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Summary and Overview

planet mars

Have you ever wondered why Mars is red , covered with a layer of iron oxide (rust), and why it is polluted radioactive materials?

Isn't it true that some dying stars produce iron oxide (rust)?

It is also true that radioactive materials are products of dying stars.

Could it be that Mars was neighboring to a star that is not in existence today?!

the asteroid belt 200 million years ago

The picture above says it all. A second sun was in the sky around 200 million years ago! Some of its remains are found now in the main asteroid belt. It was a very huge sun. Not smaller than the current sun, if not bigger. However, the orbit of the second sun, when it was fully functioning, before losing the most of its mass, might have been different from the picture above, as we will see later.

QUOTE: "according to oxygen isotope records, early Earth surface temperatures could have been as high as 45 – 85 degrees C!"

On the other hand, it is said that the early Sun was cool, giving only about 70% of solar heat, or even less. What was the source of that extra heat?

Because the second sun was much hotter than the existing sun, it ran out of fuel much faster.

The Earth 200 million years ago: 2 suns, one sun sets and the other sun immediately rises
The Earth 200 million years ago: 2 suns, one sun sets and the other sun immediately rises


The red surface in the picture above is the surface of Mars; the spherical planet on top of it is Jupiter; Mars is called the red planet because it is covered in rust; the red brown shades on Jupiter is rust and dust. This indicates that the source of rust was in the middle between Mars and Jupiter.. In the section about the rust on Mars, we will see that the inner planet that is closer to the asteroid belt, the more percentage of rust it has on its surface, and this shows that the source of rust was very close to Mars.


rocks on the surface of Mars
The abundance of igneous rocks on the surface of Mars is much greater than any other terrestrial planet. They look exactly the same as mountain rocks. These rocks have come from debris of the second sun.

 Supernova Explosion
Supernova Explosion
After Explosion Before Explosion
The current star theories divide stars into two categories only: stars that go supernova explosion (neutron stars), and stars that slowly cool down and fade away over time (white dwarf stars). We will see in the section about the Size and Nature of the Second Sun that this theoretical classification is incorrect. Many telescope observations have shown dying stars, that did not explode as supernova, classified as white dwarfs, but with rocks and metals! Basically the second sun did NOT explode as supernova, and it contained rocks and metals.

QUOTE: "Everything we know about the formation of solar systems might be wrong, says University of Florida astronomy professor Jian Ge and his postdoc, Bo Ma. They’ve discovered the first “binary–binary” – two massive companions around one star in a close binary system, one so-called giant planet and one brown dwarf."

The point in the quote above is the first part of it, everything they know about the formation of solar systems might be wrong -- solar systems in the universe are much more complicated than the simple model that is taught in schools.

New studies suggest that all stars were initially binary (double) star systems: "Our planet was born as a ball of rock orbiting a single star. Or was it? New research from UC Berkeley and Harvard University suggests that almost all stars are born in pairs, including our own."

Earth's Moon Mercury
The Earth's Moon Mercury
Just like all of the inner planets in the solar system, the moon has highlands, lowlands, mountains, and a mantle. So why shouldn't it be a planet?

And if it were a planet, where was it initially?

Is it a coincidence that the moon and Mercury have very similar surface features, atmosphere and size; or that is due to the same environment the two objects have lived in for a very long period of time?

 Moons of Mars

Not all moons are the same; some of them have the exact same features as planets, like the Earth's moon; while others are simply stones, like the moons of Mars. The total number of planet-like moons in the solar system is six, the Earth's moon is one of them, the other five used to be planets of the second sun; we will come back to them later in this section.

inner planets size

Based on the arrangement of the inner planets, we see that the closer the inner planet to the Sun, the smaller it is; and the farther the bigger. Mars is the farthest inner planet from the Sun, so it should be bigger than Earth! It is the second sun that prevented Mars from having the size that is supposed to have. Even though the distance from the second sun to Mars is longer than the distance between Earth and the sun, but the second sun was bigger and much hotter. It is also possible that the solar system objects in the very beginning were very close to each other, and at that time the second sun burned Mars, just like what the existing sun has done to the Moon and Mercury.


gas planets size

Gases from the dying second sun attracted to gas planets and increased their gas volume.

Unlike the inner planets, the sizes of the gas planets are in reverse order: the planet that closer the Sun, the bigger it is; not just bigger, but too much bigger! Jupiter has a mass of about 317 the mass of Earth. The Great Red Spot itself is so big that three Earths would fit in it easily. Saturn's mass is about 95 the mass of Earth.

What will happen if you boil water on fire? You will see the water steam goes to the ceiling; and if the ceiling is divided into two parts, one part is cold and the other is hot, you will see the water steam goes to the cold part. The second law of thermodynamics explains this process as follows: heat flows spontaneously from a hot to a cold body. The second sun, by the end of its life, failed to burn fuel and convert it to light; so where do you think the hot fuel will go? To the cold body! And that is exactly what happened, most of the remaining fuel, rust and dust, have gone to the cold bodies, Jupiter and Saturn; Uranus and Neptune were not affected that much because they are very far away from the asteroid belt, the final orbit of the second sun.

protoplanetary/debris disk
An artwork of a protoplanetary disk
black hole with a companion star
A companion star releases the material that makes the protoplanetary (debris) disk, and the material afterward swirls into a black hole. Black holes were originally normal stars like our sun, but much bigger; when they go supernova explosion, they become black holes.

The so-called protoplanetary disks do "not" make new planets as assumed by the Nebular theory. They are just debris disks of dying stars. In addition to the dust and gas, they also contain rocks, metal, and many other different materials. They are basically the same as the asteroid belt, but much newer.

QUOTE: "the debris disks around these examples (e.g. Vega, Alphecca, Fomalhaut, etc.) are probably not truly 'protoplanetary', but represent a later stage of disk evolution where extrasolar analogs of the asteroid belt and Kuiper belt."

Some observations have shown that the source of the material that makes the disk is a companion star. So if there were no companion star (second sun) in the solar system, the asteroid belt wouldn't have existed! By the end of its life, the second sun created a "protoplanetary" disk, or better say a "debris" disk; and the asteroid belt now contains remains of that disk.

Most of the dust and gas that were in the asteroid belt have collected on top of Jupiter and Saturn and increased their gas volume. Some other amounts have fallen on the inner planets, and mixed with the planets' soil, and participated in making the strong cement that glues mountain rocks together.


triassic sandstone mountain
The red-brown sandstone mountains on Earth contain high level of iron oxide (rust). They are called Triassic sandstone because they date back to the Triassic period, 200 million years ago!

After the summary we will see in more details the signs the second sun has left on Mars, Earth and other planets.

main asteroid belt

The dominant theory for the asteroid belt is that the rocks and metals that are orbiting in the belt now are leftover materials, failed to come together to form a planet. Another suggestion says that there was a planet in that orbit, collided with another object and broken apart. And both of these two theories do NOT take anything outside the asteroid belt into account!

Now if we assume a space object used to orbit in the asteroid belt, and we look at it from the impact that it has left on the planet Mars in particular, and the whole solar system in general, that object cannot be anything but a star!

It is true that putting all objects in the asteroid belt together will "not" make them a big star, and not even a small star in the size of the moon, but the objects themselves are remains of a star.

atlantic ocean world map

Many earth and space theories have been formulated without considering a second star in the solar system. As a result, they ended up either partially or completely incorrect. For example, two theories exist to explain the continental edges that fit together on the world map. The dominant theory is the Continental Drift, also called, Plate Tectonic. The other theory is the Expanding Earth. The plate tectonic theory states that the continents before 200 million years were united in a very vast ocean, and then they started to move. Even though this theory seems to explain the continental edges that fit together on the Atlantic ocean and other smaller seas, it completely ignores the same phenomenon on the Pacific! The Expanding Earth theory does not ignore the continental edges that fit together on the Pacific, but it does not give a reason for why the earth is expanding!

Permian –Triassic extinction event
The Permian –Triassic extinction event that took place around 250 million years ago is the worst and longest lasting disaster to ever hit the earth. It wiped out almost all life on earth! It took the earth about 30 million years to recover. This extinction event was caused by the dying 2nd sun.

Many changes and events have taken place in Earth and other planets throughout the history of the solar system, but most of them are still a puzzle. Something must be missing somewhere!

Earthquakes, tsunamis and volcanic eruptions are still occurring, but because the specialists are unaware of what has happened in the past, in order to know how the earth works today, these disasters remain a mystery.

In this article we will try to rework some of the Earth and space theories to see how things will turn out when taking the second sun as a prime factor in the equation of the solar system.

The Permian - Triassic Extinction Event
great dying extinction event
"It was almost the perfect crime. Some perpetrator -- or perpetrators -- committed murder on a scale unequaled in the history of the world. They left few clues to their identity, and they buried all the evidence under layers and layers of earth. The case has gone unsolved for years -- 250 million years, that is."

The Second Sun -- Just like many types of stars in the final period of their life, and because of the changes and events that have happened in Earth and other planets in the solar system, the second sun, most likely, have fired extremely powerful gamma rays by the end of its life. These rays have led to major changes and disasters in Earth, and also changes in the other inner planets!

According to theories, stars produce light by nuclear fusion. The nuclear fusion produces gamma rays, and then these gamma rays are converted to light. On the other hand, observations have shown that some dying stars fire strong gamma rays; this means that these stars at a very late stage of their life failed to convert the produced gamma rays to light.

earth layers
 Earth Layers

The emitted gamma rays most likely have caused ionization (chemical action/reaction process) of gases inside the Earth's mantle (the layer that is just below the crust) that led the mantle to explode and the Earth's crust to break. When that happened, life extinction resulted and almost all life on Earth died out, including insects. This is the Permian –Triassic extinction event.

Large quantities of meteoroids and asteroids have fallen down from the sky and gone all the way down to the mantle via large holes and trenches that were resulted from the explosions that have taken place inside the mantle.

mountain rock

These meteoroids were actually igneous rocks, and they were originally part of the second sun. They were thrown by the second sun during its collapsing period, and then they came to orbit the planets. After falling on Earth, they formed the ocean floor and rocky mountains, as well as the so-called "lowlands" and mountains in the other inner planets.

Most, if not all, of the base metals on Earth such as iron, magnesium, platinum, gold and silver have come from the second sun. They arrived on Earth either as pure metals or as ingredients of rocks, which are the same rocks that contain metals now, specifically the rocks that make up the ocean floor and mountains, plus the molten rocks inside the mantle.

expanded earth

Because of the added material, the earth has expanded, and its mass has increased. The expansion happened only once, and the earth is "not" continuously expanding as stated by the Expanding Earth theory. And because of the water that is filling ocean basins, the land chunks (continents) started to drift! There was no continental drift before the expansion of Earth.

Before the formation of the ocean floor, only shallow water existed on Earth in lakes and rivers. Regarding mountains, only sandstone mountains existed in the past. The only mineral that can be found in the old sandstone mountains is coal. Even though coal is not metal, but people have to mine it, that is why it is classified as mineral.

mars lowlands
Mars lowlands (blue) are very smooth compared to the highlands!

expanded mars

The other inner planets have also expanded. The lowlands (blue) on the other planets, which are equivalent to the ocean floor on Earth, are added parts, plus mountains. According to the crater counting technique, the surface of a planet that has more craters must be older than the surface, on the same planet, with less craters.. All lowlands, in all planets, have very few craters compared to the highlands! This is a clear and visible indication that they have been created at a very late time. The lowland on Earth is the sea floor; no sea floor on Earth is older than 200 million years. After knowing this about the lowlands on other planets, the assumption of Earth recycling the sea floor and mountains every 200 million years becomes invalid and without any basis. The earth generally is no different from the other terrestrial planets in the solar system.. The only difference between Earth and the other planets is water; and must be the factor, or at least the main factor, that causes continents to drift on Earth; before the expansion of Earth and the added water, there was no continental drift.

The following quote is from an article about the Permian-Triassic extinction event.

QUOTE: "The Earth was engulfed in widespread volcanism at the time of the extinction."

great dying volcanoes

Himalaya Mountain

From the volcanic debris that dates back to that period of time, scientists think it was just volcanoes covered the earth completely. The sign is the same, but the interpretations are different. This debris was not from volcanoes, but the Earth's mantle exploded and the Earth's crust opened up, making large holes and long trenches all over the world.

As said earlier, the fired gamma rays by the second sun caused ionization of gases inside the Earth's mantle that led to huge increase in gas pressure that resulted in explosions.

Rocks started to fall from space (originally were parts of the second sun) and go all the way down inside the open trenches. Some of these rocks were melted inside the Earth's mantle and reproduced to make the sea floor. Other rocks were stacking up inside other trenches and building mountains. At the same time the Earth was expanding. The evidence that supports that this was actually the case is that no seafloor is older than 200 million years and no rocky mountain is older than 200 million years, all over the Earth. In addition, there is no physical evidence to show any tectonic activity before 200 million years.

What made the falling rocks to fall inside the open areas is that moving ionized gases create a magnetic field, and the falling rocks contain iron and magnetism. So the rocks were attracted to these areas more than anywhere else.

Some mountains have remained underground for a long time, and then raised by a rising magma from the mantle. Some other mountains are still being raised until this day.

The sea floor is changing size, enlarging in some places and shrinking in other places, depending on the way the Earth balances the water on its surface.

What we have here is NOT a natural process that is governed by a predetermined natural law, but an accident that caused a sudden change; so the results are unpredictable. Now, for example, the Atlantic is expanding and the Pacific is shrinking; but will this process continue forever like that? It is up to the Earth to decide. The same thing is true for mountains; it has been noticed that the Himalaya Mountain is still rising! But for how long will this rise continue? It will certainly stop in one day, just like the other mountains that have already stopped; and another mountain may start to rise, or may not.

 What happened to the atmosphere of Mars?
What happened to the atmosphere of Mars
NASA studied the atmosphere of Mars and concluded that it was stripped from the top: "The enrichment of heavier isotopes measured in the dominant carbon-dioxide gas points to a process of loss from the top of the atmosphere"

But how this can happen: "a process that is thought to be driven by interactions with the solar wind."

Note that the so called -- solar wind -- isn't air, but a solar radiation of charged particles.

High-energy particles from the sun sneak into the upper atmosphere of Earth, causing colorful auroras near the poles.

Because of this unexplained phenomenon, some scientists think that the solar wind of the existing sun is the cause.

Nobody can say that the solar wind of the existing sun has no effect at all on the atmosphere of Mars; the picture to the right shows that it penetrates the Earth's atmosphere and causes auroras near the poles, but saying it is the one that wiped out the atmosphere of Mars cannot be true. If this was the case, it would have affected the atmosphere of Earth much more, and for the simple reason: Earth is much closer to the sun than Mars. It is the solar wind of the second sun that has destroyed the atmosphere of Mars.


 The Earth Inner Core
earth inner core

The earth inner core, that is made of iron and nickel, isn't as old as the earth itself, as some might think, but it is an added part at a very late time, and it is getting bigger. Some scientists give it an age of about 500 million years only, compared to the Earth estimated age 4 billion years.

QUOTE: "The inner core is a relatively recent addition to our planet and establishing when it was formed is a topic of vigorous scientific debate with estimates ranging from 0.5 billion to 2 billion years ago."

What applies to the inner core of Earth must also apply to the other solar system planets, and we have to initially assume that all of them got their inner core at a very late time.

It looks like the fallen rocks that stayed inside the mantle got melted and released their metallic elements, including iron. The extracted iron started to sink to the earth center and concentrate there to form the inner core. So the formation of the earth core is an ongoing process until this day and it is getting bigger because the rocks are still releasing metal and the metal is sinking to the earth center. Since there was no iron or any other metal on Earth before 200 million years, it is impossible for the earth core to be older than 200 million years.

The young age of the Earth metal core adds evidence that shows that Earth had no metal at all before 200 million years, not even inside the earth internal layers.

Moons of Jupiter
The spherical moons of Jupiter were planets of the Second Sun

The planet Jupiter is still in a gas form because it is far away from the sun; but why are the moons of Jupiter very much similar to the inner terrestrial planets?

The moon of Jupiter Io has over 400 "active" volcanoes!

These moons must have been planets orbiting a star at some point in time. Planets form around stars, and not around other planets.

Since there are signs of a second sun in the asteroid belt, and because the moons are relatively near the asteroid belt, we have to assume, based on the common sense, that these moons were actually planets of the second sun.

planets of the second sun
The spherical space objects that are currently classified as moons of Jupiter and Saturn used to be planets of the Second Sun!


the solar system with a second sun 200 million years ago
The solar system might have been in this layout when the second sun was fully functioning. The two stars orbit each other around a common center of mass; each star had five rocky planets; the gas giants orbit the two stars... At the end of its life, when it lost most of its mass, the second sun started a new orbit around the existing sun, the orbit that is now called, the asteroid belt.


asteroid psyche

The last element stars produce is iron (Fe).

The picture above shows the orbit of a metal (iron) asteroid in the main asteroid belt, called, Psyche. It is almost in the middle of the belt. It has a diameter of about 250 km. It has not been visited or investigated yet. It could be the inner core of the second sun or a major part of it. Note that there is NO inner core in stars that are functioning normally, but some stars by the end of their life, when they start making metals, they develop what can be called a star inner core.

Some think that this metal asteroid is an exposed inner core of a planet, on the assumption that the inner core of a planet is made first. The late addition of the earth's inner core proves this assumption incorrect.


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