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Effect of tidal forces on an orbiting body
Tidal circularization or orbital circularization is an effect of the tidal forces between a body in orbit around a central celestial object, whereby the
Tidal_circularization
Narrow seaway connecting two bodies of water
trap (geology) Tidal circularization Longhitano, Sergio G.; Mellere, Donatella; Steel, Ronald J.; Ainsworth, R. Bruce (April 9, 2012). "Tidal depositional
Tidal_strait
Orbital and friction heating on a planet or moon oceans, or interior
orbit (tidal circularization) and the rotational periods of the two bodies adjust towards matching the orbital period (tidal locking). Sustained tidal heating
Tidal_heating
Astronomical phenomenon
"Formation of Hot Planets by a Combination of Planet Scattering, Tidal Circularization, and the Kozai Mechanism". The Astrophysical Journal. 678 (1): 498–508
Planetary_migration
orbits, i.e. very low eccentricity. That is thought to be due to tidal circularization: reduction of eccentricity over time due to gravitational interaction
Exoplanet orbital and physical parameters
Exoplanet_orbital_and_physical_parameters
Moon of dwarf planet Quaoar
collisions with other bodies, gravitational perturbations, slow tidal circularization, or an origin as a collisionally-ejected fragment of Quaoar. Uncertainties
Weywot
Amount by which an orbit deviates from a perfect circle
near-circular orbits and other unique features. Equation of time Tidal circularization While its orbit was initially hyperbolic, it would be bound to the
Orbital_eccentricity
Extrasolar planet in the constellation Microscopium
orbit is also slightly eccentric, which is surprising given the tidal circularization timescale of below 650 million years. The measured temperature on
WASP-7_b
White dwarf located in the constellation Draco
higher than the equilibrium temperature of 160 K, indicating that tidal circularization heated the planet during the migration to its current orbit. A search
WD_1856+534
Supermassive Neptune-sized planet
orbital inclination is aligned with its star's rotation due to tidal interactions. Tidal interactions between the planet and its star are also predicted
TOI-1853_b
Satellites that formed around their parent planet
increase a moon's inclination, tidal effects work to eventually decrease it back to a coplanar state. Likewise, tidal circularization acts to decrease the eccentricity
Regular_moon
Innermost Galilean moon of Jupiter
this varying tidal pull, which, without the resonant orbit, would have gone into circularizing Io's orbit instead, creates significant tidal heating within
Io_(moon)
Large plutino with moon
The moon is predicted to have a non-circular orbit due to weak tidal circularization by Achlys. The moon is 5.0±0.3 magnitudes fainter than Achlys, which
208996_Achlys
Eccentric super-Jupiter orbiting Kepler-1704
from its birth orbit to orbit with a periastron just above the tidal circularization distance. Kepler-1704b is much more massive than Jupiter, at 4.51
Kepler-1704b
Hypotheses about Triton's origin
of tidal heating decreases during the circularization process, an ice shell grows atop the liquid water ocean, slowing the rate of cooling; tidal heating
Capture_of_Triton
Region around stars where hot Neptunes are rare
tidal interactions (tidal heating) with its host star. Over time, the planet expands and loses most of its atmosphere, and its orbit becomes tidally circularized
Neptunian_desert
Star system in the constellation Hercules
of tidal interaction models. The expected tidal circularization and inspiral time for the system, depending on the choice of the values for the tidal quality
TOI-2119
Process that leads to gradual decrease of the distance between two orbiting bodies
orbital boosting may not be needed. An orbit can also decay by negative tidal acceleration when the orbiting body is below the synchronous orbit. This
Orbital_decay
Astronomical body that orbits a planet
its planet. This phenomenon comes about through a loss of energy due to tidal forces raised by the planet, slowing the rotation of the satellite until
Natural_satellite
Star in the constellation Virgo
system. Over time, the mutual tidal interaction of the pair may lead to rotational synchronization and orbit circularization. Spica is a polarimetric variable
Spica
Hot-Jupiter exoplanet orbiting the star HD 185269
about one week. Most hot Jupiters are thought to have undergone tidal circularization, making the eccentricity of HD 185269 b (e=0.3) unusual. Despite
HD_185269_b
Possible dwarf planet
Salacia (0.041±0.004). The Salacia system has undergone enough tidal evolution to circularize its orbit, which matches the low measured eccentricity. The
120347_Salacia
Moon of 120347 Salacia
enough tidal evolution to circularize their orbits, which is consistent with the low measured eccentricity, but that the primary need not to be tidally locked
Actaea_(moon)
Moon of the dwarf planet Gonggong
an intrinsically eccentric orbit or by slow tidal evolution, in which the time for its orbit to circularize is comparable to the age of the Solar System
Xiangliu_(moon)
Largest moon of Neptune
interior. This source of internal heat disappeared following tidal locking and circularization of the orbit. Two types of mechanisms have been proposed for
Triton_(moon)
Super-Earth orbiting LHS 1140
eccentricity is measured to be lower than 0.29 to a 90% confidence. The circularization of the orbit cannot be explained by stellar tides, and thus the circularity
LHS_1140_b
High-mass planet orbiting close to a star
encounter with another massive planet, followed by the circularization and shrinking of the orbits due to tidal interactions with the star. A hot Jupiter's orbit
Hot_Jupiter
Smaller and outer moon of Mars
from the asteroid belt, with orbits that have been circularized either by atmospheric drag or tidal forces, as capture requires dissipation of energy.
Deimos_(moon)
Natural satellites of the planet Mars
moons are tidally locked, always presenting the same face towards Mars. Since Phobos orbits Mars faster than the planet itself rotates, tidal forces are
Moons_of_Mars
Moon of Eris
of Dysnomia suggest that its orbit should have completely circularized through mutual tidal interactions with Eris within timescales of 5–17 million years
Dysnomia_(moon)
Volcanism of Io, a moon of Jupiter
eccentricity and prevents tidal dissipation within Io from circularizing its orbit. The eccentricity leads to vertical differences in Io's tidal bulge of as much
Volcanism_on_Io
Largest type of black hole
classifications. First, the tidal forces near the event horizon are significantly weaker for supermassive black holes. The tidal force on a body at a black
Supermassive_black_hole
Astronomical theory about the Solar System
orbits with a perihelion near the star followed by the circularization of its orbit due to tidal interactions with the star can leave a planet on a close
Nebular_hypothesis
Planet outside of the Solar System
Meadows, V. S.; Kasting, J. F.; Heller, R. (2013). "Tidal Venuses: Triggering a Climate Catastrophe via Tidal Heating". Astrobiology. 13 (3): 225–250. arXiv:1203
Exoplanet
Binary star system in the northern constellation of Auriga
Khaliullin, Kh F.; Khaliullina, A. I. (January 2010), "Synchronization and circularization in early-type binaries on main sequence", Monthly Notices of the Royal
Beta_Aurigae
Super-Earth orbiting Gliese 876
(3.11 million km). At this distance from the star, tidal interactions should in theory circularize the orbit; however, measurements reveal that it has
Gliese_876_d
Fifth planet from the Sun
the same point in every orbit it makes. The tidal force from Jupiter, on the other hand, works to circularize their orbits. The eccentricity of their orbits
Jupiter
Super Jupiter orbiting HAT-P-7
turn excited the eccentricity of the primordial planet, until tidal forces circularized the planet's orbit and HAT-P-7b migrated to its current position
HAT-P-7b
Binary star in the constellation Fornax
The orbit has been circularized by tidal forces between the stars, but only the more massive component has had its rotation tidally synchronized with the
TZ_Fornacis
Star in the constellation Taurus
period of 5.96 days and an eccentricity of 0.00. Tidal effects between the pair may have circularized their orbit and slowed their rotation rates – the
136_Tauri
Geologic structure and composition of Triton
Triton, rapidly differentiating it. As Triton's orbit circularized due to tidal damping, tidal heating from eccentricity disappeared. However, calculated
Geology_of_Triton
Small moon of Neptune
then accreted from the resulting rubble after Triton's orbit was circularized by tidal deceleration. Among these re-accreted moons are Proteus, the largest
Hippocamp_(moon)
Crater on Proteus
fracturing on Proteus may be the result of partial relaxation of Pharos, or tidal stresses from the reorientation of Proteus due to the Pharos impact. The
Pharos_(crater)
Minor planet found within the inner Solar System
equatorial plane, most probably by a combination of atmospheric drag and tidal forces, although it is not clear whether sufficient time was available for
Asteroid
Concepts for launch into space
if launching to low Earth orbit, due to the requirement for orbit circularization, at a minimum entailing approximately 1.5 percent of the total delta-v
Non-rocket_spacelaunch
Moon of Orcus
molten for at least 10,000 years for tidal interactions to tidally lock both components and expand and circularize Vanth's orbit before the present day
Vanth_(moon)
Concept of collecting solar power in outer space and distributing it to Earth
not need to support itself against gravity (other than relatively weak tidal stresses). It needs no protection from terrestrial wind or weather, but
Space-based_solar_power
Layer of gases surrounding an astronomical body held by gravity
gravitational interaction, the orbit of the planet becomes circularized and it is tidally locked into a synchronous rotation with one side constantly
Atmosphere
Binary star system in the constellation Virgo
to the line of sight from the Earth. Tidal theory predicts that eventually the orbit of the stars will circularize and their rotation rates will become
Lambda_Virginis
Binary star system in the constellation Cepheus
orbit having a period of 2.11 days, and the orbit is assumed to have circularized. The orbital plane is estimated to be inclined by an angle of 47°±1°
DH_Cephei
the varying tidal pull of Jupiter on Io resulting from Io's Laplace resonance with Europa and Ganymede not allowing its orbit to circularize. Their calculations
Exploration_of_Io
European space telescope that operated between 2006 - 2014
CoRoT-23b, four hot Jupiters which are on an eccentric orbits, despite circularization is theoretically predicted for such small orbits: this is a clear constraint
CoRoT
Genus of single-celled organisms
that the two lineages have different ecophysiology. O. maritima lives in tidal pools with a relatively high salinity and temperature, while O. marina lives
Oxyrrhis
TIDAL CIRCULARIZATION
TIDAL CIRCULARIZATION
Boy/Male
Arabic, Australian, Muslim
Striving; Fight; Defence
Male
Hebrew
Variant spelling of Hebrew Gidel, GIDAL means "too great; giant."
Boy/Male
Muslim
Fight, Defense
Girl/Female
African, Arabic, Muslim, Swahili
Symmetry
Boy/Male
American, Australian, Bengali, British, English, French, Hebrew, Hindu, Indian, Latin, Marathi, Portuguese, Spanish
Life; Used as Both Surname and Given Name; Life Giving
Male
Spanish
Spanish form of Roman Latin Vitalis, VIDAL means "of life; vital."
Boy/Male
British, English
Harmful
Boy/Male
American, British, English
From the Yew Tree Valley
Boy/Male
Indian
Fight, Defense
Boy/Male
Arabic, Muslim
Moderateness; Clemency
Biblical
that breaks the yoke; knowledge of elevation
Boy/Male
Latin
Faithful.
Boy/Male
Indian
Amazing
Girl/Female
Biblical
That breaks the yoke, knowledge of elevation.
Boy/Male
Latin English French Portuguese Spanish
Life.
Boy/Male
Muslim/Islamic
Fight defence
Boy/Male
Muslim
Amazing
Surname or Lastname
English (Devon and Cornwall)
English (Devon and Cornwall) : topographic name for someone who lived by a tidal creek or an inlet of the sea, Old English pyll, or a habitational name from Pylle in Somerset, which was named with this word.English (Devon and Cornwall) : descriptive nickname for a small, rotund person, from Middle English, Old French pil(l)e ‘ball’.
Surname or Lastname
English (mainly Devon)
English (mainly Devon) : from Old French pilleur ‘plunderer’, formerly used as a nickname for a bailiff.English (mainly Devon) : topographic name for someone who lived by a tidal creek (see Pill, Pyle).English (mainly Devon) : topographic name from Old French piler ‘pillar’.
TIDAL CIRCULARIZATION
TIDAL CIRCULARIZATION
Girl/Female
Indian
Gods immortalizing nectar
Girl/Female
Muslim/Islamic
She was a poetess
Girl/Female
Arabic, Muslim
The Wife of Hazrat Ismail (PBUH)
Biblical
vulture, raven; an isle; alas, where is it?
Boy/Male
Slavic
Victorious; conquerer of the people.
Boy/Male
Hindu, Indian, Parsi
Golden Ox
Male
English
English variant spelling of French Dion, DEONNE means "god, Zeus."
Surname or Lastname
English
English : patronymic form of Dodge.
Boy/Male
American, Australian, Hebrew
God is My Judge
Boy/Male
Indian
Wise
TIDAL CIRCULARIZATION
TIDAL CIRCULARIZATION
TIDAL CIRCULARIZATION
TIDAL CIRCULARIZATION
TIDAL CIRCULARIZATION
n.
Less properly, a very high and rapid tidal flow, when not so abrupt, such as occurs at the Bay of Fundy and in the British Channel.
a.
Of or pertaining to tides; caused by tides; having tides; periodically rising and falling, or following and ebbing; as, tidal waters.
a.
Pertaining to tidal movements dependent on the moon.
n.
A bean-shaped coin of Siam, worth about sixty cents; also, a weight equal to 236 grains troy.
n.
The tidal setting in of the water from the ocean to the shore. See Ebb and flow, under Ebb.
n.
Same as Asafetida.
n.
The reflux or flowing back of the tide; the return of the tidal wave toward the sea; -- opposed to flood; as, the boats will go out on the ebb.
n.
An attendant on an army.
n.
A money of account in China, reckoning at about $1.60; also, a weight of about four ounces avoirdupois.
n.
The blue titmouse.
n.
A kind of triangular spade.
n.
A petty officer among lascars, or native East Indian sailors; a boatswain's mate; a cockswain.
n.
A tidal flood which regularly or occasionally rushes into certain rivers of peculiar configuration or location, in one or more waves which present a very abrupt front of considerable height, dangerous to shipping, as at the mouth of the Amazon, in South America, the Hoogly and Indus, in India, and the Tsien-tang, in China.