Abstract: Do you believe there is a Creator? If so than one should presume all of the major objects in the solar system have great purpose. What I've found is the process of how so-called gas giant planets are generating earths. The earth we live on is neither the first one to exist in the solar system and won't nearly be the last. When one passes away another one is born. I've been able to estimate that this occurs atleast every 560 million years. The two closest worlds to the sun were once earth-like... Mars and the six largest terrestrial objects of the outer solar system are proto-earths. It all begins within Jupiter, the farthest Galilean Satellite then migrates to Saturn which is where the atmosphere comes from, and afterwards goes all the way to the edge of the solar system around Neptune before taking orbit in the inner solar system. I know how fantastical this all sounds but I have substantial evidence to support these claims.



Earth’s creation and terrestrial planetary evolution begins inside of Jupiter. Ever since astronomers first got a close view of Jupiter, what’s commonly referred to as the ‘great red spot’, has always been visible yet mysterious. Popularly misconceived as nothing more than a long lasting storm, in the center of the ‘great red spot’ is actually an embryonic earth. Its oval diameter is condensing and at current rates could become fully circular by 2040. Once its formation is completed a massive atmospheric upheaval will cause this newly birthed planet to emerge from the Jovian atmosphere and enter into a stabilized orbit around Jupiter to eventually form into the next Io.

The Galilean Satellites are the first four proto-earths. I use this term “proto-earth” in reference to the seven tangible planetary evolutionary phases of Earth formation. All six of the proto-earths in the outer solar system undergo an expand and condense cycle, these planets mainly grow from the inside and their cores have a lot to do with it. The closest natural satellite to Jupiter is Io, I’ve classified it as the tangible proto-earth phase #1; Europa is proto-earth phase #2, Ganymede is proto-earth phase #3, and Callisto is proto-earth phase #4.

These astronomical objects originally shift orbits away from Jupiter and then farther into the outer solar system. The largest natural satellite orbiting Saturn is Titan, proto-earth#5 [It is said to be most akin to Jupiter’s moon Callisto except Titan has weather]. This proto-earth is where the atmosphere originates and precisely explains earth’s “great oxidation event” billions of years ago. Titan has a thick predominantly nitrogen atmosphere and is often called “an earth in deep freeze” because of its primordial resemblance to our planet. It’s confirmed to contain the predecessors necessary for the advancement of life. Triton, proto-earth#6, is in retrograde orbit around Neptune which from that fact one can only conclude that natural satellite didn’t form there. Despite Triton’s being even colder on average than Pluto, it is well known to be very geologically active. Its surface consists mostly of frozen nitrogen and its crust is mainly water ice. This proto-earth is the only large natural satellite that we know of in a retrograde orbit which signifies that Triton definitely wasn’t formed there and it will eventually shift back towards the inner solar system to undergo the final tangible proto-earth transformation, which is Mars, yet before that occurs it will experience a cataclysmic collision that forms the giant impact basin in Mars’ northern hemisphere.

Mars has the same amount of continental crust, dry land, as Earth does and so overall one could only conclude that it’s an astronomical coincidence or that it correlates to the basic concept of the hypothesized Pangaea except in actuality isn’t in super-continental form but in planetary form. In millions of years Mars will have its own “Cambrian explosion“ and eventually the sea-floors will spread as the planet expands to the size of Earth.

The two innermost planets, Venus and Mercury, were both once earths that have passed away many millions of years ago. Their worlds in ruins long before we existed are left there as a reminder of sorts to our planet’s and own mortality.

The basic conclusions drawn from the results proves that the universe has been designed and life has been made on purpose.








Various Evidence:

*This was an older batch of evidence. There are much more to be posted.


567 Million Year Cycle:
[7 proto-earths + Earth = 8] Age of Earth 4.54 billion years / 8 = 567.5 million years


“From about 570 to 530 million years ago, an evolutionary burst of life forms occurred, often referred to as the “Cambrian Explosion.” This marks an important point in the history of life on earth, as most of the major lineages of animals got their starts during the Cambrian Period and have been evolving ever since.”

“On all of Venus there are about 1000 craters, an unusually small number. The crater statistics tell us that although the planet is 4.6 billion years old, nothing on its surface is older than roughly 0.5 billion years. Almost all of Venus’s history is a blank slate. It looks as if half a billion years ago, all of Venus’s surface was replaced.”


“[…]the nominal age of the surface of Venus is about 600 Ma, although the uncertainty is about a factor of two. The chief difference between our estimate and earlier, somewhat younger estimates is that we find that the venusian atmosphere is less permeable to impacting bodies than supposed by earlier studies. An older surface increases the likelihood that Venus is dead.”



“The mechanisms by which orbital resonance locks are maintained among Io, Europa and Ganymede are analyzed, and the effects of the dissipative tides in Jupiter and Io on their establishment and evolution are considered. According to the proposed model, initially all three satellites are in orbits far from the 2:1 commensurabilities or the three body lock. The tide raised on Io damps down the free eccentricity; only modest tidal heating occurs. Subsequently the dissipative tide raised on Jupiter by Io causes Io’s orbit to spiral outwards; Io approaches the 2:1 commensurability with Europa. Io’s forced eccentricity increases rapidly to a critical value, and thereafter the resonant interaction causes Europa’s orbit to expand at half that of Io’s orbit. A fluid core is probably formed as the result of tidal heating. Finally Europa approaches the 2:1 commensurability, angular momentum is transferred from Europa’s orbit to Ganymede’s, and a steady state is attained. On the basis of the observed three-body resonance amplitude (0.066 deg), it is concluded that three-body resonance may have formed less than 500 million years ago”



“It’s a surface that should have eroded much more than what we’re seeing, if the river networks have been active for a long time,” says Taylor Perron, the Cecil and Ida Green Assistant Professor of Geology at MIT. “It raises some very interesting questions about what has been happening on Titan in the last billion years.”



“These regularities indicate to us that supercontinents are created in a cyclic process, in which one complete cycle takes about 500 million years.”



“The supercontinent cycle describes the quasi-periodic aggregation and dispersal of Earth’s continental crust. There are varying opinions as to whether the amount of continental crust is increasing, decreasing, or staying about the same, but it is agreed that the Earth’s crust is constantly being reconfigured.”




Expand/Condense Pattern:

[- = condense] [+ = expand] [x = multiply by previous diameter]

Great Red Spot is currently condensing, once it is pushed out of the Jovian atmosphere it will begin to expand again: Io -1.18x Europa +1.7x Ganymede -1.09x Callisto +1.07x Titan -1.9x Triton +2.5x Mars +1.87x Earth -1.05x Venus -2.48x Mercury


Super-Continent Evidence:

Stable crust in place by 4.4 (Beginning of Io)

Began 3.6 (Europa) —-Expand—–> Completed 3.1 (Ganymede) —-Condense—–> Broke up 2.5 (Callisto to Titan) Expands

Began 2.7 [Core origin 3.1] (Ganymede to Callisto) —-Condense—–> Broke up 2.48 to 2.1 (Callisto to Titan) Expands

Began 2.1 (Titan) —-Condense—–> Completed 1.8 (Titan to Triton) ——-> Broke up 1.5 (Neptune Triton to Uranus Triton) Expands

Began 2 (Titan) —-Condense—–> Completed 1.1 (Uranus Triton) ——> Broke up 750mya (Triton to Mars) Expands

Began 750mya (Triton to Mars) —-Condense—–> Completed 600mya (Mars) —-Expand—–> Broke up 540mya (Mars to Earth) Expands

—-Condense—–> Completed 300mya (Mars/Earth) —-Expand—–> Broke up 200mya (Earth) —-Sea Floor Spreads—–> Present Earth


The misconception of “super-continents” is based off the assumption there has always been seafloor crust that is constantly being recycled. This false perspective has deterred science away from uncovering the reality of what’s really going on. These cycles of so called super-continents are nothing more than a representation of global expansion and condensing cycles throughout earth’s formation



Basic Mathematical Evidence:

Current Age of Astronomical Objects
[1=billion] 0.5 Great Red Spot
1 Io
1.5 Europa
2 Ganymede
2.5 Callisto
3 Titan
3.5 Triton
4 Mars
4.5 Earth
5 Venus
5.5 Mercury


Orbital Velocity (km/s)
[Mars 24.1 — Earth 29.8 — Venus 35.0 — Mercury 47.9] Indicates that as an inner planet’s orbit approaches the Sun, its orbital velocity increases.


Inner Planets Correlation of Orbital Period to Diameter

The orbital period of Mars is 686.98 days, divide that by Earth’s orbital period of 365.25 days and the ratio is 1.88. Compare this to the radius of Earth to Mars:
Equatorial radius (km); Earth 6,378.1/Mars 3,396.2 = 1.87 and Polar radius (km); Earth 6,356.8/Mars 3,376.2 = 1.88
There is an undeniable correlation of those planets orbital period to their size. This same correlation is similar but not as precise with Venus in relation to Mercury:
Orbital period; Venus 224.7/Mercury 87.9 = 2.55 and Radius(km); Venus 6,051.8/Mercury 2,439.7 = 2.48

In conclusion these ratios indicate that as Mars orbit approaches the habitable zone it will expand as its sea floor eventually spreads. Also as Venus orbit approaches the Sun that planet will deteriorate and become like Mercury.
This same principle does not apply with Earth in relation to Venus or Mercury which indicates that Earth is currently locked inside the habitable zone.
(Values for orbital periods, orbital velocity, and radius from nssdc.gsfc.nasa.gov)




Origin of Water Mystery Solved:

“Why Earth has water is a mystery, for “especially early on in the solar nebula, the area where the Earth formed was too hot for water to incorporate into a solid body,” Ciesla said. Meteorites may have delivered at least part of Earth’s water, although that remains open to debate, he added.

The scenario also suggests how so much organic material has survived in the carbonaceous chondrite meteorites. If water reacted with the fine dust in the solar nebula as the new research suggests, temperatures in the meteorites would have remained low enough for organic molecules to survive and be delivered, along with water, to Earth.

Although the idea that shock waves formed the hydrated rock and chondrules found in the most primitive meteorites stands up to quantitative analysis, scientists are still speculating about where the shock waves come from.”


*The terrestrial planets begun development beyond the “frost line” and migrated to the edge of the solar system before entering into the inner solar system.



The Great Oxygenation Event:

“Great Oxidation, was the biologically induced appearance of free oxygen (O2) in Earth’s atmosphere. This major environmental change happened around 2.4 billion years ago.”


Great Oxidation Event [2.4 billion years ago] = Beginning of Titan


Large amounts of oxygen released by ocean plankton made Earth’s atmosphere breathable for the first time in history. This happened about 500 million years ago.

“When the first simple organisms appeared in the oceans more than 3.5 billion years ago, the atmosphere was mostly nitrogen, hydrogen, water vapor, and carbon dioxide. Some scientists speculate that these organisms were similar to microbes found in hydrothermal vents, which derive their energy via chemosynthesis from gases like methane and hydrogen sulfide spewed from the vents.

Not long after, possibly about 3 billion years ago, the first photosynthetic organisms had evolved and begun releasing oxygen, much of it used up in geological processes. The rest started to slowly accumulate in the atmosphere.”

“Things started to get interesting during a geologic period known as the Cambrian period, from 542 to 488 million years ago. An event notable in the history of life on Earth, called the Cambrian Explosion, occurred during this time. It was a burst in diversity of animal life in shallow seas that started 540 million years ago and lasted for about 40 million years. This milestone in evolution produced almost all the lineages of animals alive today. It’s believed that life had not yet evolved to colonize land during the Cambrian Explosion.”


Simple Organisms [3.5 billion years ago] = Europa

Breathable Atmosphere [500 million years ago] = End of Mars, Beginning of Earth





‘Mare is Pangea’

“Mars has a diameter about as wide as the continent of Africa. Its overall size, or surface area, is about eight times less than Earth’s, but it has the same amount of dry land.”

“The largest of the volcanoes in the Tharsis Montes region, as well as all known volcanoes in the solar system, is Olympus Mons. Olympus Mons is a shield volcano 624 km (374 mi) in diameter (approximately the same size as the state of Arizona), 25 km (16 mi) high, and is rimmed by a 6 km (4 mi) high scarp. A caldera 80 km (50 mi) wide is located at the summit of Olympus Mons. To compare, the largest volcano on Earth is Mauna Loa. Mauna Loa is a shield volcano 10 km (6.3 mi) high and 120 km (75 mi) across. The volume of Olympus Mons is about 100 times larger than that of Mauna Loa.”

“Many scientists consider Mars to be volcanically active, even if we have not observed an eruption. Basalt meteorites from Mars indicate that volcanism has occurred in the last 180 million years. Very few impact craters occur on the lava flows of Olympus Mons, suggesting that this volcano has probably erupted in the last few million years.”




Venus was an earth-like planet:


Topographic Map:

The evident remains of the seven major continents can be seen from differences in elevation. (After half a billion years of erosion)



Obvious reason for topographic map being inverted:
“The axial tilt of Venus is 177.3°. That’s a bit of a confusing number, so let’s figure out what’s going on here. Compare this number to the Earth’s axial tilt of 23.5°.

A full circle is 360°. Half a circle is 180°. So if you subtract 177.3° from 180°, you get 2.7°. In other words, Venus is actually only tilted away from the plane of the ecliptic by only 2.7°. Venus is actually completely upside down – almost perfectly upside down.

In fact, Venus is the only planet in the Solar System that rotates backwards compared to the other planets.”



Probe hints Venus once had oceans and plate tectonics

“Europe’s Venus Express orbiter suggests that some of the planet’s surface is made of granite, which on Earth needs water and plate tectonics to form.”


“Granite is the signature rock of the continents.”






Mercury: Mainly Iron Core Remnants

“Mercury’s core occupies a large fraction of the planet, about 85% of the planetary radius, even larger than previous estimates. Because of the planet’s small size, at one time many scientists thought the interior should have cooled to the point that the core would be solid. However, subtle dynamical motions measured from Earth-based radar, combined with MESSENGER’s newly measured parameters of the gravity field and the characteristics of Mercury’s internal magnetic field that signify an active core dynamo, indicate that the planet’s core is at least partially liquid.”

Landscape Curiosities

“A planet’s topography can reveal fundamental information about its internal structure and its geological and thermal evolution. Ranging observations from MESSENGER’s Mercury Laser Altimeter (MLA) have provided the first-ever precise topographic model of the planet’s northern hemisphere and characterized slopes and surface roughness over a range of spatial scales. From MESSENGER’s eccentric, near-polar orbit, the MLA illuminates surface areas as wide as 15 to 100 meters (50 -325 feet), spaced about 400 meters apart (1,300 feet).

The spread in elevations is considerably smaller than those of Mars or the Moon. The most prominent feature is an extensive area of lowlands at high northern latitudes that hosts the volcanic northern plains. Within this lowland region is a broad topographic rise that formed after the volcanic plains were emplaced.”