Theia (planet) explained

Theia is a hypothesized ancient planet in the early Solar System which, according to the giant-impact hypothesis, collided with the early Earth around 4.5 billion years ago, with some of the resulting ejected debris coalescing to form the Moon. Collision simulations support the idea that the large low-shear-velocity provinces in the lower mantle may be remnants of Theia.^[1] Theia is hypothesized to have been about the size of Mars, and may have formed in the outer Solar System and provided much of Earth's water, though this is debated.^[2]

Name

In Greek mythology, Theia was one of the Titans, the sister of Hyperion whom she later married, and the mother of Helios the sun god, and Selene, the goddess of the Moon,^[3] a story that parallels the planet Theia's theorized role in creating the Moon.^[4]

Orbit

Theia is hypothesized to have orbited in the L₄ or L₅ configuration presented by the Earth–Sun system, where it would tend to remain. If this were the case it might have grown to a size comparable to Mars, with a diameter of about 6102km (3,792miles). Gravitational perturbations by Venus could have put it onto a collision course with the early Earth.

Collision

According to the giant impact hypothesis, Theia orbited the Sun, nearly along the orbit of the proto-Earth, by staying close to one or the other of the Sun-Earth system's two more stable Lagrangian points (i.e., either L₄ or L₅). Theia was eventually perturbed away from that relationship by the gravitational influence of Jupiter, Venus, or both, resulting in a collision between Theia and Earth.

Initially, the hypothesis supposed that Theia had struck Earth with a glancing blow and ejected many pieces of both the proto-Earth and Theia, those pieces either forming one body that became the Moon or forming two moons that eventually merged to form the Moon.^[5] Such accounts assumed that a head-on impact would have destroyed both planets, creating a short-lived second asteroid belt between the orbits of Venus and Mars.

In contrast, evidence published in January 2016 suggests that the impact was indeed a head-on collision and that Theia's remains are on Earth and the Moon.^{[6] [7]}

Hypotheses

See main article: Origin of the Moon. From the beginning of modern astronomy, there have been at least four hypotheses for the origin of the Moon:

1. A single body split into Earth and Moon
2. The Moon was captured by Earth's gravity (as most of the outer planets' smaller moons were captured)
3. The Earth and Moon formed at the same time when the protoplanetary disk accreted
4. The Theia-impact scenario described above

The lunar rock samples retrieved by Apollo astronauts were found to be very similar in composition to Earth's crust, and so were likely removed from Earth in some violent event.

It is possible that the large low-shear-velocity provinces detected deep in Earth's mantle may be fragments of Theia. In 2023, computer simulations reinforced that hypothesis.

See also

• Disrupted planet
• Nibiru cataclysm
• Phaeton (hypothetical planet)
• Synestia

Notes and References

1. News: Blobs near Earth's core are remnants of collision with another planet, study says . Ian. Sample. November 1, 2023. The Guardian.
2. Meier . M. M. M. . Reufer . A. . Wieler . R. . 2014-11-01 . On the origin and composition of Theia: Constraints from new models of the Giant Impact . Icarus . 242 . 316–328 . 10.1016/j.icarus.2014.08.003 . 0019-1035. 1410.3819 . 2014Icar..242..316M .
3. Book: Murdin. Paul. Rock Legends: The Asteroids and Their Discoverers. 2016. Springer. 9783319318363. 10.1007/978-3-319-31836-3. 178. 2016rlat.book.....M .
4. Web site: Selene | Origin and meaning of selene by Online Etymology Dictionary.
5. "Faceoff! The Moon's oddly different sides", Astronomy, August 2014, 44–49.
6. Young . E. D. . Kohl . I. E. . Warren . P. H. . Rubie . D. C. . Jacobson . S. A. . Morbidelli . A. . Oxygen isotopic evidence for vigorous mixing during the Moon-forming giant impact . Science . 28 January 2016 . 351 . 6272 . 493–496 . 10.1126/science.aad0525. 26823426 . 1603.04536 . 2016Sci...351..493Y . 6548599 .
7. Web site: Wolpert. Stuart. Moon was produced by a head-on collision between Earth and a forming planet. January 28, 2016. UCLA newsroom. UCLA.