory in 1993 [28]. He proposed that planets were expelled from the Sun in pairs at different times. Six original planets exploded to form the rest of the modern planets. It solves several problems the standard Nebular Hypothesis does not: • If planets fission from the Sun due to overspin while the proto-Sun is still accreting, this more easily explains how 98% of the Solar system's angular momentum ended up in the planets; • It solves the mystery of the dominance of prograde rotation for these original planets since they would have shared in the Sun's prograde rotation at the outset; • It also explains coplanar and circular orbits; • It is the only model that explains the twinning of planets (and moons) and difference of planet pairs because after each planet pair is formed in this way, it will be some time before the Sun and extended cloud reach another overspin condition.
The outstanding issues of the Solar fission are: • It is usually objected that tidal friction between a proto-planet and a gaseous parent, such as the proto-Sun, ought to be negligible because the gaseous parent can reshape itself so that any tidal bulge has no lag or lead, and therefore transfers no angular momentum to the proto-planet; • There would exist no energy source to allow for planetary explosions.
Neither L. Jacot nor T. Van Flandern proposed an origin for the Sun itself. It seems that they followed the standard Nebular hypothesis of the formation of the Sun. In WUM, we concentrated on furthering the Solar fission theory [29].
Angular Momentum Problem is one of the most critical problem in Standard Cosmology that must be solved. Standard Cosmology does not explain how Galaxies and Extrasolar systems obtained their enormous orbital angular momenta [30]: In our opinion, there is only one mechanism that can supply angular momenta to Macroobjects -Rotational Fission of overspinning (surface speed at equator exceeding escape velocity) Prime Objects. From the point of view of Fission model, the Prime Object is transferring some of its rotational angular momentum to orbital and rotational momenta of satellites. It follows that the rotational momentum of the prime object should exceed the orbital momentum of its satellite.
In frames of WUM, Prime Objects are Dark Matter (DM) Cores of Superclusters, which must accumulate tremendous rotational angular momenta before the Birth of the Luminous World. It means that it must be some long enough time in the history of the World, which we named "Dark Epoch" [5]. To be consistent with the Law of Conservation of Angular Momentum we developed a New Cosmology of the World: Weak Interaction. A widely discussed models for nonbaryonic DM are based on the Cold DM hypothesis, and corresponding particles are commonly assumed to be WIMPs, which interact via gravity and any other force (or forces), potentially not part of the standard model itself, which is as weak as or weaker than the weak nuclear force, but also non-vanishing in its strength [32]. It follows that a new weak force needs to exist, providing interaction between DMPs. The strength of this force exceeds that of gravity, and its range is considerably greater than that of the weak nuclear force [5].
According to WUM, strength of gravity is characterized by the gravitational parameter [1]: is an extrapolated value of G at the Beginning of the World (Q=1). The range of the gravity equals to the size of the World R : = × = 1.34558 × 10 26 In WUM, weak interaction is characterized by the parameter : which is about 30 orders of magnitude greater than G . The range of the weak interaction in the present Epoch equals to: = × 1/4 = 1.65314 × 10 −4 that is much greater than the range of the weak nuclear force. Calculated concentration of DMF4 4 in the largest shell of Superclusters: 4 ≅ 4.2 × 10 15 −3 shows that a distance between particles is around ~ 10 −5 , which is much smaller than . Thus, the introduced weak interaction of DMPs with Matter will provide integrity of all Shells. In our view, weak interaction between particles DMF3 provides integrity of Fermi Bubbles and Solar Corona [33]. . It follows that as the result of rotational fission of VS Core, approximately ~ 10 6 galaxies like MW could be generated at the same time. Considering that the number density of galaxies in the VS falls off with the square of the distance from its center and the location of MW on the outskirts of the VS [34], the actual number of created galaxies could be much larger.
Comparison of the SS orbital momentum = 1.1 × 10 56 with rotational momentum of MW galaxy DM Core 0.45 = 3.2 × 10 60 shows that approximately ~ 10 4 Extrasolar systems like SS could be created at the same time. Considering that MW has grown inside out (in the present Epoch, most old stars can be found in the middle, more recently formed ones on the outskirts [35]), the number of generated Extrasolar systems could be much larger. Extrasolar system DM Cores can give birth to planet DM cores, and they can generate DM cores of moons by the same Volcanic Rotational Fission mechanism.
The calculated value of the total mass of DM Macroobjects in Dark Epoch .45 before Rotational fission is: It is unlikely that all of them gave birth to Luminous Superclusters at the same cosmological time being far away from each other. In our view, there were many "Beginnings" for different Luminous Superclusters. It is worth noting that the absolute Age of the entire World is 14.22 Gyr. No one supercluster can be older than 14.22 Gyr.

Dark Matter Reactors
The following facts support the existence of Dark Matter Cores in Macroobjects [1]:  [40] and the average sidereal day on Venus in the 2006-2020 interval was 243.0226 ± 0.0013 Earth days [41]; • Plutonium-244 with half-life of 80.6 million years and Iron-60 with half-life of 2.6 million years are not produced in significant quantities by the nuclear fuel cycle, because it needs very high neutron flux environments [42]. Any Pu-244 and Iron-60 present in the Earth's crust should have decayed by now. Ocean crust [42]; • Giant planets like Jupiter are hundreds of degrees warmer than current temperature models predict.

Nevertheless
Saturn radiates 2.5 times more energy than it receives from the Sun; Uranus -1.1 times; Neptune -2.6 times. Many Icy Solar system bodies including Pluto possess subsurface oceans.
According to WUM: • The fact that Macroobject Cores rotate faster than surrounding envelopes, despite high viscosity of the internal medium, is intriguing. WUM explains this phenomenon through absorption of DMPs by Cores. Dark Matter Particles supply not only additional mass (∝ 3/2 ), but also additional angular momentum (∝ 2 ). Cores irradiate products of annihilation, which carry away excessive angular momentum. The Solar wind is the result of this mechanism [5]. • The 660-km boundary is a boundary between Earth's DM core and Upper mantle with Crust, which were produced by DM core during 4.57 billion years [31]; • Pu-244 and Iron-60 are produced within the Earth as the result of DMF1 particles self-annihilation. They arrive to the Crust of the Earth due to convection currents in the mantle carrying isotopes from the interior to the planet's surface [44]; • Random variations of the Earth's rotational speed on a daily basis can be explained by variations in an activity of the Earth's Dark Matter Reactor. As the result of DMPs self-annihilation, random mass ejections are happening. During a time of high DM Reactor activity, the Earth's rotational speed is lower (long days) due to increase of the Earth's moment of inertia. When random mass ejections are less frequent, the Earth's moment of inertia is decreasing, we observe short days. • The internal heating of all gravitationally-rounded objects of the Solar system is due to DMPs selfannihilation in their cores made up of DMF1 (1.3 TeV). The amount of energy produced due to this process is sufficiently high to heat up the objects. New DMF1 freely penetrate through the entire objects' envelope, get absorbed into the cores, and continuously support DMF1 self-annihilation.
Macroobjects' cores are essentially Dark Matter Reactors fueled by DMPs. All chemical elements, gases, water vapors, compositions, radiations are produced by Macroobjects themselves as the result of DMPs selfannihilation. The diversity of all gravitationally-rounded Macroobjects in the Solar system is explained by the differences in their DM cores (mass, size, density, composition). The DM Reactors at their cores (including Earth) are very efficient and provide enough energy for the internal heating and all their geological processes like volcanos, quakes, mountains' formation through tectonic forces or volcanism, tectonic plates' movements, etc. All gravitationally-rounded Macroobjects in hydrostatic equilibrium, down to Mimas in Solar system, prove the validity of WUM.

Early Earth
Formation of Earth. The oldest material found in SS is dated to 4.568 Gyr ago [45]. In the article "The age of the Earth in the twentieth century: a problem (mostly) solved" G. B. Dalrymple said: Whether this age represents the age of the Earth's accretion, of core formation, or of the material from which the Earth formed is not yet known, but recent evidence suggests it may approximate the latter [46].
In WUM, DM core of the Earth with the radius of = 3.52 × 10 3 was born as the result of the Volcanic Rotational Fission of the Sun's DM Core with the radius of = 487 × 10 3 4.57 ago [47].
Origin of the Moon is usually explained by a Mars-sized body striking the Earth, making a debris ring that eventually collected into a single natural satellite, the Moon, but there are a number of variations on this giant-impact hypothesis, as well as alternative explanations, and research continues into how the Moon came to be. Other proposed scenarios include captured body, fission, formed together (condensation theory, Synestia), planetesimal collisions (formed from asteroid-like bodies), and collision theories. The standard giant-impact hypothesis suggests that a Mars-sized body, called Theia, impacted the proto-Earth, creating a large debris ring around Earth, which then accreted to form the Moon [48].
Establishing the age of the Moon is critical to understanding solar system evolution and the formation of rocky planets, including Earth. However, despite its importance, the age of the Moon has never been accurately determined. M. Barboni, et al. "present uranium-lead dating of Apollo 14 zircon fragments that yield highly precise, concordant ages, demonstrating that they are robust against postcrystallization isotopic disturbances. Hafnium isotopic analyses of the same fragments show extremely low initial 176 Hf/ 177 Hf ratios corrected for cosmic ray exposure that are near the solar system initial value. Our data indicate differentiation of the lunar crust by 4.51 billion years, indicating the formation of the Moon within the first ~60 million years after the birth of the solar system" [49]. Earth's Atmosphere and Oceans were formed by volcanic activity and outgassing. Most of the gas was carbon dioxide and water vapor that condensed into oceans. In this model, atmospheric greenhouse gases kept the oceans from freezing when the newly forming Sun had only 70% of its current luminosity.
According to the "Lumen Learning. Earth Science" [52]: Scientists have developed a number of hypotheses about how the oceans formed. Though these hypotheses have changed over time, one idea now has the wide support of Earth scientists, called the volcanic outgassing theory. This means that water vapor given off by volcanoes erupting over millions or billions of years, cooled and condensed to form Earth's oceans.
According to the "National Ocean Service" [53]: Most scientists agree that the atmosphere and the ocean accumulated gradually over millions and millions of years with the continual 'degassing' of the Earth's interior. According to this theory, the ocean formed from the escape of water vapor and other gases from the molten rocks of the Earth to the atmosphere surrounding the cooling planet. After the Earth's surface had cooled to a temperature below the boiling point of water, rain began to fall-and continued to fall for centuries. As the water drained into the great hollows in the Earth's surface, the primeval ocean came into existence. The forces of gravity prevented the water from leaving the planet.
In the paper "Uncovering Mysteries of Earth's Primeval Atmosphere 4.5 Billion Years Ago and the Emergence of Life" ETH Zurich (a leading scientist P. Sossi) wrote [54]: Four-and-a-half billion years ago, Earth would have been hard to recognize. Instead of the forests, mountains, and oceans that we know today, the surface of our planet was covered entirely by magma -the molten rocky material that emerges when volcanoes erupt. This much the scientific community agrees on. What is less clear is what the atmosphere at the time was like.
In the paper "Redox state of Earth's magma ocean and its Venus-like early atmosphere" [55], P. A. Sossi, et al. found that after cooling down from the magma state, the young Earth had an atmosphere that was slightly oxidizing, with carbon dioxide as its main constituent, as well as nitrogen and some water. The surface pressure was also much higher, almost one hundred times that of today and the temperature was much higher, due to the hot surface. These characteristics made it more similar to the atmosphere of today's Venus than to that of today's Earth. Based on their results, the authors made a conclusion that a popular theory on the emergence of life on Earth, in which lightning strikes interact with certain gases (notably ammonia and methane) to create amino acids -the building blocks of life -seems much less likely. The necessary gases were simply not sufficiently abundant.
Origin of Life. M. Dodd, et al. in the article "Evidence for early life in Earth's oldest hydrothermal vent precipitates" wrote [56]: Although it is not known when or where life on Earth began, some of the earliest habitable environments may have been submarine-hydrothermal vents. Here we describe putative fossilized microorganisms that are at least 3,770 million and possibly 4,280 million years old in ferruginous sedimentary rocks, interpreted as seafloor-hydrothermal vent-related precipitates. These structures occur as micrometre-scale haematite tubes and filaments with morphologies and mineral assemblages similar to those of filamentous microorganisms from modern hydrothermal vent precipitates and analogous microfossils in younger rocks. Collectively, these observations are consistent with an oxidized biomass and provide evidence for biological activity in submarine-hydrothermal environments more than 3,770 million years ago [54].
The proposed concept of Dark Matter Reactors in Cores of all gravitationally-rounded Macroobjects successfully explains all these hypothesis and results for the Early Earth (see Section 8): • The Upper mantle with Crust are due to the DM core volcanic activity of the "homemade" compositions (including magma), which produced as the result of the self-annihilation of DMPs in the DM core. It explains the result that continental crust had formed by 4.4 − 4.5 ; • Earth's Atmosphere and Oceans were formed by the volcanic activity and outgassing of DM core; • The thickness of the Upper mantle with Crust is growing in time: the Early Earth had a smaller thickness than it is in the present time. Hence, the temperature of the Earth's surface was higher than its calculated temperature based on the Sun's output at that time. It kept the oceans from freezing when the newly forming Sun had only 70% of its current luminosity; • The biological activity in submarine-hydrothermal environments more than 3,770 million years ago can be explained by a generation of all kinds of chemical elements and compositions produced into the Earth's DM core.

Conclusion
WUM does not attempt to explain all available cosmological and geophysical data, as that is an impossible feat for any one article. Nor does WUM pretend to have built an all-encompassing theory that can be accepted as is. The Model needs significant further elaboration, but in its present shape, it can already serve as a basis for a new Cosmology proposed by Paul Dirac in 1937 and a new Geophysics. The Model should be developed into the well-elaborated theory by the entire physical community.