Where did our planet, Earth, come from?

[watchingfromafar]

Where did our planet, Earth, come from?

I believe that there were huge clouds of varies gases’ floating in outer space.

One such gas cloud is hydrogen, and another is oxygen. These gases stick together because that are one of a kind.

When these two clouds met each other, the gases mixed.

At some point an outside energy source produced enough energy to ignited the gases creating a huge fireball giving off a great deal of heat. At the same time oxygen and hydrogen gases combined to form water molecules, H2O.

The water quickly cooled, turning into ice.

At this ball of ice traveled through space it collected rock and this rock migrated to the center core.
This core is our planet earth with miles of thick ice covering the core.

The Snowball Earth hypothesis proposes that, during one or more of Earth's icehouse climates, the planet's surface became entirely or nearly entirely frozen. It is believed that this occurred sometime before 650 myr (million years ago) during the Cryogenian period. Proponents of the hypothesis argue that it best explains sedimentary deposits that are generally believed to be of glacial origin at tropical palaeolatitudes and other enigmatic features in the geological record. Opponents of the hypothesis contest the geological evidence for global glaciation and the geophysical feasibility of an ice- or slush-covered ocean, and they emphasize the difficulty of escaping an all-frozen condition.
Snowball Earth - Wikipedia

That ice has been melting ever since.

The retreat of glaciers since 1850 affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Deglaciation occurs naturally at the end of ice ages,
Retreat of glaciers since 1850 - Wikipedia

I believe our planet got caught in the gravity force of our sun, putting our planet in an elliptical orbit around our sun.
Earth came from outer space.
as i see it, how about you?

 

[Baron Von Murderpaws]

Yeah, sort of like that.

The gasses were part of the separated explosion.......regardless of the Universal Big Bang, or just our solar system Big Bang...........
These gasses were caught by a lot of the dust and rubble from the explosion, resulting in a slow, magnetic type attraction, bringing all these gasses and rubble together.

Sure, you can take the snowball effect, but I would think it was more like a gluetrap. Like, once the main mass was formed, it just started collecting everything it passed by or went thru. Once the masses were secured, the gasses started doing their own things. With the early planet taking shape and starting its regular rotation around the sun, it started forming itself with the cold and hot seasons.

Everything else came from the stellar debris as well.......dna patterns, microscopic cells, blah, blah, blah.


But...........WHERE did all this stuff come from? The debris came from the Universal Big Bang or the solar Big Bang, but WHERE did that stuff to create these big bangs, come from????

WHAT was the universe/solar system initially?

 

[tyroneweaver]

Where did our planet, Earth, come from?

I believe that there were huge clouds of varies gases’ floating in outer space.

One such gas cloud is hydrogen, and another is oxygen. These gases stick together because that are one of a kind.

When these two clouds met each other, the gases mixed.

At some point an outside energy source produced enough energy to ignited the gases creating a huge fireball giving off a great deal of heat. At the same time oxygen and hydrogen gases combined to form water molecules, H2O.

The water quickly cooled, turning into ice.

At this ball of ice traveled through space it collected rock and this rock migrated to the center core.
This core is our planet earth with miles of thick ice covering the core.

The Snowball Earth hypothesis proposes that, during one or more of Earth's icehouse climates, the planet's surface became entirely or nearly entirely frozen. It is believed that this occurred sometime before 650 myr (million years ago) during the Cryogenian period. Proponents of the hypothesis argue that it best explains sedimentary deposits that are generally believed to be of glacial origin at tropical palaeolatitudes and other enigmatic features in the geological record. Opponents of the hypothesis contest the geological evidence for global glaciation and the geophysical feasibility of an ice- or slush-covered ocean, and they emphasize the difficulty of escaping an all-frozen condition.
Snowball Earth - Wikipedia

That ice has been melting ever since.

The retreat of glaciers since 1850 affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Deglaciation occurs naturally at the end of ice ages,
Retreat of glaciers since 1850 - Wikipedia

I believe our planet got caught in the gravity force of our sun, putting our planet in an elliptical orbit around our sun.
Earth came from outer space.
as i see it, how about you?

ya and then there was this monkey that needed to hit a golf ball 142 yards and he invented the 9 iron.

 

[shockedcanadian]

The universe is full of mysteries and we don't get the answers until we die. Ironic really and a pity too. Imagine how much more we would be able to discuss?

 

[JGalt]

In the beginning God created the heaven and the earth.

And the earth was without form, and void; and darkness was upon the face of the deep. And the Spirit of God moved upon the face of the waters.

And God said, Let there be light: and there was light....

 

[Woodznutz]

The design and composition of the earth doesn't lend itself to any of these theories. Special creation does.

 

[shockedcanadian]

In the beginning God created the heaven and the earth.

And the earth was without form, and void; and darkness was upon the face of the deep. And the Spirit of God moved upon the face of the waters.

And God said, Let there be light: and there was light....

and it was good...

 

[BULLDOG]

This isn't specifically about where our planet came from, but it touches on the subject. You should watch at least the first 4 or 5 minutes. Click watch on Youtube.

 

[BackAgain]

Where did our planet, Earth, come from?​

Space rocks and so forth.

 

[skye]

LOL!

 

[Auld Phart]

Where did our planet, Earth, come from?

I believe that there were huge clouds of varies gases’ floating in outer space.

One such gas cloud is hydrogen, and another is oxygen. These gases stick together because that are one of a kind.

When these two clouds met each other, the gases mixed.

At some point an outside energy source produced enough energy to ignited the gases creating a huge fireball giving off a great deal of heat. At the same time oxygen and hydrogen gases combined to form water molecules, H2O.

The water quickly cooled, turning into ice.

At this ball of ice traveled through space it collected rock and this rock migrated to the center core.
This core is our planet earth with miles of thick ice covering the core.

The Snowball Earth hypothesis proposes that, during one or more of Earth's icehouse climates, the planet's surface became entirely or nearly entirely frozen. It is believed that this occurred sometime before 650 myr (million years ago) during the Cryogenian period. Proponents of the hypothesis argue that it best explains sedimentary deposits that are generally believed to be of glacial origin at tropical palaeolatitudes and other enigmatic features in the geological record. Opponents of the hypothesis contest the geological evidence for global glaciation and the geophysical feasibility of an ice- or slush-covered ocean, and they emphasize the difficulty of escaping an all-frozen condition.
Snowball Earth - Wikipedia

That ice has been melting ever since.

The retreat of glaciers since 1850 affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Deglaciation occurs naturally at the end of ice ages,
Retreat of glaciers since 1850 - Wikipedia

I believe our planet got caught in the gravity force of our sun, putting our planet in an elliptical orbit around our sun.
Earth came from outer space.
as i see it, how about you?

Gods anus.

 

[EMH]

Origin of matter that formed Earth is a black hole at the center of the Milky Way.

Jetted out from black hole, precisely how is the question = suggests speed was in excess of light

All swirl galaxies have a pattern. Matter is jetted out from the center, presumably a black hole (or more than one). The origin of the matter is spinning and moving, which is why a swirl pattern emerges. Matter cools and slows in space. Gravity starts "clumping it." For our solar system, 99%+ matter ended up in the center of gravity, the Sun, due to vector not being orbit. That matter which orbited the Sun crashed and smacked and produced all the pock marks on Mercury, Moon, Pluto and Charon etc. It is now believed that Earth is the product of two smaller planets colliding some 4.5 billion years ago, and the dust from that collision became the Moon. Before that, what became Earth was a lot of smaller objects colliding and joining.

 

[tyroneweaver]

In the beginning God created the heaven and the earth.

And the earth was without form, and void; and darkness was upon the face of the deep. And the Spirit of God moved upon the face of the waters.

And God said, Let there be light: and there was light....

So when he created light, did light appear everywhere immediatley or when he created the andromeda galaxy billions of years ago; did he let natural laws play out at it took 250 million light years for the light to get here.

 

[luiza]

we don't get the answers until we die.

Who says ?
You ?
Other cultists?
Got any more nutty ideas to share?

 

[frigidweirdo]

The design and composition of the earth doesn't lend itself to any of these theories. Special creation does.

"special creation" is so illogical it's funny.

 

[Crick]

Where did our planet, Earth, come from?

I believe that there were huge clouds of varies gases’ floating in outer space.

One such gas cloud is hydrogen, and another is oxygen. These gases stick together because that are one of a kind.

When these two clouds met each other, the gases mixed.

At some point an outside energy source produced enough energy to ignited the gases creating a huge fireball giving off a great deal of heat. At the same time oxygen and hydrogen gases combined to form water molecules, H2O.

The water quickly cooled, turning into ice.

At this ball of ice traveled through space it collected rock and this rock migrated to the center core.
This core is our planet earth with miles of thick ice covering the core.

The Snowball Earth hypothesis proposes that, during one or more of Earth's icehouse climates, the planet's surface became entirely or nearly entirely frozen. It is believed that this occurred sometime before 650 myr (million years ago) during the Cryogenian period. Proponents of the hypothesis argue that it best explains sedimentary deposits that are generally believed to be of glacial origin at tropical palaeolatitudes and other enigmatic features in the geological record. Opponents of the hypothesis contest the geological evidence for global glaciation and the geophysical feasibility of an ice- or slush-covered ocean, and they emphasize the difficulty of escaping an all-frozen condition.
Snowball Earth - Wikipedia

That ice has been melting ever since.

The retreat of glaciers since 1850 affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Deglaciation occurs naturally at the end of ice ages,
Retreat of glaciers since 1850 - Wikipedia

I believe our planet got caught in the gravity force of our sun, putting our planet in an elliptical orbit around our sun.
Earth came from outer space.
as i see it, how about you?

Formation and evolution of the Solar System - Wikipedia

en.wikipedia.org

The nebular hypothesis says that the Solar System formed from the gravitational collapse of a fragment of a giant molecular cloud,[9] most likely at the edge of a Wolf-Rayet bubble.[10] The cloud was about 20 parsecs (65 light years) across,[9] while the fragments were roughly 1 parsec (three and a quarter light-years) across.[11] The further collapse of the fragments led to the formation of dense cores 0.01–0.1 parsec (2,000–20,000 AU) in size.[a][9][12] One of these collapsing fragments (known as the presolar nebula) formed what became the Solar System.[13] The composition of this region with a mass just over that of the Sun (M☉) was about the same as that of the Sun today, with hydrogen, along with helium and trace amounts of lithium produced by Big Bang nucleosynthesis, forming about 98% of its mass. The remaining 2% of the mass consisted of heavier elements that were created by nucleosynthesis in earlier generations of stars.[14] Late in the life of these stars, they ejected heavier elements into the interstellar medium.[15]

...

The various planets are thought to have formed from the solar nebula, the disc-shaped cloud of gas and dust left over from the Sun's formation.[32] The currently accepted method by which the planets formed is accretion, in which the planets began as dust grains in orbit around the central protostar. Through direct contact and self-organization, these grains formed into clumps up to 200 m (660 ft) in diameter, which in turn collided to form larger bodies (planetesimals) of ~10 km (6.2 mi) in size. These gradually increased through further collisions, growing at the rate of centimetres per year over the course of the next few million years.[33]

The inner Solar System, the region of the Solar System inside 4 AU, was too warm for volatile molecules like water and methane to condense, so the planetesimals that formed there could only form from compounds with high melting points, such as metals (like iron, nickel, and aluminium) and rocky silicates. These rocky bodies would become the terrestrial planets (Mercury, Venus, Earth, and Mars). These compounds are quite rare in the Universe, comprising only 0.6% of the mass of the nebula, so the terrestrial planets could not grow very large.[11] The terrestrial embryos grew to about 0.05 Earth masses (MEarth) and ceased accumulating matter about 100,000 years after the formation of the Sun; subsequent collisions and mergers between these planet-sized bodies allowed terrestrial planets to grow to their present sizes.[34]

When the terrestrial planets were forming, they remained immersed in a disk of gas and dust. The gas was partially supported by pressure and so did not orbit the Sun as rapidly as the planets. The resulting drag and, more importantly, gravitational interactions with the surrounding material caused a transfer of angular momentum, and as a result the planets gradually migrated to new orbits. Models show that density and temperature variations in the disk governed this rate of migration,[35][36] but the net trend was for the inner planets to migrate inward as the disk dissipated, leaving the planets in their current orbits.[37]

The giant planets (Jupiter, Saturn, Uranus, and Neptune) formed further out, beyond the frost line, which is the point between the orbits of Mars and Jupiter where the material is cool enough for volatile icy compounds to remain solid. The ices that formed the Jovian planets were more abundant than the metals and silicates that formed the terrestrial planets, allowing the giant planets to grow massive enough to capture hydrogen and helium, the lightest and most abundant elements.[11] Planetesimals beyond the frost line accumulated up to 4 MEarth within about 3 million years.[34] Today, the four giant planets comprise just under 99% of all the mass orbiting the Sun.Formation and evolution of the Solar System - Wikipedia Theorists believe it is no accident that Jupiter lies just beyond the frost line. Because the frost line accumulated large amounts of water via evaporation from infalling icy material, it created a region of lower pressure that increased the speed of orbiting dust particles and halted their motion toward the Sun. In effect, the frost line acted as a barrier that caused the material to accumulate rapidly at ~5 AU from the Sun. This excess material coalesced into a large embryo (or core) on the order of 10 MEarth, which began to accumulate an envelope via accretion of gas from the surrounding disc at an ever-increasing rate.[38][39] Once the envelope mass became about equal to the solid core mass, growth proceeded very rapidly, reaching about 150 Earth masses ~105 years thereafter and finally topping out at 318 MEarth.[40] Saturn may owe its substantially lower mass simply to having formed a few million years after Jupiter, when there was less gas available to consume.[34][41]

T Tauri stars like the young Sun have far stronger stellar winds than more stable, older stars. Uranus and Neptune are thought to have formed after Jupiter and Saturn did, when the strong solar wind had blown away much of the disc material. As a result, those planets accumulated little hydrogen and helium—not more than 1 MEarth each. Uranus and Neptune are sometimes referred to as failed cores.[42] The main problem with formation theories for these planets is the timescale of their formation. At the current locations it would have taken millions of years for their cores to accrete.[41] This means that Uranus and Neptune may have formed closer to the Sun—near or even between Jupiter and Saturn—and later migrated or were ejected outward (see Planetary migration below).[42][43] Motion in the planetesimal era was not all inward toward the Sun; the Stardust sample return from Comet Wild 2 has suggested that materials from the early formation of the Solar System migrated from the warmer inner Solar System to the region of the Kuiper belt.[44]

After between three and ten million years,[34] the young Sun's solar wind would have cleared away all the gas and dust in the protoplanetary disc, blowing it into interstellar space, thus ending the growth of the planets.[45][46]

---

There is more information in the linked article and there is a great deal more technical information available on the net.

 

[Grumblenuts]

Formation and evolution of the Solar System - Wikipedia

en.wikipedia.org

The nebular hypothesis says that the Solar System formed from the gravitational collapse of a fragment of a giant molecular cloud,[9] most likely at the edge of a Wolf-Rayet bubble.[10] The cloud was about 20 parsecs (65 light years) across,[9] while the fragments were roughly 1 parsec (three and a quarter light-years) across.[11] The further collapse of the fragments led to the formation of dense cores 0.01–0.1 parsec (2,000–20,000 AU) in size.[a][9][12] One of these collapsing fragments (known as the presolar nebula) formed what became the Solar System.[13] The composition of this region with a mass just over that of the Sun (M☉) was about the same as that of the Sun today, with hydrogen, along with helium and trace amounts of lithium produced by Big Bang nucleosynthesis, forming about 98% of its mass. The remaining 2% of the mass consisted of heavier elements that were created by nucleosynthesis in earlier generations of stars.[14] Late in the life of these stars, they ejected heavier elements into the interstellar medium.[15]

...

The various planets are thought to have formed from the solar nebula, the disc-shaped cloud of gas and dust left over from the Sun's formation.[32] The currently accepted method by which the planets formed is accretion, in which the planets began as dust grains in orbit around the central protostar. Through direct contact and self-organization, these grains formed into clumps up to 200 m (660 ft) in diameter, which in turn collided to form larger bodies (planetesimals) of ~10 km (6.2 mi) in size. These gradually increased through further collisions, growing at the rate of centimetres per year over the course of the next few million years.[33]

The inner Solar System, the region of the Solar System inside 4 AU, was too warm for volatile molecules like water and methane to condense, so the planetesimals that formed there could only form from compounds with high melting points, such as metals (like iron, nickel, and aluminium) and rocky silicates. These rocky bodies would become the terrestrial planets (Mercury, Venus, Earth, and Mars). These compounds are quite rare in the Universe, comprising only 0.6% of the mass of the nebula, so the terrestrial planets could not grow very large.[11] The terrestrial embryos grew to about 0.05 Earth masses (MEarth) and ceased accumulating matter about 100,000 years after the formation of the Sun; subsequent collisions and mergers between these planet-sized bodies allowed terrestrial planets to grow to their present sizes.[34]

When the terrestrial planets were forming, they remained immersed in a disk of gas and dust. The gas was partially supported by pressure and so did not orbit the Sun as rapidly as the planets. The resulting drag and, more importantly, gravitational interactions with the surrounding material caused a transfer of angular momentum, and as a result the planets gradually migrated to new orbits. Models show that density and temperature variations in the disk governed this rate of migration,[35][36] but the net trend was for the inner planets to migrate inward as the disk dissipated, leaving the planets in their current orbits.[37]

The giant planets (Jupiter, Saturn, Uranus, and Neptune) formed further out, beyond the frost line, which is the point between the orbits of Mars and Jupiter where the material is cool enough for volatile icy compounds to remain solid. The ices that formed the Jovian planets were more abundant than the metals and silicates that formed the terrestrial planets, allowing the giant planets to grow massive enough to capture hydrogen and helium, the lightest and most abundant elements.[11] Planetesimals beyond the frost line accumulated up to 4 MEarth within about 3 million years.[34] Today, the four giant planets comprise just under 99% of all the mass orbiting the Sun.Formation and evolution of the Solar System - Wikipedia Theorists believe it is no accident that Jupiter lies just beyond the frost line. Because the frost line accumulated large amounts of water via evaporation from infalling icy material, it created a region of lower pressure that increased the speed of orbiting dust particles and halted their motion toward the Sun. In effect, the frost line acted as a barrier that caused the material to accumulate rapidly at ~5 AU from the Sun. This excess material coalesced into a large embryo (or core) on the order of 10 MEarth, which began to accumulate an envelope via accretion of gas from the surrounding disc at an ever-increasing rate.[38][39] Once the envelope mass became about equal to the solid core mass, growth proceeded very rapidly, reaching about 150 Earth masses ~105 years thereafter and finally topping out at 318 MEarth.[40] Saturn may owe its substantially lower mass simply to having formed a few million years after Jupiter, when there was less gas available to consume.[34][41]

T Tauri stars like the young Sun have far stronger stellar winds than more stable, older stars. Uranus and Neptune are thought to have formed after Jupiter and Saturn did, when the strong solar wind had blown away much of the disc material. As a result, those planets accumulated little hydrogen and helium—not more than 1 MEarth each. Uranus and Neptune are sometimes referred to as failed cores.[42] The main problem with formation theories for these planets is the timescale of their formation. At the current locations it would have taken millions of years for their cores to accrete.[41] This means that Uranus and Neptune may have formed closer to the Sun—near or even between Jupiter and Saturn—and later migrated or were ejected outward (see Planetary migration below).[42][43] Motion in the planetesimal era was not all inward toward the Sun; the Stardust sample return from Comet Wild 2 has suggested that materials from the early formation of the Solar System migrated from the warmer inner Solar System to the region of the Kuiper belt.[44]

After between three and ten million years,[34] the young Sun's solar wind would have cleared away all the gas and dust in the protoplanetary disc, blowing it into interstellar space, thus ending the growth of the planets.[45][46]

---

There is more information in the linked article and there is a great deal more technical information available on the net.

Yep, it's hardly some well kept secret or anything. Folks have been working it out for thousands of years now.

 

[EMH]

In the beginning God created the heaven and the earth.

And the earth was without form, and void; and darkness was upon the face of the deep. And the Spirit of God moved upon the face of the waters.

And God said, Let there be light: and there was light....

So God took a full 7 days to make Earth, and snapped his fingers and created the rest of the universe... got it...

Are stars the size of figs?

stars fell from sky fig leaves - Google Search

 

[Woodznutz]

So God took a full 7 days to make Earth, and snapped his fingers and created the rest of the universe... got it...

Are stars the size of figs?

stars fell from sky fig leaves - Google Search

God didn't assign time as we know it until the restoration of the surface of the earth in Genesis 1. Prior to that only God knows what time was. The age of the universe as proposed by scientists is nothing more than WAG's (wild-ass guess).

 

[ReinyDays]

So God took a full 7 days to make Earth, and snapped his fingers and created the rest of the universe... got it...

Are stars the size of figs?

stars fell from sky fig leaves - Google Search

As uninformed about religion as you are about science I see ... God created the Earth on the Third Day ... a single day ... He rested on the Seventh Day ...