(6178) 1986 DA
Template:Short description Template:Use dmy dates {{#invoke:infobox|infoboxTemplate | class = vcard | titleclass = fn org | title = (6178) 1986 DA | image = {{#invoke:InfoboxImage|InfoboxImage|image=|upright={{#if:||1.1}}|alt=}} | caption = | headerstyle = {{#if:#FFC2E0|background-color:#FFC2E0|background-color:#E0CCFF}}; color:inherit; | labelstyle = max-width:{{#if:||11em}}; | autoheaders = y
| header1 = Discovery<ref name="jpldata" />
| label2 = Discovered by | data2 = M. Kizawa | label3 = Discovery site | data3 = Shizuoka Obs. | label4 = Discovery date | data4 = 16 February 1986 | label5 = Template:Longitem | data5 =
| header10 = {{#if:|Designations|Designations}}
| label11 = Template:Longitem | data11 = (6178) 1986 DA | label12 = Pronunciation | data12 = | label13 = Template:Longitem | data13 = | label14 = Template:Longitem | data14 = 1986 DA | label15 = Template:Longitem | data15 = AmorTemplate:·NEO<ref name="MPC-6178" /> | label16 = Adjectives | data16 = | label17 = Symbol | data17 =
| header20 = Orbital characteristics{{#ifeq:|yes| (barycentric)}}<ref name="jpldata" />
| data21 = | data22 = {{#if:4 September 2017 (JD 2458000.5) |Epoch 4 September 2017 (JD 2458000.5)}} | data23 = {{#if:0 | Uncertainty parameter 0}} | label24 = Observation arc | data24 = 38.03 yr (13,890 days) | label25 = Earliest precovery date | data25 = | label26 = {{#switch:{{{apsis}}} |apsis|gee|barion|center|centre|(apsis)=Apo{{{apsis}}} |Ap{{#if:|{{{apsis}}}|helion}}}} | data26 = 4.4648 AU | label27 = Peri{{#if:|{{{apsis}}}|helion}} | data27 = 1.1805 AU | label28 = Peri{{#if:|{{{apsis}}}|apsis}} | data28 = | label29 = {{#switch:{{{apsis}}} |helion|astron=Ap{{{apsis}}} |Apo{{#if:|{{{apsis}}}|apsis}}}} | data29 = | label30 = Periastron | data30 = | label31 = Apoastron | data31 = | label32 = Template:Longitem | data32 = 2.8226 AU | label33 = Template:Longitem | data33 = | label34 = Eccentricity | data34 = 0.5818 | label35 = Template:Longitem | data35 = 4.74 yr (1,732 days) | label36 = Template:Longitem | data36 = | label37 = Template:Longitem | data37 = | label38 = Template:Longitem | data38 = 233.20° | label39 = Template:Longitem | data39 = Template:Deg2DMS / day | label40 = Inclination | data40 = 4.3056° | label41 = Template:Longitem | data41 = | label42 = Template:Longitem | data42 = 64.643° | label43 = Template:Longitem | data43 = | label44 = Template:Longitem | data44 = | label45 = Template:Longitem | data45 = 127.36° | label46 = Template:Nowrap | data46 = | label47 = Satellite of | data47 = | label48 = Group | data48 = | label49 = {{#switch: |yes|true=Satellites |Known satellites}} | data49 = | label50 = Star | data50 = | label51 = Earth MOID | data51 = 0.1922 AUTemplate:· 74.9 LD | label52 = Mercury MOID | data52 = | label53 = Venus MOID | data53 = | label54 = Mars MOID | data54 = | label55 = Jupiter MOID | data55 = 0.5212 AU | label56 = Saturn MOID | data56 = | label57 = Uranus MOID | data57 = | label58 = Neptune MOID | data58 = | label59 = TJupiter | data59 =
| header60 = Proper orbital elements
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| data65 = {{#if:|{{#expr:360/1 round 5}} yr
({{#expr:365.25*360/1 round 3}} d) }}
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| header70 = Template:Anchor{{#if:yes| Physical characteristics|Physical characteristics}}
| label71 = Dimensions
| data71 =
| label72 = Template:Longitem
| data72 = 2.3 km Template:Small<ref name="jpldata" />
Template:Val km<ref name="Pravec-2012b" />
3.15 km Template:Small<ref name="lcdb" />
Template:Val km<ref name="WISE" />
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| label76 = Flattening
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| label77 = Circumference
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| label79 = Volume
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| label80 = Mass
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| data85 = 3.50 h<ref name="Zeigler-1990" />Template:Efn
Template:Val h<ref name="Wisniewski-1987b" />
| label86 = Template:Longitem
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| label93 = {{#if:yes |Template:Longitem |Albedo}}
| data93 = Template:Val<ref name="Pravec-2012b" />
0.15<ref name="jpldata" />
Template:Val<ref name="WISE" />
| label94 = Temperature
| data94 =
| data100 = {{#if:|
{{#if:|}}{{#if:|}}{{#if:|}}{{#if:|}}| Surface temp. | min | mean | max |
|---|---|---|---|
| {{{temp_name1}}} | |||
| {{{temp_name2}}} | |||
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| label101 = Surface absorbed dose rate
| data101 =
| label102 = Surface equivalent dose rate
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| label103 = Template:Longitem
| data103 = M<ref name="lcdb" /><ref name="Ostro-1991a" />
B–V = 0.677<ref name="jpldata" />
U–B = 0.267<ref name="jpldata" />
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| data106 = 15.1<ref name="jpldata" /><ref name="WISE" />Template:·Template:Val Template:SmallTemplate:EfnTemplate:·Template:Val<ref name="Pravec-2012b" /><ref name="lcdb" />Template:·16.11<ref name="Wisniewski-1987b" />
| label107 = Template:Longitem
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| header110 = Atmosphere
| label111 = Template:Longitem | data111 = | label112 = Template:Longitem | data112 = | label113 = Composition by volume | data113 =
| below = {{#if:||Template:Reflist }}
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Template:Mp is a metallic asteroid, classified as near-Earth object of the Amor group, approximately 3 kilometers in diameter. It was discovered on 16 February 1986, by Japanese astronomer Minoru Kizawa at Shizuoka Observatory, Japan.<ref name="MPC-6178" />
1986 DA was the first near Earth asteroid thought to be of metallic composition, with high radar brightness; with that it was predicted to have 100 thousand tons of platinum group metals including gold and suggested as a resource for future space colonists.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Orbit and classification
As an eccentric Amor asteroid has an Earth minimum orbit intersection distance of Template:Convert and approaches the orbit of Earth from the outside but does not cross it. It crosses however the orbit of Mars and can be classified as a Mars-crosser and also approaches the orbit of Jupiter within 0.5 AU.<ref name="jpldata" /> The asteroid orbits the Sun at a distance of 1.2–4.5 AU once every 4 years and 9 months (1,732 days). Its orbit has an eccentricity of 0.58 and an inclination of 4° with respect to the ecliptic.<ref name="jpldata" /> The first precovery was taken at Siding Spring Observatory in 1977, extending the asteroid's observation arc by 9 years prior to its discovery.<ref name="MPC-6178" />
Physical characteristics
The metallic M-type asteroid is notable for being significantly more radar-reflective than other asteroids. Radar measurements suggest it is composed of nickel and iron and that it was derived from the center of a much larger object that experienced melting and differentiation. The observed radar albedo was 0.58 and the optical albedo was 0.14.<ref name="Ostro-1991a" />
Rotation and shape
It was most probably formed from a larger body through a catastrophic collision with another object. Radar measurements of this body indicate that the surface is relatively smooth on scales of less than a meter, but it is highly irregular on scales of 10–100 meters.Template:Citation needed Several lightcurve analysis gave it a concurring rotation period of 3.50 to 3.51 hours with a relatively high brightness amplitude between 0.03 and 0.48 in magnitude, indicating an irregular shape (Template:Small).<ref name="Zeigler-1990" /><ref name="Wisniewski-1987b" />Template:Efn
Diameter and albedo
According to the survey carried out by NASA's Wide-field Infrared Survey Explorer with its subsequent NEOWISE mission, the asteroid has an albedo of 0.08 and 0.16, and a diameter of 3.1 to 3.2 kilometers, respectively.<ref name="Pravec-2012b" /><ref name="WISE" /> The Collaborative Asteroid Lightcurve Link selects 3.15 kilometers as best result, while the first estimate from 1994 gave a diameter of 2.3 kilometers.<ref name="jpldata" />
Mining considerations
The asteroid achieved its most notable recognition when scientists revealed that it contained over "10,000 tons of gold and 100,000 tons of platinum", or an approximate value at the time of its discovery of "$90 billion for the gold and a cool trillion dollars for the platinum, plus loose change for the asteroid's 10 billion tons of iron and a billion tons of nickel."<ref name="Ostro-1991b" /> In 2024 the estimated value of 100,000 tons of platinum was worth approximately 3.4 trillion US dollars. The delta-v for a spacecraft rendezvous with this asteroid from low Earth orbit is 7.1 km/s.<ref name="jpl-delta-v" />
Notes
See also
- Psyche (spacecraft), planned mission to heaviest metal asteroid 16 Psyche
References
External links
- Asteroid Lightcurve Database (LCDB), query form (info Template:Webarchive)
- Dictionary of Minor Planet Names, Google books
- Asteroids and comets rotation curves, CdR – Observatoire de Genève, Raoul Behrend
- Template:NeoDys
- Template:ESA-SSA
- Template:JPL small body
Template:Minor planets navigator {{#invoke:Navbox|navbox}} Template:Authority control