There is evidence for Trojan - type regions in other exoplanet systems and planet formation theory shows that these regions can exist long
after planets form in solar systems.
The discovery indicates that life may have begun shortly
after the planet formed 4.54 billion years ago.
Now, geologists at MIT have traced part of Mercury's cooling history and found that between 4.2 and 3.7 billion years ago, soon
after the planet formed, its interior temperatures plummeted by 240 degrees Celsius, or 464 degrees Fahrenheit.
The findings indicate that the ocean was teeming with primitive organisms 3.2 billion years ago, just over a billion years
after the planet formed.
Not exact matches
«If Jupiter or Neptune had migrated inward
after the terrestrial
planets formed, it seems unlikely that our Solar System would have an Earth, or any of the terrestrial
planets at all,» he told Phys.org.
--
After creating the entire universe containing billions of stars, God focuses all his attention on one
planet revolving around one star, terraforms it, and creates life, one
form of which he claims is in «his image.»
What if the meteorites
formed after the
planets?
But even
after that, it took a long time for atoms to
form into stars, where they were turned into heavier elements and eventually
formed into
planets and other large bodies.
Precious Metals the Result of Meteorite Bombardment, Rock Analysis Finds Sep. 9, 2011 — Ultra high precision analyses of some of the oldest rock samples on Earth by researchers at the University of Bristol provides clear evidence that the
planet's accessible reserves of precious metals are the result of a bombardment of meteorites more than 200 million years
after Earth was
formed.
Precious metals the result of meteorite bombardment, rock analysis finds Date: September 9, 2011 Source: University of Bristol Summary: Ultra high precision analyses of some of the oldest rock samples on Earth provides clear evidence that the
planet's accessible reserves of precious metals are the result of a bombardment of meteorites more than 200 million years
after Earth was
formed.
Using god for science is wrong.Materials be came present
after the big bang as atoms.Eventually processes started which created rock.Our
planet came together with many materials, such as gold, platinum and others.When a rainforest dies when it dries up, gets buried and compresses to
form coal.Oil is made from sea organisms that die and get buried.The brain uses algorithms to process information.God does not need to be included.
Only
after these voyages were humans able to draw a reasonably reliable map of the
planet's surface, showing how the various continents and islands each
form part of one global world.
Plants came out upon the land some six hundred million years ago,
after the
planet earth had shaped itself through a great series of transformations
forming the continents, the mountains, the valleys, the rivers and streams.
Is it «immoral» for the religious to believe in an afterlife once one dies
after living a most perplexing life here upon a
planet that has manifested millions upon millions of multi-diversities in living embolisms of Life sustaining
forms and formations that permeate the grounds and the waters and the air?
As for Christ, we who call ourselves Christians regard him as the uniquely great teacher and very special manifestation of God in our midst: one who shared our existence on
planet earth, bore our sins, gave his life for us, and miraculously reappeared to his disciples and others
after death — in what
form, we do not know.
, then the rest of the universe would
form, then eventually much much much much later
AFTER the sun
forms, the earth would
form, and our
planet would develope from there (you're right, land came before water, but the bible says otherwise).
Sep. 9, 2011 — Ultra high precision analyses of some of the oldest rock samples on Earth by researchers at the University of Bristol provides clear evidence that the
planet's accessible reserves of precious metals are the result of a bombardment of meteorites more than 200 million years
after Earth was
formed.
- Wenger can be so insane to do it.The man is out of this world and complety insane.He can not see what it is obvious for the entire world.To have better players on the bench and to keep favouring the same out - of -
form or not good enough players week
after week is madness.To play for draw from the beginning against an awful team which got beaten by the entire league on a daily bases - this is something unimaginable.It is not Mertesacker fault for being embarrased by any player on the
planet, it is the manager fault for exposing him as a laughing point of focus.Wenger must go, the man is deluded, he is scarred to take any risk for success.Well, guess what - only showing courage and breaking the risk can bring you success.Not the case - I predict a chain of defeats following, with the cherry on top being a big defeat against Spurs - a team which, despite our hate, plays real football (with great results I must say).
As the ring system spits out moonlet
after moonlet, the small objects merge to
form larger moons, which may merge in turn as they spiral outward from the
planet.
He says the dearth of nearby
planets suggests that the hot Jupiters
formed farther out, and
after a run - in with another
planet or star, were pushed onto elongated orbits that ultimately led them to cross paths with any
planets between their original orbits and the sun.
After Earth was born a
planet crashed into it, blasting a huge cloud of material into orbit, where it coalesced to
form the moon.
Bottke's group have shown in a simulation that a small number of large rocks came to dominate the solar system soon
after the
planets were completely
formed (Science, vol 330, p 1527).
After comparing it with domes on Earth, scientists now believe Ahuna Mons
formed when a slushy mix of internal ice and natural antifreeze reached the surface along a duct — just as magma builds volcanoes on our
planet.
Soon
after a giant
planet forms, its gravity sweeps out a ring - shaped gap in the disk.
She also examined the question of how long it would take oceans to
form after the
planet cooled enough for its crust to solidify.
The prevailing view has been that
planets mostly accumulate water only long
after they
form: If a young
planet with water trapped in its rocks collides with another heavenly body or even large debris — common occurrences in the cosmos — the impact would, presumably, drive accumulated water into space, leaving many
planets bone - dry.
New research suggests that repeated exposure to galactic cosmic rays and other
forms of radiation would be debilitating — astronauts could suffer brain damage or develop leukemia
after reaching the Red
Planet — and ultimately deadly.
Although they look just like asteroids, scientists now say they
formed like our own moon did,
after a big object smashed into the
planet and kicked up debris.
But small
planets and moons cool too quickly for a magnetic field to be maintained there by convection several billions of years
after they
form.
Formed a billion years
after the Big Bang, the universe's oldest and most distant known
planet circles a collapsed star, or pulsar (green circle), in the globular cluster M4, which is 5,000 light - years away from Earth.
After years of searching, researchers recover tiny bits of the stuff that
forms planets and people
The Red
Planet has never been a tropical paradise, but
after investigating how a canyon in south - central Idaho
formed, a group of terrestrial geologists is now questioning whether early Mars had even the minimal conditions for life.
The largest stars explode soon
after birth, rocking their cradles and enriching their galaxies with
planet - and life -
forming materials such as oxygen and iron, while stars born small live quiet lives and make little contribution to their galactic homes.
Astronomers believe it
formed after a giant
planet between 1 and 20 times the mass of Jupiter was scattered out of the main disc by gravitational interactions with other bodies there.
This means that the disc may not be leftover debris from the formation of
planets after all, and that the star may instead still be
forming planets.
Planet Earth was blue long before we knew Earth may have become a watery world just 200 million years
after it
formed, making it a potential home for life hundreds of million years earlier than thought.
Now, planetary scientists have conducted the first computer simulations that bolster a controversial alternative idea: The satellites
formed as our own moon did,
after a big object smashed into the
planet and kicked up debris.
Pan orbits Saturn in a gap in the
planet's rings and pulls material from them, so the ridge around it likely started accumulating soon
after the moon
formed, researchers say.
Perhaps Charon and the smaller moons
formed during a tremendous collision, similar to the way theorists believe Earth's moon
formed after our
planet collided with a Mars - size body 4.5 billion years ago.
COOKIN»
After colliding with a
planet - sized rock, the early Earth may have existed as a hot cloud of vapor and rock (illustrated), from which the moon also may have
formed.
After the researchers analyzed the inclusions — each just 15 to 40 microns wide, or one - sixth to two - fifths of the diameter of a human hair — they found the inclusions contained the entire range of minerals one would expect of a volcanic rock called basalt that originally
formed at the
planet's surface and then crystallized under extreme high pressures and temperatures.
The team showed through isotope analyses of meteorites that Jupiter's solid core
formed within only about 1 million years
after the start of the solar system history, making it the oldest
planet.
The astronomers believe that the orbits of the
planets was disturbed by a violent event
after the planetary system had already
formed.
In the standard model, it was believed that
planets like the Earth and Jupiter around the Sun would be
formed after the central star of the solar system (the Sun) has grown mature to a certain phase.
Under this model of ocean formation, rocky
planets with 0.5 to five Earth - masses are likely to
form oceans within the first 150 million years
after formation.
It is commonly believed that the
planets Uranus and Neptune migrated out to their present orbits
after forming closer to the sun and then gravitationally interacted with smaller bodies.
By studying these stars, and using additional telescope facilities such as the powerful Atacama Large Millimeter / submillimeter Array (ALMA) in Chile, the study will provide new and unique insight into the timescale for the formation of stars and
planets, including whether
planets form during or
after the assembly of the star.
After some million years, the gas and dust of the nebula will have been used up for
forming stars (and
planets), or blown away by the stellar winds of the young hot stars.
After a great deal of analysis the OGLE team finally concluded that the system must have
formed in a similar way to how a star /
planet / moon system must
form and could serve as a «missing link» between what we know about
planet formation and what we hope to learn about moon formation.
I'm very curious to continue to study this system to figure out whether the
planet formed in that odd orbit or if it moved there
after encountering another
planet or one of the double stars.»