Fifth Giant
Orbital characteristics | |
---|---|
9 AU (hypothesized) | |
60-70 Earth years (hypothesized, formerly) | |
Star | Sun (formerly) |
Physical characteristics | |
Mass | 15 Earth masses (hypothesized) |
Mean density | 1.27 g/cm³ (hypothesized) |
The Fifth Giant is a hypothetical ice giant proposed as part of the Five-Planet Nice Model, an extension of the Nice Model of solar system evolution. This hypothesis suggests that the early Solar System once contained a fifth giant planet in addition to the four currently known giant planets: Jupiter, Saturn, Uranus, and Neptune.[1] The Fifth Giant is theorized to have been ejected from the Solar System due to gravitational interactions during the chaotic phase of planetary migration, approximately 4 billion years ago.[2]
Background
[edit]The Nice Model, developed in the early 2000s, describes the dynamical evolution of the Solar System following the dissipation of the protoplanetary disk. It posits that the giant planets initially formed in a more compact configuration and subsequently migrated to their current orbits due to interactions with a massive disk of planetesimals.[1] These interactions are believed to have triggered a period of orbital instability, resulting in the dispersal of the planetesimal disk and the capture of irregular moons.[2]
The addition of a fifth giant planet to this model arose as researchers attempted to resolve discrepancies between the Nice Model's predictions and observational data, particularly regarding the current orbital distribution of the outer planets and the Kuiper Belt.[1][2]
Characteristics
[edit]The Fifth Giant is hypothesized to have been an ice giant, similar in composition to Uranus and Neptune. It likely had a mass between 10 and 20 Earth masses and an orbit initially located between those of Saturn and Uranus.[1] Computer simulations indicate that such a planet could have influenced the dynamical evolution of the Solar System, shaping the orbits of the outer planets and accounting for the observed gaps in the Kuiper Belt.[1][2]
Ejection Mechanism
[edit]The ejection of the Fifth Giant is believed to have occurred during the early Solar System's period of instability, when gravitational interactions between the giant planets became chaotic.[3] The planet likely encountered a series of close gravitational encounters with Jupiter or Saturn, resulting in its eventual expulsion from the Solar System.[1][3] Such an event would have minimized the disruption to the orbits of the remaining planets while aligning with constraints derived from their current orbital architecture.[4]
The ejection process may have also played a role in scattering planetesimals to form the Oort Cloud or altering the trajectories of comets and asteroids.[1]
Observational Evidence
[edit]Direct evidence for the Fifth Giant's existence is lacking, as the planet would have been ejected into interstellar space and is no longer gravitationally bound to the Sun. However, indirect evidence has been cited to support the hypothesis:
- Orbital Resonances: The current orbital spacing and resonances among the giant planets are better explained in simulations that include an additional giant planet.[1]
- Kuiper Belt Structure: The sculpting of the Kuiper Belt and the distribution of trans-Neptunian objects are more consistent with models involving a fifth giant planet.[1]
- Irregular Moons: The capture of irregular moons around Jupiter, Saturn, Uranus, and Neptune aligns with the chaotic conditions predicted during the Fifth Giant's ejection.[2]
Related Hypotheses
[edit]The concept of an additional giant planet is distinct from the search for Planet Nine, a hypothetical planet proposed to explain the clustering of certain trans-Neptunian objects.[5] While both hypotheses suggest the presence of a missing planet, the Fifth Giant would have been ejected billions of years ago,[3] whereas Planet Nine is theorized to remain within the Solar System.[6] However, it is possible that if Planet Nine exists, it could very well be the Fifth Giant as stated by Michael E. Brown during a Twitter inquiry.[7]
Implications
[edit]The Fifth Giant hypothesis has significant implications for understanding planetary formation and migration. It underscores the chaotic nature of early Solar System dynamics and highlights the role of planetary ejection in shaping the architecture of planetary systems. If proven, the existence of the Fifth Giant would offer insights into the processes that influence planetary system stability and evolution, both in the Solar System and in extrasolar systems.
See also
[edit]- Nice model
- Five-planet Nice model
- Planet Nine
- Jumping-Jupiter scenario
- Formation and evolution of the Solar System
- Kuiper belt
- Oort cloud
References
[edit]- ^ a b c d e f g h i "Young Solar System's Fifth Giant Planet?". IOPscience.
- ^ a b c d e "Did a 5th Giant Planet Mess up the Orbits of Jupiter, Saturn, Uranus and Neptune?". Universe Today.
- ^ a b c "Jumping Jupiter ejected fifth giant planet". Astronomy Now.
- ^ "A fifth gas giant ejected from our solar system?". EarthSky.
- ^ "Caltech Researchers Find Evidence of a Real Ninth Planet". NASA Astrobiology.
- ^ "Does Planet Nine really exist, or is it deep space fantasy?". The Hub.
- ^ Mike, Brown [@plutokiller] (November 18, 2017). "i'd say it's a good chance that Planet Nine is Nice planet #5" (Tweet). Retrieved 2017-11-26 – via Twitter.