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Makemake

January 07, 2023

This article is about the planetoid. For the Rapa Nui god, see Makemake (deity). For other uses, see Makemake (disambiguation).

Makemake[e] (minor-planet designation 136472 Makemake) is a dwarf planet and the second-largest of what are known as the classical population of Kuiper belt objects,[a] with a diameter approximately 60% that of Pluto.[24][25] It has one known satellite.[26] Its extremely low average temperature, about 40 K (−230 °C), means its surface is covered with methane, ethane, and possibly nitrogen ices.[21]

136472 Makemake
Makemake and its moon, as seen by the Hubble Space Telescope
Discovery
Discovered by
Discovery dateMarch 31, 2005
Designations
(136472) Makemake
PronunciationUK: /ˌmækiˈmæki/, US: /ˌmɑːkiˈmɑːki/ or /ˌmɑːkˈmɑːk/ (listen)[b]
Named after
Makemake
2005 FY9
Dwarf planet
cubewano[1]
scattered-near[a]
AdjectivesMakemakean[6][7]
Orbital characteristics[9]
Epoch May 31, 2020
(JD 2458900.5)
Earliest precovery dateJanuary 29, 1955
Aphelion52.756 AU (7.8922 Tm)
Perihelion38.104 AU (5.7003 Tm)
45.430 AU (6.7962 Tm)
Eccentricity0.16126
306.21 yr (111,845 d)
4.419 km/s
165.514°
Inclination28.9835°
79.620°
17 November 2186[8]
294.834°
Known satellites1
Physical characteristics
Dimensions
(1434+48
−18) × projected (1420+18
−24 km)[10]
Mean radius
Flattening0.0098[c]
6.42×106 km2[d][11]
Volume1.53×109 km3[d][12]
Mass≈ 3.1×1021 kg[13]
Mean density
≈ 1.7 g/cm3 (using Ortiz et al. 2012 radius)
≈ 2.1 g/cm3 (using Brown 2013 radius[10])[13]
Equatorial surface gravity
< 0.57 m/s2
Equatorial escape velocity
< 0.91 km/s
22.8266±0.0001 h[14]
0.82±0.02 geometric[14]
0.74±0.06 Bond[15]
Temperature32–36 K (single-terrain model)
40–44 K (two-terrain model)[16]
B−V=0.83, V−R=0.5[17]
17.0 (opposition)[18][19]
−0.12[9]
0.049±0.020[14]

Makemake was discovered on March 31, 2005 by a team led by Michael E. Brown, and announced on July 29, 2005. It was initially known as 2005 FY9 and later given the minor-planet number 136472. In July 2008, it was named after Makemake, a creator god in the Rapa Nui mythology of Easter Island, under the expectation by the International Astronomical Union (IAU) that it would prove to be a dwarf planet.[25][27][28][29]

History

Discovery

Makemake was discovered on March 31, 2005, by a team at the Palomar Observatory, led by Michael E. Brown,[9] and was announced to the public on July 29, 2005. The team had planned to delay announcing their discoveries of the bright objects Makemake and Eris until further observations and calculations were complete, but announced them both on July 29 when the discovery of another large object they had been tracking, Haumea, was controversially announced on July 27 by a different team in Spain.[30]

The earliest known precovery observations of Makemake have been found in photographic plates of the Palomar Observatory's Digitized Sky Survey from January 29, 1955 to May 1, 1998.[31]

Despite its relative brightness (a fifth as bright as Pluto),[f] Makemake was not discovered until after many much fainter Kuiper belt objects. Most searches for minor planets are conducted relatively close to the ecliptic (the region of the sky that the Sun, Moon and planets appear to lie in, as seen from Earth), due to the greater likelihood of finding objects there. It probably escaped detection during the earlier surveys due to its relatively high orbital inclination, and the fact that it was at its farthest distance from the ecliptic at the time of its discovery, in the northern constellation of Coma Berenices.[19]

Makemake is the brightest trans-Neptunian object after Pluto,[33] with an apparent magnitude of 16.2 in late 1930,[34] it is theoretically bright enough to have been discovered by Clyde Tombaugh, whose search for trans-Neptunian objects was sensitive to objects up to magnitude 17. Indeed, in 1934 Tombaugh reported that there were no other planets out to a magnitude of 16.5 and an inclination of 17 degrees, or of greater inclination but within 50 degrees of either node.[35] And Makemake was there: At the time of Tombaugh's survey (1930–1943), Makemake varied from 5.5 to 13.2 degrees from the ecliptic,[34] moving across Auriga, starting near the northwest corner of Taurus and cutting across a corner of Gemini.[g] The starting position, however, was very close to the galactic anticenter, and Makemake would have been almost impossible to find against the dense background of stars.[dubious discuss] Tombaugh continued searching for thirteen years after his discovery of Pluto (and Makemake, though growing dimmer, was still magnitude 16.6 in early 1943, the last year of his search),[34] but by then he was searching higher latitudes and did not find any more objects orbiting beyond Neptune.[36]

Name and symbol

The provisional designation 2005 FY9 was given to Makemake when the discovery was made public. Before that, the discovery team used the codename "Easterbunny" for the object, because of its discovery shortly after Easter.[2]

In July 2008, in accordance with IAU rules for classical Kuiper belt objects, 2005 FY9 was given the name of a creator deity.[37] The name of Makemake, the creator of humanity and god of fertility in the myths of the Rapa Nui, the native people of Easter Island,[28] was chosen in part to preserve the object's connection with Easter.[2]

Planetary symbols are no longer much used in astronomy. A Makemake symbol ( ) is included in Unicode as U+1F77C:[38] it is mostly used by astrologers,[39] but has also been used by NASA.[40] The symbol was designed by Denis Moskowitz and John T. Whelan; it is a traditional petroglyph of Makemake's face stylized to resemble an 'M'.[41] The commercial Solar Fire astrology software uses an alternative symbol ( ),[39] a crossed variant of a symbol ( ) created by astrologer Henry Seltzer for his commercial software.

Orbit and classification

 
Orbits of Makemake (blue), Haumea (green), contrasted with the orbit of Pluto (red) and the ecliptic (grey). The perihelia (q) and the aphelia (Q) are marked with the dates of passage. The positions in April 2006 are marked with the spheres illustrating relative sizes and differences in albedo and colour.
 
Makemake's orbit outside of Neptune is similar to Haumea's. The positions are as of 1 January 2018.

As of April 2019, Makemake was 52.5 AU (7.85 billion km) from the Sun,[18][19] almost as far from the Sun as it ever reaches on its orbit.[21] Makemake follows an orbit very similar to that of Haumea: highly inclined at 29° and a moderate eccentricity of about 0.16.[42] But still, Makemake's orbit is slightly farther from the Sun in terms of both the semi-major axis and perihelion. Its orbital period is 306 years,[9] more than Pluto's 248 years and Haumea's 283 years. Both Makemake and Haumea are currently far from the ecliptic (at an angular distance of almost 29°). Makemake will reach its aphelion in 2033,[19] whereas Haumea passed its aphelion in early 1992.[43]

Makemake is a classical Kuiper belt object (KBO),[1][a] which means its orbit lies far enough from Neptune to remain stable over the age of the Solar System.[44][45] Unlike plutinos, which can cross Neptune's orbit due to their 2:3 resonance with the planet, the classical objects have perihelia further from the Sun, free from Neptune's perturbation.[44] Such objects have relatively low eccentricities (e below 0.2) and orbit the Sun in much the same way the planets do. Makemake, however, is a member of the "dynamically hot" class of classical KBOs, meaning that it has a high inclination compared to others in its population.[46] Makemake is, probably coincidentally, near the 13:7 resonance with Neptune.[47]

Physical characteristics

Brightness, size, and rotation

 
Makemake (apparent magnitude 16.9) with edge-on galaxy IC 3587

Makemake is currently visually the second-brightest Kuiper belt object after Pluto,[33] having a March opposition apparent magnitude of 17.0[18] it will pass from its present constellation Coma Berenices to Boötes in December 2027.[19] It is bright enough to be visible using a high-end amateur telescope.

Combining the detection in infrared by the Spitzer Space Telescope and Herschel Space Telescope with the similarities of spectrum with Pluto yielded an estimated diameter from 1,360 to 1,480 km.[24] From the 2011 stellar occultation by Makemake, its dimensions had initially been measured at (1,502 ± 45) × (1,430 ± 9) km. However, the occultation data was later reanalyzed,[10] leading to an estimate of (1434+48
−18) × (1420+18
−24 km) without a pole-orientation constraint.[10] Makemake was the fourth dwarf planet recognized, because it has a bright V-band absolute magnitude of 0.05.[14] Makemake has a highly reflective surface with a geometrical albedo of 0.82±0.02.[14]

The rotation period of Makemake is estimated at 22.83 hours.[14] A rotation period of 7.77 hours published in 2009[48] later turned out to be an alias of the actual rotation period. The possibility of this had been mentioned in the 2009 study, and the data from that study agrees well with the 22.83-hour period.[14] This rotation period is relatively long for a dwarf planet. Part of this may be due to tidal acceleration from Makemake's satellite. It has been suggested that a second large, undiscovered satellite might better explain the dwarf planet's unusually long rotation.[14]

Makemake's lightcurve amplitude is small, only 0.03 mag.[10][14] This was thought to be due to Makemake currently being viewed pole on from Earth; however, S/2015 (136472) 1's orbital plane (which is probably orbiting with little inclination relative to Makemake's equator due to tidal effects) is edge-on from Earth, implying that Makemake is really being viewed equator-on.[49]

Spectra and surface

EarthMoonCharonCharonNixNixKerberosKerberosStyxStyxHydraHydraPlutoPlutoDysnomiaDysnomiaErisErisNamakaNamakaHi'iakaHi'iakaHaumeaHaumeaMakemakeMakemakeMK2MK2XiangliuXiangliuGonggongGonggongWeywotWeywotQuaoarQuaoarSednaSednaVanthVanthOrcusOrcusActaeaActaeaSalaciaSalacia2002 MS42002 MS4 
Artistic comparison of Pluto, Eris, Haumea, Makemake, Gonggong, Quaoar, Sedna, Orcus, Salacia, 2002 MS4, and Earth along with the Moon

Like Pluto, Makemake appears red in the visible spectrum, and significantly redder than the surface of Eris (see colour comparison of TNOs).[50] The near-infrared spectrum is marked by the presence of the broad methane (CH4) absorption bands. Methane is observed also on Pluto and Eris, but its spectral signature is much weaker.[50]

Spectral analysis of Makemake's surface revealed that methane must be present in the form of large grains at least one centimetre in size.[21] In addition to methane, large amounts of ethane and tholins as well as smaller amounts of ethylene, acetylene and high-mass alkanes (like propane) may be present, most likely created by photolysis of methane by solar radiation.[21][51] The tholins are probably responsible for the red color of the visible spectrum. Although evidence exists for the presence of nitrogen ice on its surface, at least mixed with other ices, there is nowhere near the same level of nitrogen as on Pluto and Triton, where it composes more than 98 percent of the crust. The relative lack of nitrogen ice suggests that its supply of nitrogen has somehow been depleted over the age of the Solar System.[21][52][53]

 
An artist's interpretation of the dwarf planet Makemake, depicted with its reddish surface and its moon

The far-infrared (24–70 μm) and submillimeter (70–500 μm) photometry performed by Spitzer and Herschel telescopes revealed that the surface of Makemake is not homogeneous. Although the majority of it is covered by nitrogen and methane ices, where the albedo ranges from 78 to 90%, there are small patches of dark terrain whose albedo is only 2 to 12%, and that make up 3 to 7% of the surface.[24] These studies were made before S/2015 (136472) 1 was discovered; thus, these small dark patches may actually have been the dark surface of the satellite rather than any actual surface features on Makemake.[54]

However, some experiments have refuted these studies. Spectroscopic studies, collected from 2005 to 2008 using the William Herschel Telescope (La Palma, Spain) were analyzed together with other spectra in the literature, as of 2014. They show some degree of variation in the spectral slope, which would be associated with different abundance of the complex organic materials, byproduct of the irradiation of the ices present on the surface of Makemake. However, the relative ratio of the two dominant icy species, methane and nitrogen, remains quite stable on the surface revealing a low degree of inhomogeneity in the ice component.[55] These results have been recently confirmed when the Telescopio Nazionale Galileo acquired new visible and near infra-red spectra for Makemake, between 2006 and 2013, that covered nearly 80% of its surface; this study found that the variation in the spectra were negligible, suggesting that Makemake's surface may indeed be homogenous.[56] Based on optical observations conducted between 2006 and 2017, Hromakina et al. concluded that Makemake's lightcurve was likely due to heterogeneities across its surface, but that the variations (of the order of 3%) were too small to have been detected spectroscopically.[14]

Atmosphere

Makemake was expected to have an atmosphere similar to that of Pluto but with a lower surface pressure. However, on 23 April 2011 Makemake passed in front of an 18th-magnitude star and abruptly blocked its light.[57] The results showed that Makemake presently lacks a substantial atmosphere and placed an upper limit of 4–12 nanobar on the pressure at its surface.[16]

The presence of methane and possibly nitrogen suggests that Makemake could have a transient atmosphere similar to that of Pluto near its perihelion.[50] Nitrogen, if present, will be the dominant component of it.[21] The existence of an atmosphere also provides a natural explanation for the nitrogen depletion: because the gravity of Makemake is weaker than that of Pluto, Eris and Triton, a large amount of nitrogen was probably lost via atmospheric escape; methane is lighter than nitrogen, but has significantly lower vapor pressure at temperatures prevalent at the surface of Makemake (32–36 K),[16] which hinders its escape; the result of this process is a higher relative abundance of methane.[58] However, studies of Pluto's atmosphere by New Horizons suggest that methane, not nitrogen, is the dominant escaping gas, suggesting that the reasons for Makemake's absence of nitrogen may be more complicated.[59][60]

Satellite

 
Two images of Makemake and its satellite taken by Hubble two days apart in April 2015
Main article: S/2015 (136472) 1

Makemake has a single discovered moon, S/2015 (136472) 1 and nicknamed MK2. It was seen 21,000 km (13,000 mi) from the dwarf planet, and its diameter is estimated at 175 km (110 mi) (for an assumed albedo of 4%).[7]

Makemake System
Name Diameter (km) Discovery Date
Makemake ≈ 1430 March 31, 2005
S/2015 (136472) 1 ≈ 175 April 27, 2015

Exploration

 
Makemake, indicated with red bars, as imaged by the New Horizons spacecraft in October 2007

Makemake was observed from afar by the New Horizons spacecraft in October 2007 and January 2017, from distances of 52 AU and 70 AU, respectively.[15] The spacecraft's outbound trajectory permitted observations of Makemake at high phase angles that are otherwise unobtainable from Earth, enabling the determination of the light scattering properties and phase curve behavior of Makemake's surface.[15]

It has been calculated that a flyby mission to Makemake could take just over 16 years using a Jupiter gravity assist, based on a launch date of 21 August 2024 or 24 August 2036. Makemake would be approximately 52 AU from the Sun when the spacecraft arrives.[61]

See also

Notes

  1. ^ a b c Astronomers Mike Brown, David Jewitt and Marc Buie classify Makemake as a near scattered object but the Minor Planet Center, from which Wikipedia draws most of its definitions for the trans-Neptunian population, places it among the main Kuiper belt population.[20][21][22][23]
  2. ^ The Rapa Nui pronunciation is [ˈmakeˈmake], which is anglicized as /ˈmækiˈmæki/ in the UK and /ˈmɑːkiˈmɑːki/[2] as well as /ˈmɑːkˈmɑːk/ in the US.[3][4] The distinction between /ɑː/ and /æ/ reflect how the US and UK handle the Polynesian 'a' (parallel to the first 'a' in Italian 'pasta'); the // pronunciation attempts to approximate the Polynesian 'e', and is used by Brown and his students.[5]
  3. ^ Calculated using (a−b)/a and the dimensions from Brown[10]
  4. ^ a b Calculated using the dimensions from Brown[10] assuming an oblate spheroid.
  5. ^ Pronounced as four syllables, with stress on the a's. Values of the vowels vary; see info-box.
  6. ^ It has an apparent magnitude at opposition of 16.7 vs. 15.1 for Pluto.[32]
  7. ^ Based on Minor Planet Center online Minor Planet Ephemeris Service: March 1, 1930: RA: 05h51m, Dec: +29.0.

References

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  47. ^ The 2009-02-04 nominal (non-librating) rotating frame for Makemake.
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External links

 
Wikimedia Commons has media related to 136472 Makemake.
  • MPEC listing for Makemake
  • AstDys orbital elements
  • Orbital simulation from JPL (Java) / Ephemeris
  • Press release from WHT and TNG on Makemake's similarity to Pluto.
  • Makemake Sky Charts and Coordinates
  • Precovery image with the 1.06 m Kleť Observatory telescope on April 20, 2003
  • Makemake as seen on 2010-02-18 UT with the Keck 1
  • Makemake of the Outer Solar System APOD July 15, 2008
  • Simulation of Makemake (2005 FY9)'s orbit

January 07, 2023
makemake, this, article, about, planetoid, rapa, deity, other, uses, disambiguation, minor, planet, designation, 136472, dwarf, planet, second, largest, what, known, classical, population, kuiper, belt, objects, with, diameter, approximately, that, pluto, know. This article is about the planetoid For the Rapa Nui god see Makemake deity For other uses see Makemake disambiguation Makemake e minor planet designation 136472 Makemake is a dwarf planet and the second largest of what are known as the classical population of Kuiper belt objects a with a diameter approximately 60 that of Pluto 24 25 It has one known satellite 26 Its extremely low average temperature about 40 K 230 C means its surface is covered with methane ethane and possibly nitrogen ices 21 136472 MakemakeMakemake and its moon as seen by the Hubble Space TelescopeDiscoveryDiscovered byMichael E Brown Chad Trujillo David RabinowitzDiscovery dateMarch 31 2005DesignationsMPC designation 136472 MakemakePronunciationUK ˌ m ae k i ˈ m ae k i US ˌ m ɑː k i ˈ m ɑː k i or ˌ m ɑː k eɪ ˈ m ɑː k eɪ listen b Named afterMakemakeAlternative designations2005 FY9Minor planet categoryDwarf planetcubewano 1 scattered near a AdjectivesMakemakean 6 7 Orbital characteristics 9 Epoch May 31 2020 JD 2458900 5 Earliest precovery dateJanuary 29 1955Aphelion52 756 AU 7 8922 Tm Perihelion38 104 AU 5 7003 Tm Semi major axis45 430 AU 6 7962 Tm Eccentricity0 16126Orbital period sidereal 306 21 yr 111 845 d Average orbital speed4 419 km sMean anomaly165 514 Inclination28 9835 Longitude of ascending node79 620 Time of perihelion17 November 2186 8 Argument of perihelion294 834 Known satellites1Physical characteristicsDimensions 1434 48 18 projected 1420 18 24 km 10 Mean radius715 19 11 km 10 Flattening0 0098 c Surface area6 42 106 km2 d 11 Volume1 53 109 km3 d 12 Mass 3 1 1021 kg 13 Mean density 1 7 g cm3 using Ortiz et al 2012 radius 2 1 g cm3 using Brown 2013 radius 10 13 Equatorial surface gravity lt 0 57 m s2Equatorial escape velocity lt 0 91 km sSidereal rotation period22 8266 0 0001 h 14 Geometric albedo0 82 0 02 geometric 14 0 74 0 06 Bond 15 Temperature32 36 K single terrain model 40 44 K two terrain model 16 Spectral typeB V 0 83 V R 0 5 17 Apparent magnitude17 0 opposition 18 19 Absolute magnitude H 0 12 9 0 049 0 020 14 Makemake was discovered on March 31 2005 by a team led by Michael E Brown and announced on July 29 2005 It was initially known as 2005 FY9 and later given the minor planet number 136472 In July 2008 it was named after Makemake a creator god in the Rapa Nui mythology of Easter Island under the expectation by the International Astronomical Union IAU that it would prove to be a dwarf planet 25 27 28 29 Contents 1 History 1 1 Discovery 1 2 Name and symbol 2 Orbit and classification 3 Physical characteristics 3 1 Brightness size and rotation 3 2 Spectra and surface 3 3 Atmosphere 4 Satellite 5 Exploration 6 See also 7 Notes 8 References 9 External linksHistory EditDiscovery Edit Makemake was discovered on March 31 2005 by a team at the Palomar Observatory led by Michael E Brown 9 and was announced to the public on July 29 2005 The team had planned to delay announcing their discoveries of the bright objects Makemake and Eris until further observations and calculations were complete but announced them both on July 29 when the discovery of another large object they had been tracking Haumea was controversially announced on July 27 by a different team in Spain 30 The earliest known precovery observations of Makemake have been found in photographic plates of the Palomar Observatory s Digitized Sky Survey from January 29 1955 to May 1 1998 31 Despite its relative brightness a fifth as bright as Pluto f Makemake was not discovered until after many much fainter Kuiper belt objects Most searches for minor planets are conducted relatively close to the ecliptic the region of the sky that the Sun Moon and planets appear to lie in as seen from Earth due to the greater likelihood of finding objects there It probably escaped detection during the earlier surveys due to its relatively high orbital inclination and the fact that it was at its farthest distance from the ecliptic at the time of its discovery in the northern constellation of Coma Berenices 19 Makemake is the brightest trans Neptunian object after Pluto 33 with an apparent magnitude of 16 2 in late 1930 34 it is theoretically bright enough to have been discovered by Clyde Tombaugh whose search for trans Neptunian objects was sensitive to objects up to magnitude 17 Indeed in 1934 Tombaugh reported that there were no other planets out to a magnitude of 16 5 and an inclination of 17 degrees or of greater inclination but within 50 degrees of either node 35 And Makemake was there At the time of Tombaugh s survey 1930 1943 Makemake varied from 5 5 to 13 2 degrees from the ecliptic 34 moving across Auriga starting near the northwest corner of Taurus and cutting across a corner of Gemini g The starting position however was very close to the galactic anticenter and Makemake would have been almost impossible to find against the dense background of stars dubious discuss Tombaugh continued searching for thirteen years after his discovery of Pluto and Makemake though growing dimmer was still magnitude 16 6 in early 1943 the last year of his search 34 but by then he was searching higher latitudes and did not find any more objects orbiting beyond Neptune 36 Name and symbol Edit The provisional designation 2005 FY9 was given to Makemake when the discovery was made public Before that the discovery team used the codename Easterbunny for the object because of its discovery shortly after Easter 2 In July 2008 in accordance with IAU rules for classical Kuiper belt objects 2005 FY9 was given the name of a creator deity 37 The name of Makemake the creator of humanity and god of fertility in the myths of the Rapa Nui the native people of Easter Island 28 was chosen in part to preserve the object s connection with Easter 2 Planetary symbols are no longer much used in astronomy A Makemake symbol is included in Unicode as U 1F77C 38 it is mostly used by astrologers 39 but has also been used by NASA 40 The symbol was designed by Denis Moskowitz and John T Whelan it is a traditional petroglyph of Makemake s face stylized to resemble an M 41 The commercial Solar Fire astrology software uses an alternative symbol 39 a crossed variant of a symbol created by astrologer Henry Seltzer for his commercial software Orbit and classification Edit Orbits of Makemake blue Haumea green contrasted with the orbit of Pluto red and the ecliptic grey The perihelia q and the aphelia Q are marked with the dates of passage The positions in April 2006 are marked with the spheres illustrating relative sizes and differences in albedo and colour Makemake s orbit outside of Neptune is similar to Haumea s The positions are as of 1 January 2018 As of April 2019 update Makemake was 52 5 AU 7 85 billion km from the Sun 18 19 almost as far from the Sun as it ever reaches on its orbit 21 Makemake follows an orbit very similar to that of Haumea highly inclined at 29 and a moderate eccentricity of about 0 16 42 But still Makemake s orbit is slightly farther from the Sun in terms of both the semi major axis and perihelion Its orbital period is 306 years 9 more than Pluto s 248 years and Haumea s 283 years Both Makemake and Haumea are currently far from the ecliptic at an angular distance of almost 29 Makemake will reach its aphelion in 2033 19 whereas Haumea passed its aphelion in early 1992 43 Makemake is a classical Kuiper belt object KBO 1 a which means its orbit lies far enough from Neptune to remain stable over the age of the Solar System 44 45 Unlike plutinos which can cross Neptune s orbit due to their 2 3 resonance with the planet the classical objects have perihelia further from the Sun free from Neptune s perturbation 44 Such objects have relatively low eccentricities e below 0 2 and orbit the Sun in much the same way the planets do Makemake however is a member of the dynamically hot class of classical KBOs meaning that it has a high inclination compared to others in its population 46 Makemake is probably coincidentally near the 13 7 resonance with Neptune 47 Physical characteristics EditBrightness size and rotation Edit Makemake apparent magnitude 16 9 with edge on galaxy IC 3587 Makemake is currently visually the second brightest Kuiper belt object after Pluto 33 having a March opposition apparent magnitude of 17 0 18 it will pass from its present constellation Coma Berenices to Bootes in December 2027 19 It is bright enough to be visible using a high end amateur telescope Combining the detection in infrared by the Spitzer Space Telescope and Herschel Space Telescope with the similarities of spectrum with Pluto yielded an estimated diameter from 1 360 to 1 480 km 24 From the 2011 stellar occultation by Makemake its dimensions had initially been measured at 1 502 45 1 430 9 km However the occultation data was later reanalyzed 10 leading to an estimate of 1434 48 18 1420 18 24 km without a pole orientation constraint 10 Makemake was the fourth dwarf planet recognized because it has a bright V band absolute magnitude of 0 05 14 Makemake has a highly reflective surface with a geometrical albedo of 0 82 0 02 14 The rotation period of Makemake is estimated at 22 83 hours 14 A rotation period of 7 77 hours published in 2009 48 later turned out to be an alias of the actual rotation period The possibility of this had been mentioned in the 2009 study and the data from that study agrees well with the 22 83 hour period 14 This rotation period is relatively long for a dwarf planet Part of this may be due to tidal acceleration from Makemake s satellite It has been suggested that a second large undiscovered satellite might better explain the dwarf planet s unusually long rotation 14 Makemake s lightcurve amplitude is small only 0 03 mag 10 14 This was thought to be due to Makemake currently being viewed pole on from Earth however S 2015 136472 1 s orbital plane which is probably orbiting with little inclination relative to Makemake s equator due to tidal effects is edge on from Earth implying that Makemake is really being viewed equator on 49 Spectra and surface Edit Artistic comparison of Pluto Eris Haumea Makemake Gonggong Quaoar Sedna Orcus Salacia 2002 MS4 and Earth along with the Moon vte Like Pluto Makemake appears red in the visible spectrum and significantly redder than the surface of Eris see colour comparison of TNOs 50 The near infrared spectrum is marked by the presence of the broad methane CH4 absorption bands Methane is observed also on Pluto and Eris but its spectral signature is much weaker 50 Spectral analysis of Makemake s surface revealed that methane must be present in the form of large grains at least one centimetre in size 21 In addition to methane large amounts of ethane and tholins as well as smaller amounts of ethylene acetylene and high mass alkanes like propane may be present most likely created by photolysis of methane by solar radiation 21 51 The tholins are probably responsible for the red color of the visible spectrum Although evidence exists for the presence of nitrogen ice on its surface at least mixed with other ices there is nowhere near the same level of nitrogen as on Pluto and Triton where it composes more than 98 percent of the crust The relative lack of nitrogen ice suggests that its supply of nitrogen has somehow been depleted over the age of the Solar System 21 52 53 An artist s interpretation of the dwarf planet Makemake depicted with its reddish surface and its moon The far infrared 24 70 mm and submillimeter 70 500 mm photometry performed by Spitzer and Herschel telescopes revealed that the surface of Makemake is not homogeneous Although the majority of it is covered by nitrogen and methane ices where the albedo ranges from 78 to 90 there are small patches of dark terrain whose albedo is only 2 to 12 and that make up 3 to 7 of the surface 24 These studies were made before S 2015 136472 1 was discovered thus these small dark patches may actually have been the dark surface of the satellite rather than any actual surface features on Makemake 54 However some experiments have refuted these studies Spectroscopic studies collected from 2005 to 2008 using the William Herschel Telescope La Palma Spain were analyzed together with other spectra in the literature as of 2014 They show some degree of variation in the spectral slope which would be associated with different abundance of the complex organic materials byproduct of the irradiation of the ices present on the surface of Makemake However the relative ratio of the two dominant icy species methane and nitrogen remains quite stable on the surface revealing a low degree of inhomogeneity in the ice component 55 These results have been recently confirmed when the Telescopio Nazionale Galileo acquired new visible and near infra red spectra for Makemake between 2006 and 2013 that covered nearly 80 of its surface this study found that the variation in the spectra were negligible suggesting that Makemake s surface may indeed be homogenous 56 Based on optical observations conducted between 2006 and 2017 Hromakina et al concluded that Makemake s lightcurve was likely due to heterogeneities across its surface but that the variations of the order of 3 were too small to have been detected spectroscopically 14 Atmosphere Edit Makemake was expected to have an atmosphere similar to that of Pluto but with a lower surface pressure However on 23 April 2011 Makemake passed in front of an 18th magnitude star and abruptly blocked its light 57 The results showed that Makemake presently lacks a substantial atmosphere and placed an upper limit of 4 12 nanobar on the pressure at its surface 16 The presence of methane and possibly nitrogen suggests that Makemake could have a transient atmosphere similar to that of Pluto near its perihelion 50 Nitrogen if present will be the dominant component of it 21 The existence of an atmosphere also provides a natural explanation for the nitrogen depletion because the gravity of Makemake is weaker than that of Pluto Eris and Triton a large amount of nitrogen was probably lost via atmospheric escape methane is lighter than nitrogen but has significantly lower vapor pressure at temperatures prevalent at the surface of Makemake 32 36 K 16 which hinders its escape the result of this process is a higher relative abundance of methane 58 However studies of Pluto s atmosphere by New Horizons suggest that methane not nitrogen is the dominant escaping gas suggesting that the reasons for Makemake s absence of nitrogen may be more complicated 59 60 Satellite Edit Two images of Makemake and its satellite taken by Hubble two days apart in April 2015 Main article S 2015 136472 1 Makemake has a single discovered moon S 2015 136472 1 and nicknamed MK2 It was seen 21 000 km 13 000 mi from the dwarf planet and its diameter is estimated at 175 km 110 mi for an assumed albedo of 4 7 Makemake System Name Diameter km Discovery DateMakemake 1430 March 31 2005S 2015 136472 1 175 April 27 2015Exploration Edit Makemake indicated with red bars as imaged by the New Horizons spacecraft in October 2007 Makemake was observed from afar by the New Horizons spacecraft in October 2007 and January 2017 from distances of 52 AU and 70 AU respectively 15 The spacecraft s outbound trajectory permitted observations of Makemake at high phase angles that are otherwise unobtainable from Earth enabling the determination of the light scattering properties and phase curve behavior of Makemake s surface 15 It has been calculated that a flyby mission to Makemake could take just over 16 years using a Jupiter gravity assist based on a launch date of 21 August 2024 or 24 August 2036 Makemake would be approximately 52 AU from the Sun when the spacecraft arrives 61 See also EditAstronomical naming conventions Clearing the neighbourhood International Astronomical Union Planets beyond Neptune List of Solar System objects most distant from the SunNotes Edit a b c Astronomers Mike Brown David Jewitt and Marc Buie classify Makemake as a near scattered object but the Minor Planet Center from which Wikipedia draws most of its definitions for the trans Neptunian population places it among the main Kuiper belt population 20 21 22 23 The Rapa Nui pronunciation is ˈmakeˈmake which is anglicized as ˈ m ae k i ˈ m ae k i in the UK and ˈ m ɑː k i ˈ m ɑː k i 2 as well as ˈ m ɑː k eɪ ˈ m ɑː k eɪ in the US 3 4 The distinction between ɑː and ae reflect how the US and UK handle the Polynesian a parallel to the first a in Italian pasta the eɪ pronunciation attempts to approximate the Polynesian e and is used by Brown and his students 5 Calculated using a b a and the dimensions from Brown 10 a b Calculated using the dimensions from Brown 10 assuming an oblate spheroid Pronounced as four syllables with stress on the a s Values of the vowels vary see info box It has an apparent magnitude at opposition of 16 7 vs 15 1 for Pluto 32 Based on Minor Planet Center online Minor Planet Ephemeris Service March 1 1930 RA 05h51m Dec 29 0 References Edit a b MPEC 2009 P26 Distant Minor Planets 2009 AUG 17 0 TT IAU Minor Planet Center 2009 08 07 Retrieved 2009 08 28 a b c Brown Mike 2008 Mike Brown s Planets What s in a name part 2 California Institute of Technology Retrieved 2008 07 14 Brown Mike 2008 Mike Brown s Planets Make make California Institute of Technology Retrieved 2008 07 14 Makemake Merriam Webster Dictionary Podcast Dwarf Planet Haumea Darin Ragozzine at 3 11 Bulletin of the Auckland Institute and Museum no 3 5 1953 a b Parker A H Buie M W Grundy W M Noll K S 2016 04 25 Discovery of a Makemakean Moon The Astrophysical Journal 825 1 L9 arXiv 1604 07461 Bibcode 2016ApJ 825L 9P doi 10 3847 2041 8205 825 1 L9 S2CID 119270442 Horizons Batch for 136472 Makemake 2005 FY9 on 2186 Nov 17 Perihelion occurs when rdot flips from negative to positive JPL Horizons Retrieved 2021 09 25 a b c d JPL Small Body Database Browser 136472 Makemake 2005 FY9 NASA Jet Propulsion Laboratory 2019 05 12 last obs Retrieved 2020 02 20 a b c d e f g h M E Brown 2013 On the size shape and density of dwarf planet Makemake The Astrophysical Journal Letters 767 1 L7 5pp arXiv 1304 1041v1 Bibcode 2013ApJ 767L 7B doi 10 1088 2041 8205 767 1 L7 S2CID 12937717 surface ellipsoid 717x717x710 Wolfram Alpha volume ellipsoid 717x717x710 Wolfram Alpha a b Parker et al 2018 The Mass Density and Figure of the Kuiper Belt Dwarf Planet Makemake a b c d e f g h i j T A Hromakina I N Belskaya Yu N Krugly V G Shevchenko J L Ortiz P Santos Sanz R Duffard N Morales A Thirouin R Ya Inasaridze V R Ayvazian V T Zhuzhunadze D Perna V V Rumyantsev I V Reva A V Serebryanskiy A V Sergeyev I E Molotov V A Voropaev S F Velichko 2019 04 09 Long term photometric monitoring of the dwarf planet 136472 Makemake Astronomy amp Astrophysics 625 A46 arXiv 1904 03679 Bibcode 2019A amp A 625A 46H doi 10 1051 0004 6361 201935274 S2CID 102350991 a b c Verbiscer Anne J Helfenstein Paul Porter Simon B Benecchi Susan D Kavelaars J J Lauer Tod R et al April 2022 The Diverse Shapes of Dwarf Planet and Large KBO Phase Curves Observed from New Horizons The Planetary Science Journal 3 4 31 Bibcode 2022PSJ 3 95V doi 10 3847 PSJ ac63a6 95 a b c Ortiz J L Sicardy B Braga Ribas F Alvarez Candal A Lellouch E Duffard R Pinilla Alonso N Ivanov V D Littlefair S P Camargo J I B Assafin M Unda Sanzana E Jehin E Morales N Tancredi G Gil Hutton R De La Cueva I Colque J P Da Silva Neto D N Manfroid J Thirouin A Gutierrez P J Lecacheux J Gillon M Maury A Colas F Licandro J Mueller T Jacques C Weaver D 2012 Albedo and atmospheric constraints of dwarf planet Makemake from a stellar occultation Nature 491 7425 566 569 Bibcode 2012Natur 491 566O doi 10 1038 nature11597 hdl 2268 142198 PMID 23172214 S2CID 4350486 ESO 21 November 2012 press release Dwarf Planet Makemake Lacks Atmosphere Snodgrass C Carry B Dumas C Hainaut O February 2010 Characterisation of candidate members of 136108 Haumea s family Astronomy and Astrophysics 511 A72 arXiv 0912 3171 Bibcode 2010A amp A 511A 72S doi 10 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Bill 2016 05 04 Pluto s Interaction with the Solar Wind is Unique Study Finds NASA Retrieved 2017 05 03 Beatty Kelly 2016 03 25 Pluto s Atmosphere Confounds Researchers Sky amp Telescope Retrieved 2017 05 03 McGranaghan R Sagan B Dove G Tullos A Lyne J E Emery J P 2011 A Survey of Mission Opportunities to Trans Neptunian Objects Journal of the British Interplanetary Society 64 296 303 Bibcode 2011JBIS 64 296M External links Edit Wikimedia Commons has media related to 136472 Makemake MPEC listing for Makemake AstDys orbital elements Orbital simulation from JPL Java Ephemeris Press release from WHT and TNG on Makemake s similarity to Pluto Makemake Sky Charts and Coordinates Precovery image with the 1 06 m Klet Observatory telescope on April 20 2003 Makemake as seen on 2010 02 18 UT with the Keck 1 Makemake of the Outer Solar System APOD July 15 2008 Simulation of Makemake 2005 FY9 s orbit Portals Stars Spaceflight Outer space Science Retrieved from https en wikipedia org w index php 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