Explore the map below

Click on POIs in the map or browse the POI list for details and discussion threads!

Top of the north [ID: 1270] - currently : 64.206° latitude, 145.656° longitude Top of the North Pole [ID: 1269] - currently : 59.706° latitude, 159.408° longitude Brown Point [ID: 1267] - currently : -15.174° latitude, 313.056° longitude Mars's Pimple #2 [ID: 1266] - currently : -53.91° latitude, 315.864° longitude Lisowski 3 [ID: 1263] - currently : 7.254° latitude, 329.652° longitude Top of the planet [ID: 1261] - currently : 60.102° latitude, 242.82° longitude The Jovian Blizzard [ID: 1259] - currently : 17.118° latitude, 345.888° longitude Jupiters Large Ketchup Stain [ID: 1258] - currently : 26.316° latitude, 204.696° longitude My point [ID: 1257] - currently : -2.754° latitude, 149.652° longitude gas giant [ID: 1256] - currently : 25.452° latitude, 230.976° longitude The Eye of the White Whale. [ID: 1255] - currently : -2.52° latitude, 149.58° longitude CSD 001 -- WHITE OVAL [ID: 1253] - currently : -59.562° latitude, 124.776° longitude ricks portal [ID: 1252] - currently : 6.444° latitude, 301.392° longitude MK-01 [ID: 1251] - currently : 15.372° latitude, 353.268° longitude Klehm's Ribbon [ID: 1250] - currently : -11.034° latitude, 301.356° longitude Dark Eye [ID: 1249] - currently : -30.582° latitude, 334.944° longitude South Polar region [ID: 1248] - currently : -70.092° latitude, 350.604° longitude Turbulent sector of the NNTB [ID: 1247] - currently : 33.39° latitude, 326.412° longitude STB Ghost east end [ID: 1246] - currently : -29.142° latitude, 345.672° longitude GloriaVanderbelt [ID: 1244] - currently : 22.788° latitude, 179.352° longitude StormsOfSkylias [ID: 1243] - currently : 7.47° latitude, 158.004° longitude Storm collision @ cloud phase transitions [ID: 1242] - currently : -28.692° latitude, 298.476° longitude storm surge [ID: 1241] - currently : 9.936° latitude, 121.752° longitude White Swirl in Equatorial Belt NorthWest of Great Red Spot (GRS) [ID: 1238] - currently : 12.114° latitude, 91.224° longitude Polar cloud Differentiation [ID: 1237] - currently : 51.408° latitude, 25.524° longitude Black dot [ID: 1236] - currently : 37.206° latitude, 338.184° longitude Brown's anomaly [ID: 1235] - currently : -46.728° latitude, 263.7° longitude Massive Brown "Barge" [ID: 1234] - currently : 36.756° latitude, 125.244° longitude Markeš [ID: 1232] - currently : 17.046° latitude, 214.776° longitude The 253 Squad [ID: 1231] - currently : 31.32° latitude, 156.096° longitude tuber1 [ID: 1230] - currently : 23.364° latitude, 353.376° longitude I'm the king of the mountain [ID: 1229] - currently : 31.086° latitude, 13.5° longitude Hurricane Rachel [ID: 1227] - currently : -51.732° latitude, 300.204° longitude Dark spot [ID: 1226] - currently : -13.932° latitude, 10.368° longitude Random Spot [ID: 1225] - currently : -35.622° latitude, 9.612° longitude Random Spot [ID: 1224] - currently : -58.266° latitude, 99.612° longitude Caltech, by Halka [ID: 1223] - currently : -3.024° latitude, 329.112° longitude Romulus and Remus [ID: 1222] - currently : 50.616° latitude, 320.004° longitude Dan's Spot [ID: 1221] - currently : -15.57° latitude, 336.888° longitude Iago [ID: 1220] - currently : 37.53° latitude, 110.088° longitude Romeo and Juliet [ID: 1219] - currently : 14.922° latitude, 154.476° longitude A little wave action [ID: 1218] - currently : -12.078° latitude, 106.2° longitude [ID: 1217] - currently : -53.226° latitude, 276.264° longitude White spot b [ID: 1215] - currently : 17.838° latitude, 44.424° longitude Herbert Elwood Gilliland The Third [ID: 1210] - currently : 32.022° latitude, 234.036° longitude Legalize Marjuana [ID: 1209] - currently : 43.488° latitude, 59.364° longitude Dalmatian Zone [ID: 1206] - currently : -25.092° latitude, 340.38° longitude Dark Nodule [ID: 1205] - currently : 33.156° latitude, 244.404° longitude Complex High Contrast [ID: 1204] - currently : 11.808° latitude, 41.976° longitude Fractured Boundary [ID: 1203] - currently : -31.464° latitude, 69.984° longitude WHITE SPOT [ID: 1202] - currently : 35.226° latitude, 54.864° longitude Coolest place on Jupiter [ID: 1200] - currently : -29.574° latitude, 354.492° longitude Blue [ID: 1199] - currently : -1.026° latitude, 293.76° longitude South sea [ID: 1198] - currently : -44.352° latitude, 45.648° longitude Flower Moon [ID: 1196] - currently : 24.408° latitude, 36.756° longitude Orange Distortion [ID: 1195] - currently : -58.41° latitude, 141.084° longitude White Tempest [ID: 1193] - currently : 36.774° latitude, 38.412° longitude Renslow [ID: 1192] - currently : -46.08° latitude, 329.328° longitude Whale's Tail [ID: 1191] - currently : -14.706° latitude, 327.816° longitude Blue Waves [ID: 1190] - currently : 8.37° latitude, 210.168° longitude Oh boy we're not in Kansas anymore [ID: 1186] - currently : -65.646° latitude, 272.412° longitude Maruta sangam [ID: 1185] - currently : 50.31° latitude, 205.524° longitude Red bubble [ID: 1184] - currently : -14.418° latitude, 204.48° longitude Southern FFRs [ID: 1183] - currently : -62.298° latitude, 184.284° longitude Southern Edge of Northern FFRs [ID: 1182] - currently : 49.932° latitude, 139.212° longitude A Whirl of a Pearl [ID: 1181] - currently : -39.132° latitude, 118.26° longitude Northern area 44 [ID: 1180] - currently : 50.814° latitude, 35.928° longitude Earth Rise [ID: 1178] - currently : -77.85° latitude, 134.46° longitude seiedmorteza 7 [ID: 1176] - currently : 26.082° latitude, 67.212° longitude Eye of Odin [ID: 1175] - currently : -27.684° latitude, 329.976° longitude Salem's Lot [ID: 1173] - currently : 37.944° latitude, 186.444° longitude Equatorial Zone Cyclone [ID: 1172] - currently : -5.112° latitude, 95.184° longitude Hot Spot Tail [ID: 1171] - currently : 6.282° latitude, 48.24° longitude Line of air separation [ID: 1170] - currently : 25.722° latitude, 218.484° longitude saknelap [ID: 1169] - currently : 7.92° latitude, 95.148° longitude Jupiter Cape of Good Hope [ID: 1168] - currently : 60.066° latitude, 220.644° longitude The darkest spot [ID: 1167] - currently : -61.74° latitude, 88.308° longitude The swirl [ID: 1164] - currently : 8.46° latitude, 227.16° longitude Shadow Boundary [ID: 1163] - currently : 33.282° latitude, 97.596° longitude Cloud palace [ID: 1159] - currently : 34.686° latitude, 72.972° longitude What's uhhh, what's going on here? [ID: 1158] - currently : 38.16° latitude, 79.884° longitude Rock the band [ID: 1156] - currently : 24.606° latitude, 74.16° longitude triharmonius_convergence? [ID: 1155] - currently : -50.526° latitude, 164.772° longitude Between the Pearls [ID: 1154] - currently : -38.7° latitude, 239.436° longitude STB Spectre [ID: 1153] - currently : -28.782° latitude, 201.96° longitude End of clouds [ID: 1151] - currently : -57.114° latitude, 68.724° longitude Agustín´s POI [ID: 1150] - currently : -46.962° latitude, 87.012° longitude The White Wizard [ID: 1146] - currently : 11.754° latitude, 285.984° longitude Transition [ID: 1144] - currently : -22.104° latitude, 170.424° longitude Squiggly black line [ID: 1141] - currently : 27.756° latitude, 261.756° longitude north pole [ID: 1139] - currently : 57.6° latitude, 301.068° longitude Near the SP [ID: 1135] - currently : -46.296° latitude, 63.54° longitude Silence of the Lambs [ID: 1134] - currently : -57.402° latitude, 32.04° longitude Things seem quiet in the south [ID: 1131] - currently : -63.54° latitude, 154.368° longitude Dark Structure [ID: 1127] - currently : 34.074° latitude, 348.912° longitude Red Scar [ID: 1124] - currently : 26.388° latitude, 314.82° longitude CP3O [ID: 1123] - currently : -63.558° latitude, 322.596° longitude Juno123 [ID: 1118] - currently : 8.874° latitude, 246.348° longitude selected location [ID: 1113] - currently : 32.454° latitude, 289.26° longitude Phantom [ID: 1112] - currently : -52.794° latitude, 340.812° longitude Collision of colours [ID: 1100] - currently : 9.828° latitude, 315.684° longitude AB Territory [ID: 1098] - currently : 39.366° latitude, 315.684° longitude Rust Belt [ID: 1092] - currently : 20.34° latitude, 315.252° longitude évolution, color,shapes, chemical composition of clouds [ID: 1091] - currently : -18.432° latitude, 191.628° longitude Border1 [ID: 1089] - currently : 13.932° latitude, 299.952° longitude Wake turbulance [ID: 1086] - currently : -13.05° latitude, 159.516° longitude Friccin [ID: 1084] - currently : -8.982° latitude, 211.104° longitude Location Stargate [ID: 1083] - currently : 16.434° latitude, 307.872° longitude Ut på tur aldri sur [ID: 1081] - currently : -54.234° latitude, 57.384° longitude The nutshack [ID: 1076] - currently : 39.366° latitude, 305.28° longitude Cloud Ripple [ID: 1071] - currently : -53.136° latitude, 185.148° longitude White line in red band [ID: 1069] - currently : 10.008° latitude, 296.064° longitude Dynamic clouds 1 [ID: 1067] - currently : 7.11° latitude, 251.424° longitude Turbulent maximus [ID: 1066] - currently : -12.6° latitude, 251.316° longitude Wagon Wheel [ID: 1065] - currently : 47.592° latitude, 313.488° longitude LowerCloudyPart [ID: 1064] - currently : -44.874° latitude, 26.784° longitude Tan Seashore [ID: 1062] - currently : -35.766° latitude, 54.252° longitude Southern 369 [ID: 1060] - currently : -59.562° latitude, 48.96° longitude Sky Dunes [ID: 1058] - currently : 8.658° latitude, 340.38° longitude DarkAgent's Vault [ID: 1057] - currently : -2.88° latitude, 201.528° longitude A point of Contrast [ID: 1055] - currently : 4.05° latitude, 338.472° longitude Looking for a Vacuum in Space [ID: 1054] - currently : -3.888° latitude, 305.28° longitude Half-way to the middle of nowhere. [ID: 1053] - currently : -4.752° latitude, 44.028° longitude The Great Red Spot [ID: 1052] - currently : -22.608° latitude, 143.46° longitude Black Hole [ID: 1051] - currently : -13.392° latitude, 240.48° longitude Spotty McSpotFace [ID: 1050] - currently : 48.888° latitude, 160.164° longitude Pippo [ID: 1049] - currently : -73.08° latitude, 340.236° longitude HotSpot [ID: 1048] - currently : 6.768° latitude, 37.584° longitude Outbreak! [ID: 1046] - currently : -11.808° latitude, 281.412° longitude The Big Red Stripe v2 [ID: 1043] - currently : 22.788° latitude, 235.764° longitude Rainbow Band [ID: 1042] - currently : 21.744° latitude, 250.128° longitude Clear Skies [ID: 1039] - currently : 7.056° latitude, 307.836° longitude Structure01 [ID: 1038] - currently : -3.456° latitude, 319.572° longitude Zorro [ID: 1037] - currently : -3.06° latitude, 186.984° longitude Jupiter South [ID: 1034] - currently : -59.994° latitude, 13.608° longitude Dark Clouds [ID: 1024] - currently : 27.018° latitude, 48.492° longitude Dark spot with arc [ID: 1018] - currently : -3.474° latitude, 88.956° longitude Wonderful North Pole [ID: 1017] - currently : 75.006° latitude, 194.256° longitude Thick white band [ID: 1016] - currently : -27.486° latitude, 238.14° longitude The wonderful south pole [ID: 1015] - currently : -72.144° latitude, 299.16° longitude Crown of the king [ID: 1010] - currently : 62.28° latitude, 353.592° longitude Cap of Jupiter [ID: 1004] - currently : 66.978° latitude, 253.62° longitude Belt-Zone border [ID: 1000] - currently : -21.744° latitude, 160.812° longitude Covenant 151016 [ID: 990] - currently : -64.62° latitude, 204.804° longitude Jovian Antartica [ID: 981] - currently : -81.072° latitude, 280.368° longitude An Interesting Band Point [ID: 977] - currently : -48.258° latitude, 125.208° longitude Light-Dark Front [ID: 971] - currently : 53.478° latitude, 325.188° longitude South pole [ID: 970] - currently : 53.82° latitude, 111.384° longitude Turbulent region in upper belt [ID: 959] - currently : 29.844° latitude, 191.664° longitude South Tropical Zone (STrZ) [ID: 950] - currently : -27.558° latitude, 158.508° longitude Rich Band of Clouds [ID: 946] - currently : 14.436° latitude, 107.604° longitude Zones of Lightning Storms? [ID: 945] - currently : 46.71° latitude, 240.156° longitude Juno eye [ID: 944] - currently : 41.724° latitude, 28.872° longitude dark spot [ID: 915] - currently : 43.974° latitude, 346.788° longitude Gas irregulartiy [ID: 839] - currently : 17.586° latitude, 124.92° longitude Great Polar Spot [ID: 830] - currently : 35.946° latitude, 139.068° longitude Langmuir-like Repetitive Flows [ID: 825] - currently : -30.528° latitude, 101.304° longitude Band edge/boundary [ID: 776] - currently : -7.272° latitude, 112.644° longitude Polar Black Spots [ID: 689] - currently : 44.892° latitude, 195.948° longitude Band boundary with striations [ID: 674] - currently : -31.734° latitude, 26.208° longitude Limb Opacity [ID: 662] - currently : 55.692° latitude, 5.796° longitude Merging of Elements [ID: 642] - currently : 5.472° latitude, 84.996° longitude Clearing [ID: 618] - currently : 24.408° latitude, 124.38° longitude AuroraField001 [ID: 591] - currently : 60.192° latitude, 63.54° longitude The Big Red Stripe [ID: 573] - currently : 22.824° latitude, 138.024° longitude Maximus Spatium [ID: 539] - currently : 43.812° latitude, 128.592° longitude Black and... [ID: 494] - currently : 6.768° latitude, 102.24° longitude Darker skies [ID: 468] - currently : 50.85° latitude, 268.704° longitude Beautiful Swirling Clouds [ID: 417] - currently : 1.17° latitude, 24.084° longitude mortyland [ID: 407] - currently : -12.114° latitude, 59.22° longitude Empty Area [ID: 397] - currently : -27.018° latitude, 250.812° longitude Zone-Belt Transition [ID: 376] - currently : -5.256° latitude, 102.384° longitude Fibonacci vortex [ID: 362] - currently : 16.686° latitude, 165.384° longitude Little Greenish place [ID: 341] - currently : 3.42° latitude, 136.98° longitude Colour Strip Change [ID: 325] - currently : -6.138° latitude, 174.132° longitude Deep Band Interface Region - NW of GRS [ID: 324] - currently : -4.464° latitude, 0.64800000000002° longitude Distant Spring [ID: 315] - currently : 2.394° latitude, 174.312° longitude Dark Spot [ID: 306] - currently : 6.462° latitude, 62.1° longitude dark area. [ID: 285] - currently : 6.156° latitude, 357.264° longitude Possible Cloudbreak. [ID: 280] - currently : -2.592° latitude, 356.868° longitude Sharp edge [ID: 271] - currently : 7.866° latitude, 323.532° longitude POI NCC-1701-E [ID: 260] - currently : 15.57° latitude, 322.596° longitude Transition of cloud belt colour [ID: 232] - currently : 5.85° latitude, 195.948° longitude banding boundery [ID: 214] - currently : 14.796° latitude, 186.984° longitude Swirls of clouds [ID: 196] - currently : -6.174° latitude, 16.056° longitude North Pole on Jupiter [ID: 194] - currently : 50.526° latitude, 282.708° longitude Dark Elongated Spot on The North Pole Area [ID: 193] - currently : 39.078° latitude, 255.492° longitude Edge of the White Highway [ID: 192] - currently : -6.552° latitude, 37.26° longitude The Double Swirl [ID: 188] - currently : -10.386° latitude, 68.292° longitude happyequator [ID: 187] - currently : -2.88° latitude, 120.708° longitude cosmic cloud 1 [ID: 183] - currently : 27.018° latitude, 339.984° longitude long, dark canyon [ID: 178] - currently : -8.028° latitude, 224.568° longitude Edge of Great Red Spot [ID: 172] - currently : -22.932° latitude, 41.004° longitude Band Transition [ID: 171] - currently : 13.392° latitude, 278.028° longitude Deep haze [ID: 168] - currently : -62.244° latitude, 223.236° longitude Scott' polar cap [ID: 166] - currently : 64.836° latitude, 205.488° longitude Lower Great Red Spot Atmospheric Flow [ID: 159] - currently : -25.524° latitude, 59.22° longitude Within the Wake of the Great Red Dot [ID: 156] - currently : -10.872° latitude, 142.596° longitude Dark Band [ID: 155] - currently : 31.248° latitude, 272.376° longitude Small White Storm [ID: 154] - currently : 38.826° latitude, 277.416° longitude Fulgur [ID: 144] - currently : -20.736° latitude, 29.16° longitude SPOT OF BRAHMAN [ID: 138] - currently : 13.914° latitude, 140.652° longitude South Equatorial Belt [ID: 128] - currently : -14.958° latitude, 88.164° longitude White Spot [ID: 125] - currently : 14.958° latitude, 4.464° longitude Wake [ID: 122] - currently : -14.778° latitude, 152.136° longitude Double SEB [ID: 118] - currently : -17.568° latitude, 221.076° longitude Dark Spots [ID: 116] - currently : -49.122° latitude, 353.628° longitude Oval BA [ID: 94] - currently : -32.166° latitude, 260.28° longitude black band [ID: 89] - currently : -15.264° latitude, 36.468° longitude A multicolored band [ID: 87] - currently : -17.82° latitude, 115.236° longitude Vaporem Fumi [ID: 84] - currently : -1.638° latitude, 259.704° longitude Patet Caelum [ID: 83] - currently : -0.702° latitude, 244.692° longitude String of Pearls [ID: 76] - currently : -38.7° latitude, 300.204° longitude Dark Spot in Turbulance [ID: 75] - currently : 14.328° latitude, 255.492° longitude Intermediate Atypical Region [ID: 74] - currently : 10.242° latitude, 27.828° longitude Galileo Probe Location [ID: 61] - currently : 4.932° latitude, 347.004° longitude White Spot Z [ID: 27] - currently : 14.328° latitude, 265.356° longitude String of pearl [ID: 26] - currently : -39.132° latitude, 330.624° longitude Sting of pearls [ID: 25] - currently : -39.132° latitude, 19.26° longitude String of pearl [ID: 24] - currently : -38.268° latitude, 96.12° longitude String of pearls [ID: 23] - currently : -38.7° latitude, 346.248° longitude String of pearl [ID: 20] - currently : -39.996° latitude, 278.496° longitude White spot [ID: 13] - currently : -58.698° latitude, 260.712° longitude spot turbulance [ID: 11] - currently : -14.274° latitude, 44.028° longitude Zig Zag [ID: 8] - currently : -1.062° latitude, 77.328° longitude Dark area. [ID: 7] - currently : 4.464° latitude, 116.604° longitude turbulence [ID: 5] - currently : 4.464° latitude, 282.708° longitude
map : 2018-04-11 UT
Cylindrical map generated from data submitted via the JunoCam Planning section.

Notes about cylindrical maps and perijove passes

We create cylindrical maps from the telescopic images supplied by our amateur astronomers, and we update them every 2 weeks. Jupiter has a dynamic atmosphere where winds in the belts (brown) and zones (white) go in opposite directions. Storms develop and evolve, and other atmospheric features come and go. With each new map, we move all of the POI markers — sometimes POIs disappear, sometimes they get torn apart.

In its 53 day orbit, Juno spends most of the time distant from Jupiter. The spacecraft swoops from the north to the south pole in just 2 hours, which we call a "perijove pass". That means that the images JunoCam can take are restricted to a swath of longitude – we will not be able to select from all the points of interest every orbit. On the Voting page we will say which POI's are likely to be within our field of view on a given perijove pass and you will participate in the selection of which POI's to image.

We will have a conversation on every perijove pass about which POIs to image, and the debate will be based on the threads of discussion associated with those POIs. 

General Comments

If you'd like to share commentary on Jupiter's atmosphere that is not related to a specific Point of Interest, please contribute below.


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  1. comment by Davidbowie-39 on 2018-03-17 15:23 UT


  2. comment by Tournefort-29 on 2018-03-16 14:46 UT

    Dear NASA; Juno Mission; SwRI;

    Its been a bitter sweet week for science. But the life and the mission goes on. With risk to become inconvenient I would like to ask the following question:

    JUNO Mission and the JunoCam experiment in combination with Citizen Science and Social Science is the first Space Mission of its kind. For the first time the public can actively participate and interact with the mission.

    Would you rather be so Generously Kind to award the participants with a (Digital Virtual) CERTIFICATE of PARTICIPATION?

    • comment by StarmanSG1 on 2018-04-03 06:00 UT

      I too would like some kind of official recognition...I mean in the digital world if you don't have a selfie then it didn't happen...right? It doesn't have to be much...just keep our names on a volunteer roster open to the public...for those that chose to be published of course...then send us a little certificate we can hang on the wall. That would be nice.

    • comment by StarmanSG1 on 2018-04-03 06:03 UT

      who is Syukumeguri?

    • comment by Tournefort-29 on 2018-04-04 14:08 UT

      The Juno Mission web site server have given you a 'unique identifier' for your Personal Safety and Privacy. There is an option in the account settings to change it with a 'nickname' by your choice; or to use your real Name.

    • comment by Tournefort-29 on 2018-04-04 14:15 UT

      Hey, thanks for sharing the Solar Certificate! I am a huge Fan of the Sun, while I reside in a remote Mountain area where the winter and the snow are about 7 months in total, so I try to enjoy the Sun every day!

      If you want to share a proper image of the Certificate you should try to use the 'Print Screen' Command. I am not very sure that those Internet Virtual Digital Certificates should be printed and hanged on the wall. It is better to stay in a digital form on your computer storage.

  3. comment by Junoilovenasa3382 on 2018-03-06 05:55 UT

    I have a question....how does jupiter's surface gasses stay in perfect formation and not all mix together and explode? Its a beautiful thing to look at but i dont understand how they stay perfectly seperated.

    • comment by Tournefort-29 on 2018-03-06 15:09 UT

      I will try to answer, but you must know that I am not a professional specialist: You probably know about the relations between the Earth and the Moon and the oceans outflows and tides. So, there are theories that the Jupiter bright and reddish Stripes are related with its orbiting planetary satellites. Of course you should add in consideration that the Jupiter is spinning around it axis with a very fast speed, so the satellites are keeping the colors in an approximately straight stripe shape. About the 'gasses' , there is no actual proof that those are gasses and that the chemical ingredients are somewhat explosive. All those are just a theories based on a Planetary Cosmic Space deduction and there is no actual scientific proof. If you are interested, you should check with the teachers; the professors; or someone from NASA.

    • comment by Maquet-80 on 2018-03-19 23:48 UT

      Jupiter's atmosphere consists mostly of hydrogen, and of some helium. Impurites of other gases contribute to form the clouds. There is no mix of gases that would explode, especially no relevant amounts of free oxygen to react with the hydrogen. If abundant free oxygen ever existed on Jupiter, it reacted with abundant hydrogen to water long ago in the past. The colored clouds are made of trace amounts of more complex molecules. If some of the trace water vapor is decomposed by ultraviolet light into oxygen and hydrogen, it's small amounts that will react soon after formation, but without fire or explosion due to the very low abundance.

  4. comment by Tournefort-29 on 2018-03-05 15:37 UT

    I would like to thank you for the fast response JUNO SPECIALIST Candy! I hope you do not mind that I am withdrawing from publicity some of mine contributions and creations from the PROCESSING GALLERY. They will still remain in the https://www.missionjuno.swri.edu/junocam/ server storage though.

    I also would like to ask you or some of the rest of the Team; or the citizen scientists from the 'THINK TANK' sections this type of question: As far as I understand, the JUNO CAM Tool is taking a high resolution images from Planet Jupiter. What we are seeing is a Map created from adjusting the Images of Jupiter Planetary Skin-flakes which are showing large atmospheric formations that are constantly moving and changing. Can you show approximately what part of the Jupiter hard surface or Jupiter land is actually visible? Can this be shown on some sort of Image Map? Or we are seeing just a clouds and atmospheric formations on those Maps?

    • comment by Maquet-80 on 2018-03-19 23:30 UT

      With the visible light camera JunoCam, we can only see atmospheric features on Jupiter, i.e. Jupiter's cloud top, and hazes. Several hundred kilometers below Jupiter's cloud top, and hidden beneath the clouds, Jupiter's atmosphere is compressed more and more under its own weight. At some point, the pressure is large enough to make the gas behaving like a liquid. But as said before, we cannot look this deep with the JunoCam. It isn't known for sure yet, whether Jupiter has a solid core or a solid shell close to its center. Juno's gravity measurements try to infer constraints regarding the structure of Jupiter's deep interior. The gas Jupiter's outer layers consist mostly of molecular hydrogen. The second-most abundant gas is helium. The clouds are made of impurities, like frozen ammonia, water ice, or some photochemical reaction products on the basis of hydrogen, nitrogen, carbon, oxygen, and phosphorus. Those photochemical products may be complex molecules with absorption bands in visible wavelengths defining their color. The details are subject of ongoing research.

    • comment by Tournefort-29 on 2018-03-20 14:28 UT

      Thank you for the answer. Perhaps, there is a possibility the Jupiter atmospheric formations also to contain lot of aerosols? I saw that you Maquet-80 and Philosophia-47 are on the THINK TANK section and are doing great Jupiter Maps. You both are very good at it. Is it possible those bluish colors on the Poles to be actually waters and /or liquids. What part of them is really visible? Can you show this on a conceptual approximate Jupiter Poles Map? Thank You!

    • comment by Maquet-80 on 2018-03-21 00:54 UT

      All the visible clouds are very likely by aerosols on the micrometer scale. The aerosol particles are likely to be solid. Among the most abundant species are probably small particles of ammonia ice and water ice. I don't think, that there exists already an agreement about the precise chemical composition of the bluish, brownish, or reddish chromophores in Jupiter's atmosphere. It's unlikely, that we see droplets of liquids in visible wavelengths in Jupiter's cloud tops.

    • comment by Tournefort-29 on 2018-03-22 15:36 UT

      To be honest the JUNO Mission and the JunoCam are doing GREAT! I mean for 55-60 years of space exploration and 20-25 years of Internet Exploration those are a Vast Achievements. And I mean A VAST!

      I was thinking lately if using the Planetary Space Deduction method and for sample use the Mendeleeys Table of Elements, would it be possible to compare and find which one of those Jupiterian Aerosols are close to the Earth's Aerosol elements with the same colors?

      On the pictures they do look like some sort of Aero-Foam, much denser, more like the Shaving Foam or the Cream Foam. When in contact with air and oxygen they do turn into something with aerosol foam shape...

      The main Point here is that Jupiter is some sort of Hot and Warm - far away from the Sun than the Earth, but still contains a lot of atmosphere and fast moving storms .!

    • comment by Candy on 2018-04-14 02:10 UT

      There is also a little bit of sulfur from Io. Here is a link to a nice article about the Great Red Spot:


  5. comment by Candy on 2018-03-05 04:21 UT

    Thank you so much for your contributions! I'm not sure if these will help at all with the diversity program. I'll see what I can find out.

  6. comment by Tournefort-29 on 2018-03-01 16:23 UT

    Dear NASA; Juno Mission;

    Do you think that this sort of Space Missions combined with a Citizen Science and Social Experiments can be considered and used also as a Work-Shops? I already have created and contributed a:

    1. Half-ready digital Juno Calendar

    2. The 'D' letter blueprint

    3. Unique 'CAPTHA' message generated background feature for digital images Passport Security

    4. 'Jupiter' boutique Chocolate branch

    5. The 'Solar Eclipse' text font variation

    6. 'Jupizzer' boutique Pizza branch

    7. a Tool concept ...?

    Some of the contributions are clearly Artistic; some are related with a Commercial Business; and some are clearly Scientific? Do you think that those electronic digital virtual contributions and creations can be considered as an additional points for the KCC DV's Electronic Diversity Program?

  7. comment by Iapetus on 2018-02-24 10:48 UT

    Just a suggestion but could you snap a picture of Jupiter at the highest point of Juno's orbit? I'd like to see what Jupiter looks like from afar while, relatively speaking, not being that far away. It could also allow for a glimpse at Jupiter's very faint ring system if angled correctly.

    • comment by BrianSwift on 2018-03-01 21:22 UT

      Jupiter's ring is barley detectable by JunoCam. But this is the image taken of it. https://www.missionjuno.swri.edu/junocam/processing?id=2576

    • comment by Tournefort-29 on 2018-03-17 19:36 UT

      I told that the "Jupiter Ring" theory was canceled lately...!? We all saw that there are no visible Rings around Jupiter with the help of the JunoCam, as well as with regular telescopes... The only thing that is visible are those Jupiter Stripes.

  8. comment by Kundry-21 on 2018-02-21 15:17 UT

    I remember seeing a documentary years ago about Chaos theory. It fascinated me because it demonstrated that a large rotating sphere of gas would inevitably create a "spot" much like the Red Spot we see on Jupiter and, until recently, Uranus. I haven't heard anything since, and have wondered if Chaos theory was ever considered to be a causal factor with respect to the spots on Jupiter and Uranus.

  9. comment by Eris-1 on 2018-02-08 19:26 UT

    Hello! I was wondering about a nice and easy way to explain a planet's albedo? Any suggestions?

    • comment by Liberatrix-02 on 2018-02-15 20:37 UT

      Hello! Simply put a planets albedo is the amount of light reflected from the surface of the celestial object (or planet). Whiter objects reflect more light than darker objects absorb more light. Albedo = reflected light/incident light. Values between 0 (dark) and 1(white). Ex. Jupiter's albedo = 0.34

  10. comment by Matsumototaku-74 on 2018-01-12 23:39 UT

    Hi, can someone help me out please. I'm looking to download the RAW images like it says on the site but when I download the files are just crappy 1mb PNG's????? Anyone help? Thanks.

    • comment by Maquet-80 on 2018-02-01 22:32 UT

      The raw images are the greyscale PNGs consisting of stripes / "framelets" of usually 128 pixels height. Everything else is more or less tricky image processing, i.e. a reconstruction of an image of Jupiter from the information encoded in the raw image, and in according geometrical navigation and camera data that can be accessed via NASA's SPICE/NAIF files, combined with the metadata. If you don't like to do your own image processing, take a look at the images processed by the public. A small subset of those can also be found in NASA's Photojournal.

  11. comment by Cecconi-17 on 2018-01-12 22:53 UT

    Is it possible to get a video of a moon of Jupiter eclipsing the sun?

    • comment by Candy on 2018-01-29 23:52 UT

      No, we can't image the sun. It would damage our detector. Sorry!

  12. comment by Heimdal-69 on 2018-01-09 22:59 UT

    I want to see a realtime video (not a stitched together time lapse). What would it look to watch a flyby live as a passenger?

    • comment by BrianSwift on 2018-03-01 21:52 UT

      This video shows a realtime view of what JunoCam sees while it is collecting one image. This would be repeated every 30 seconds with each revolution of the Juno spacecraft. https://www.missionjuno.swri.edu/junocam/processing?id=3190

  13. comment by NGC2021 on 2017-12-22 11:20 UT

    Hello! Love this stuff!

    ... I love stereo imagery and I've been wanting to see some hyperstereo (large interocular distance) pairs from Jupiter. I want to see some cloud depth!

    Does anyone know if there has been a series of images taken pointing at the same basic spot (POI) over a relatively short period of time? - I don't know what the distance needed between images would be (maybe between 1/100 and 1/200 of the distance to the "cloud surface").

    And, if there have not been pictures taken like this, can they be added to the plan/schedule? (Please! :) )

    I can process and arrange/place the images myself, but I need stereo pair sources.

    Thanks for any info...

    • comment by NGC2021 on 2017-12-22 11:30 UT

      It would probably be best to take a series of 3 or 4 images at relatively even intervals so we could try different pairings for different interocular distances.

      Also, does anybody know what kind of height/depth variation there is in the "surface clouds"?

    • comment by Philosophia-47 on 2017-12-26 17:14 UT

      The JunoCam images have not enabled really convincing stereo imaging. Because of the way the camera scans the surface, it does not take images less than 2 minutes apart, in which time the spacecraft moves almost 6000 km (near closest approach which has altitude near 4000 km), so the same region is viewed from quite different angles. The maximum vertical range of the visible clouds is tens of km, but many of them are diffuse on this scale. The most promising features for stereo imaging are the tiny white shadow-casting clouds which appear widespread over many regions in images from PJ6 onwards, and are around 10-50 km across. We have tried to see parallax in some map-projected images of these but the results were not really convincing. If you want to try, the best pairs of images would be among those of the north or south temperate regions taken from PJ6 onwards. (At higher latitudes, the spacecraft is higher and moving slower, so the angles between successive pictures are smaller, but the distance is then too great to resolve likely parallax.) --John.

    • comment by Tournefort-29 on 2018-03-17 19:43 UT

      Hey, I saw you in the 'THINK TANK' section. You are pretty good at creating Jupiter Maps. Can you show us an approximate Map of Jupiter that contains only the visible parts of the surface of Jupiter? I think that those on the Poles are actually waters and /or liquids. What part of the Surface is really visible? Can you show this on a conceptual approximate Map? Thank You!

  14. comment by Vanguard-1 on 2017-12-12 04:54 UT

    Anyone know what time Perijove 10 is on Dec, 16th? (Is it just me or is it weird that this info in not available anywhere on the website and perijove is only 5 days away?)

    • comment by Maquet-80 on 2017-12-13 22:19 UT

      Perijove-10 is 2017 DEC 16 17:56:58 UTC

  15. comment by Cglick on 2017-12-05 17:52 UT

    How about a red spot close up flyby

    • comment by Vanguard-1 on 2017-12-12 04:55 UT

      They did one in July. Images are here on this website. Also nice animation using Juno data was released today.

  16. comment by Turnbull-90 on 2017-11-09 16:25 UT

    Can we download the highest resolution images NASA has?

    • comment by Candy on 2017-11-10 02:26 UT

      Yes, just go to the image processing section of our website.

    • comment by Enigma2018 on 2018-01-08 23:00 UT

      I can't find any high- res raw images on here. They are png files which small only. Can I open with photoshop or do I need special software? I don't see layers of color most of the png files are black and white the combo faint color.

  17. comment by Tournefort-29 on 2017-10-24 14:59 UT

    Dear NASA; Juno Mission;

    excuse me for the not so correct English, but I also have a speech defects in my own native language, for some reason. I would like to ask is it good idea when we have a long-term extraterrestrial scientific space mission to a cosmic body, different than the Earth, for example like space missions to Moon; Mars; Jupiter; Saturn; asteroids and comets; and beyond, we should have installed on the board of the Space Craft a routine necessary Scientific Tools like:

    1. An Inner Camera view from the interior of the space craft. I think it would be very interesting to have an inner observation. Will there be a space crystallization; space patina;

    space oxidation; space micro-particles; space dust inside the spaceship when the mission is lasting for 5-10-30 and more years.

    2. An Inner Camera Micro Observation Window and a Calibration Target Tool next to it when the mission is lasting for 5-10-30 and more years. The tool could be similar to the MSL MAHLI, JUNO Mission LEGO Minifigures experiments; or the ISS HDD Viewing experiment. In this way it will be cool; realistic and really interesting to share; watch and participate in those future epic space journeys.

    • comment by Candy on 2017-11-10 02:27 UT

      This is an interesting idea!

    • comment by Tournefort-29 on 2017-11-23 12:27 UT

      Thanks Giving me an Answer dear JUNO SPECIALIST Candy! I guess it is time to shuffle the things a bit. You must know that I am not a Optical Specialists and Lens Specialist. I will try to re-arrange the Micro-Observation Window Tool concept and centralize the window somehow, so to be possible to position the rest of the experiments around it equally. In this way the specially designed Digital Camera with a Specially Designed Lens will be able to observe the Experiments and the Planetary Window together. As soon as I have a new concept, I will share it again here.

      Anyway, does anyone from the Citizens Science Community is interested in how the 'D' Letter Blueprint were designed and have been invented. Sure, the windy atmosphere and the Vortexes of Jupiter are interesting and important, but the 'D' Letter is also as much as important as them. Without the 'D' Letter we wouldn't have words like Donuts; Democracy; Dollar; Digital; Diversity; Disney; Donald; Duck; Drum; Dream; Day; Denmark; and many more than a Dozens Different words.

      We just can imagine how the ancient humans were finger-pointing into the dark skies with an exactly Half-Moon on it and were perhaps saying something neandertalic like 'THE' or 'D', and than someone have just decided that this image with the Half-Moon should be named 'D'. So, here I am presenting some sort of Digital-Color Experiment on the 'D' Letter and Jupiter combined.

      Well, that is it for now. Happy Planetary Thanks Giving Day across the Globe!

  18. comment by Iapetus on 2017-10-06 07:27 UT

    Could anyone attach these images together? The only ones stitched that I’ve seen have been enhanced images but there aren’t any true colour ones.





  19. comment by ANS-72 on 2017-09-21 06:05 UT

    Very good.

    • comment by Caleyo-11 on 2017-11-13 13:16 UT

      The new face on Juno... Juno watching u too :)

  20. comment by Xavi on 2017-08-21 05:36 UT
    comment removed.
  21. comment by KevinOnJupiter on 2017-08-06 14:20 UT

    Low pressure spirals inward.

    High pressure fans out.

    This feature looks to me like it is spinning clockwise and spiraling inward therefore i believe it is a low pressure and not a high pressure system

    I have seen other white ovals that also spiral inward as well.

    I believe we need to rethink high pressure systems

    as being the dominant storm type on Jupiter.

  22. comment by BrianSwift on 2017-07-14 23:47 UT

    Question for the pipeline team - why is the south pole methane image JNCE_2017192_07M00065_V01-mapprojected.png rotated about 13 degrees relative to the companion RGB image JNCE_2017192_07C00064_V01-mapprojected.png.

  23. comment by Val_Thomas_Abapo on 2017-07-14 01:54 UT

    If stitched raw images from junocam would be shared - It would be great! Good day everyone!

    • comment by Eudora-93 on 2017-07-14 01:26 UT

      Sorry but I am find it difficult to locate unprocessed images, I've looked all around, up and down pages. Looking for a url to point me toward Fit or Tiff files

    • comment by Denali-42 on 2017-07-13 02:08 UT

      I'm not a scientist, just a regular person. But I would like to know in (non-science) why is that spot red? is there a volcano causing the red stain or some other event? Thank you.

      • comment by Liberatrix-02 on 2018-02-15 21:07 UT

        The "Great Red Spot" is still quite debated among scientists on the cause and effect according to nasa.gov. The gas atmosphere consisting mostly of hydrogen and helium is so unlike Earth it's hard to understand the chemical composition and how that effects the physical appearance. Some studies suggest that the other more minuscule gases in the atmosphere such as ammonium hydrosulfide could be reacting with UV radiation from the sun to give it that red color. Although there are many other chemicals that give the appearance of a red color. Ideally there needs to be more lab experiments and studies mimicking Jupiters atmosphere to guess what causes the "great red spot"

        Source: https://www.nasa.gov/feature/goddard/jupiter-s-great-red-spot-a-swirling-mystery

    • comment by HOUSTON_J921 on 2017-07-12 21:01 UT

      Is there a website where those interested can get the raw FITS files of Juno data? I'm assuming that the data coming from the spacecraft is in FITS format and not PNG.

    • comment by Petrginz-75 on 2017-07-02 05:33 UT
      comment removed.
    • comment by rodv92 on 2017-05-31 21:08 UT

      A 3D model of the jovian atmosphere (cloudscape ?)

      Hi. I wonder if it is possible (more "when" than "if") to give an approximate 3D reconstruction of the jovian atmosphere using JIRAM,UWS and MWR.

      Basically combining colorimetric/imaging data and radio data to give an approximate density map of the turbidity,color of the clouds and atmospheric haze. stereoscopy with all instruments cloud also aid in the differenciation of overlapping layers.

      While i am no expert, a good POC for the process could be done using the media (for cloud scattering) feature of POV-ray software and density files.

      The render times would be absurdly long however on a privately owned computer....

      A fast render using JNCE_2017033_04C00107_V01-mapprojected.png as basis for a cloud map can give a fast idea

    • comment by EricDahlstrom on 2017-05-29 22:49 UT

      What is the scale??

      I was just looking for basic info to make some estimates of the physical size of some of the features in the images, and I am not finding anything to help with this question. In the metadata I see the distance from Jupiter is recorded, but what is the width of the camera field of view? I will keep digging.

      The *size* of Jupiter is its most astounding feature. Why are you not communicating the scale of the features in these images? (Reminds me of.. 'Look at my photo of the Grand Canyon.. the depth is estimated to be greater than 10 feet') :-)

    • comment by mirk on 2017-05-24 16:21 UT

      Judging by what I've read in a few articles online, there's no way that the average member of the public is going to be able to produce decent-looking pictures from the Junocam images. The images that the NASA/JPL folks keep on proudly displaying in the community-contributed section just aren't possible without access to really high-end processing software.

      Just for the sake of it, I looked at the software package that a contributor had mentioned in their online article about a popular image. Unless you can afford a software package that retails for a little over US$7000, then you're just not going to be able to produce a decent quality image.

      • comment by Valsecchi-94 on 2017-05-05 13:47 UT

        Because of the magnetosphere around jupiter wouldn't there be a radiatonal belt around jupiter just like our van allen belt? And if there is wouldnt it be alot stronger radiation there than in our belt?

        • comment by Harborseal on 2017-05-05 03:22 UT

          Any chance we could see a photo of Jupiter's rings?

        • comment by Pavlov-65 on 2017-05-04 20:01 UT

          JUPITER TALKING. Right side a big ear expressing "LISTEN" left a white hand thumb on a button, middle a sparkler on ring finger "OR DESTROY"

        • comment by Andrew-Klekociuk on 2017-04-21 10:40 UT

          Definitely interested in the northern foot of the Io flux tube.

        • comment by Alicemonet-89 on 2017-04-01 11:48 UT

          When I download pictures, they are png format. How I can download pictures, that those are raw format and I could modify them with D x O Optics. I suppouse there is very easy solution, but I just can't find it.

        • comment by Manek-08 on 2017-03-31 03:51 UT

          Dose anyone knows what are those spikes around the horizon on the picture The Six Sister Credit: Gervasio Robert 2017-03-27 20:19 UT? out side the edge of the picture.

        • comment by Kenkellermann-27 on 2017-03-25 16:50 UT

          In conjunction with Juno's perijoves, HST has been taking observations of the aurorae. I compiled some of these into animated GIFs. Thought you folks might be interested.

        • comment by Kenkellermann-27 on 2017-03-25 16:39 UT
          comment removed.
        • comment by Saramanshad-42 on 2017-03-22 18:17 UT

          Hello, please tell me what moons of Jupiter Juno will fly at the time of nearest perijove

        • comment by Candy on 2017-03-16 05:11 UT

          We will try to observe the moons but Juno's elliptical polar orbit does not bring the spacecraft very close to them.

        • comment by Munsterman-02 on 2017-03-14 20:04 UT

          Hi everybody! Just asking, during its orbits around jupiter, does Juno could take pictures of the moons? And why not try to look at Europa's plumes?

          • comment by AKHILVERMA_09 on 2017-03-04 03:14 UT

            How will Juno stand up to Jupiter's powerful magnetosphere?

          • comment by Gary-85 on 2017-02-25 00:01 UT

            Hi, I can't seem to download images. I just get a blank file every time. It has been the same for months. Any ideas?

          • comment by Inti-17 on 2017-02-22 16:17 UT

            When the Juno mission launched, i was absolutely ecstatic at the idea of what the mission may reveal. Ever since i was little I fantasized about space and creation. I always thought of the cosmos as part of my spiritualism. Now that pictures are coming back my mind is blown. I love that nasa is allowing the public to vote for picture location.

          • comment by Danae-67 on 2017-02-09 18:25 UT

            Amazing complexity and sharp differentiation of cloud colours/materials at this resolution.

            Would have been interesting to have Juno watch the progression of the NEB disappearance in 2010.

            Any clues as to why NEB was submerged but SEB remained?

          • comment by Asada-94 on 2017-02-09 11:15 UT

            Breathtaking image processing by Petersmith-84:


            Keep the good work lads!

            Thank you so much!

          • comment by rodv92 on 2017-02-08 11:57 UT

            ~0° deg Inclination pictures ?

            Is it projected to have pictures taken at ~0° deg inclination during closest perijove ? it seems that most of what i see in junocam raw, are images taken normal to the orbit. It would be nice to see the cloud/atmosphere interface in a next shot. By the way if such images exist, i did not find them....

          • comment by Parkinson-65 on 2017-02-07 03:18 UT

            I've downloaded some imagesets to my Windows 10 machine but am not able to unzip them. Any ideas??

            • comment by Masumi-18 on 2017-01-31 22:16 UT

              Too bad that Juno doesn't have a spectrometer. It would have been interesting to collect spectra from lightening at different levels of the atmosphere.

            • comment by Triconia-45 on 2017-01-24 04:25 UT

              Its sad to see all these photos of Jupiter and its atmosphere are computer generated images. I was expecting the real deal, what's going on here Nasa?

              • comment by Berryman-92 on 2017-01-23 13:00 UT

                There are enormous storms without lightening.

              • comment by Brungardt-55 on 2017-01-23 12:46 UT

                like to look at a surface over which material movement can possibly happen.

              • comment by Giovarduino-47 on 2017-01-21 21:27 UT

                I would like to see a deep closeup of any of the least turbulent spots throughout the planet, perhaps these are the thinnest and would allow us to see below. On the same subject, is there any understanding of the layering? i.e. highest/lowest points on the cloud cover.

              • comment by Everett-11 on 2017-01-21 07:28 UT


              • comment by TACTICAL8AC0N on 2017-01-20 22:26 UT

                i have a suggestion adrastea will there be a mission to photograph the small moon in the jovian rings?

                • comment by Haltia-92 on 2017-01-20 16:46 UT

                  I think strongly intersting to take picture exately centered on the North or South poles of Jupiter to check for the presence of some stable CICLONIC STRUCTURE similar to those discovered on the Saturn poles

                • comment by Glenn on 2017-01-19 01:48 UT
                  JUNO SPECIALIST

                  On PJ4, I'm hoping we get votes for what appears to be shaping up as a blue-gray region that usually corresponds to a region that's very bright at 5 microns, a so-called 5-micron hot spot, as well as the outbreak structure associated with the North Equatorial Belt (NEB) turbulence following the October outbreak and the more recent South Equatorial Belt (SEB) outbreak. In addition to comments I've made regarding two of these features, I'm wondering whether we might even get a better sense of the absolute altitude differences betweenone cloud layer over another (e.g. the altitude of the upwelling material or the separation between Jupiter's deep clouds), because these features are close enough to the terminator (the separation between daytime and nighttime) that we might observe and analyze shadows of high-altitude cloud layers on lower layers. That would be another first for Juno!! But it all depends on your vote. - Glenn Orton, JPL (Juno coordinator of the Earth-based supporting campaign)

                  • comment by Philosophia-47 on 2017-01-19 01:13 UT

                    Now that POIs are available for voting for Perijove-4, I'd like to offer the following list of suggestions, in order of priority. Details are on our BAA Jupiter Section web site at: https://www.britastro.org/node/8908

                    1) The NTB(S) – the new orange belt. [POI: ‘The Big Red Stripe v2’: latitude +22.7 centric.] A unique opportunity.

                    2) The disrupted NEB north edge. [POI: ‘White Spot Z’ (lat. +14.3)] These latitudes are currently very disrupted from both the NTBs upheaval and NEB outbreaks.

                    3) The new mid-SEB outbreak. [POI: ‘Structure01’ (lat. -13.75)] Another unique opportunity to catch an exciting phenomenon!

                    4) Oval BA and currents east of it. [POI: ‘Oval BA’ (lat. -32.7)] Oval BA may be too far from Juno’s track, but Juno will get a good view of the region east of it which has tended to produce new circulations in recent years.

                    5) SS-AWOs [3 POIs: ‘String of pearls’]. The anticyclonic white ovals of the S.S. Temperate domain.

                    6) NN-LRS-6 [POI: ‘Small white storm’(lat. +36.25 c)]. A beautiful oval, but very like NN-LRS-1 which was imaged at PJ-3.

                    Looking forward to seeing the results! --John Rogers.

                  • comment by Philosophia-47 on 2017-01-18 13:20 UT

                    Attached is a predictive map, showing how I expect the planet to look at perijove-4, and what will be visible to JunoCam. By good fortune, Jupiter is providing a wealth of worthwhile targets to choose from at this flyby! I have posted a list of suggestions on the BAA Jupiter Section web site at: https://www.britastro.org/node/8908

                    --and will post a summary here when voting starts tomorrow. --John Rogers.

                  • comment by Degraaff-69 on 2017-01-09 16:34 UT

                    Why haven't we seen data with the resolution of the New Horizons mission? Is it still coming or is the current resolution the best we will get? I'm commenting on the visible spectum only.

                    • comment by Kenmitchell-61 on 2017-01-05 01:12 UT

                      Hello, right from the start, I thought that one of the most interesting features of Juno mission is a Polar orbit around a celestial object. Would Nasa adopt the same in future missions? That's a very intuitive question on my mind without ever forgetting that this idea borned out of necessity in Juno's case yet such novelties can truly change the way we perceive, observe or record for the simple reason that we're human!

                      Have a nice day ☺


                      • comment by Petekirkland-66 on 2016-12-18 15:01 UT

                        Can we learn anything new about Europa with Juno's instruments???

                      • comment by adzaz on 2016-12-15 01:01 UT


                      • comment by adzaz on 2016-12-15 01:01 UT


                      • comment by Shul'zhenko-81 on 2016-12-11 00:12 UT

                        it seems to me that any view of the area(s) affected by shoemaker-levy impacts might be of interest as it is the only evidence we have of external disturbance(s). granted that the turbulence and depth of the gaseous atmosphere, he speed of rotation and strength of gravity may have pre eminent impact on any atmospheric disturbance, a known starting point has some merit. are the string ofpearls related to S-L impacts? and can the historic images of the impacts be progressed, given the knowns that we have, to arrive at likely areas where vestigial effects could be related?

                        • comment by Wintje on 2016-11-26 03:53 UT

                          I would like to share the notion that I find jupiter's atmosphere very atmospheric. Indeed.

                        • comment by Jimihendrix-78 on 2016-11-13 11:33 UT

                          In the image of Jupiter's south pole (13:56 UT), there are a few dark patches that appear at regular intervals. As they appear on each strip (what I think are the strips), my guess is that these are artifacts on the image sensor and should be removed when processing? I think that I can see some of them appear on the 11:57 UT too.

                          • comment by Dolby-26 on 2016-11-04 17:41 UT

                            Visit http://solarsystem.nasa.gov/galileo/ for HD images of Jupiter and the moons.

                            If you are here looking for pictures and not the science, you will be very disappointed.

                            • comment by Candy on 2016-11-03 23:46 UT
                              JUNO SPECIALIST

                              You may have noticed that our map is a bit stale. We will have a new one soon as our amateur astronomers start to get good images again.

                            • comment by Berwald-67 on 2016-10-31 18:35 UT

                              Would it be possible to image regions of Jupiter under the influence of a shadow transit (solar eclipse by one of four Gallilean moons)? The idea would be to use the shadow as a "spotlight" to provide contrast and depth perception and perform 3-D reconstruction of atmospheric features. The remote sensing community might know how to obtain and model the data from such an endeavor.

                              • comment by Johnsophie-57 on 2016-10-26 15:50 UT

                                Nice work John Rogers, can we get a d-scale [miles] up on it [https://www.missionjuno.swri.edu/junocam/processing?id=160]

                                The first 2 arrows from the right pointing at N2 band tubule looks prominent! Is Aug 27, 2106 the date when the image was taken by JunoCam?

                                • comment by Johnsophie-57 on 2016-10-21 18:06 UT

                                  JunoCam have an Amalthea filter button? Any POI @ Ama.?

                                • comment by Dohmoto-36 on 2016-10-14 21:22 UT
                                  comment removed.
                                  • comment by Sheba-94 on 2016-10-09 23:08 UT

                                    Hello. Just wanted to mention that you should and I hope that a "huge amount of pictures" are taken of Jupiter. Almost all of them are going to be interesting and worthwhile. Just hope that a lot of work occurs in getting them and processing them!

                                  • comment by Mobberley-45 on 2016-10-03 18:19 UT

                                    20.00 N, 78.00 E

                                  • comment by Dahlstrom-19 on 2016-08-27 14:48 UT

                                    Juno Mission - Fantastic work! Congratulations to everyone involved. I followed the real-time simulation via the Nasa's Eyes Visualization Software and it was absolutely mind boggling when the craft came in to approx 2,500 miles orbit. Truly awe inspiring. Cannot wait for the pictures and science data.

                                  • comment by Jeon-10 on 2016-08-27 02:27 UT

                                    NASA.Some great achievements you've done I am really excited about Juno!!

                                  • comment by Bach-22 on 2016-08-25 06:16 UT

                                    The Juno mission, how exciting - what amazing achievements so far! Unfortunately your NASA website design and global news covering this historical event is infantile to say the least. Why???

                                    • comment by Ikemura-52 on 2016-08-24 17:44 UT

                                      I do not know much about it , but in my opinion Juno should stay in a safe place where he can observe without being damaged .

                                    • comment by Ikemura-52 on 2016-08-24 17:42 UT

                                      I would like to know more about the storms.

                                      The storms are always in the same places ?

                                    • comment by Kubota-47 on 2016-08-09 16:17 UT
                                      comment removed.
                                    • comment by Kubota-47 on 2016-08-09 16:06 UT

                                      what wave length does juno use to send data back to earth?

                                    • comment by Kubota-47 on 2016-08-08 17:07 UT

                                      how big is the great red spot?????

                                    • comment by Candy on 2016-07-27 04:22 UT
                                      JUNO SPECIALIST

                                      Right now the spacecraft is in a 53.5 day orbit. On August 27 the spacecraft will make another close pass of Jupiter, like Jupiter Orbit Insertion, except this time we will have all the instruments powered on. We will be taking a series of "test" images with JunoCam as we try out different combinations of exposures and lighting geometries to see what will work best. We will see if we are able to detect the aurora.

                                      We refer to the spacecraft close passes as "PeriJove (PJ) Passes". Jupiter Orbit Insertion was PJ0 and the pass on August 27 is PJ1. The spacecraft will head out on another 53.5 day orbit and then on PJ2 the spacecraft will perform another maneuver that will put Juno into a 14 day orbit. On PJ3 we will do some more tests, then beginning with PJ4 we will ask you, our virtual imaging team, to participate in the decision-making process of deciding where to take images. The "Voting" webpage will be open November 4 to select our images to be taken November 16. The bulk of our images will be taken within an hour of closest approach. One hour before closest approach the spacecraft will be over the north pole. Just 2 hours later the spacecraft will have passed the equator and we'll be looking at the south pole. Then the spacecraft will be outbound and Jupiter will be quickly shrinking in our field of view.

                                      • comment by Candy on 2016-07-27 03:57 UT
                                        JUNO SPECIALIST

                                        Hi, Welcome to the JunoCam virtual imaging team! This will be our location for discussing what we see going on in Jupiter's atmosphere. Once we are in the 14-day orbits in November we will use this part of the website to have a conversation about what we want to learn with our images. On the voting page we will discuss what to do on a particular pass. We will talk about the science opportunities and the technical constraints in the same way an imaging team would around a conference table. We will make the decisions about how to use our resources together.

                                      • comment by Antwerpia-14 on 2016-07-25 00:25 UT

                                        Will the results of the magnetometer sensors and other sensors be available to the public for review?

                                      • comment by Fruits-10 on 2016-07-22 11:44 UT

                                        There's a dark spot on Jupiters( -1.37° latitude and 19.483° longitude),what can it be?

                                        • comment by Kirkland-73 on 2016-07-18 19:45 UT

                                          This is all so fascinating. Its a privilege to be here as the adventure unfolds. I wonder what Galileo would say.

                                          • comment by Shoyo-21 on 2016-07-13 09:17 UT

                                            I really would like to observe some of the Aurora activity

                                          • comment by Hobart-91 on 2016-07-13 03:33 UT

                                            I'd like to suggest that Juno study the dark side of Jupiter. Have any probes studied that side of Jupiter which is not lit by the sun? I know I have seen lightning photos of the dark side of Jupiter, but has anything deeper been done? When photographing the bright side of any object, it washes out any detail on the darker parts of the image. Couldn't Juno photograph ONLY the dark side or sections of the dark side so that inner detail in the atmosphere be seen? Who knows what we could discover about the lower atmospheric layers. Do they glow? This could be like the Hubble concentrating on a completely dark spot on the sky and discovering thousands of far away galaxies. Who knows what we could "see" inside Jupiter's dark side atmosphere?

                                            • comment by Hobart-91 on 2016-07-18 01:34 UT

                                              You said, "I don't know what the scientific merit of studying the night side of Jupiter would be (if anyone has an answer or more information on that, I'd love to know!) ". That is exactly the reaction given to the people who proposed aiming Hubble at a completely dark patch of the sky and they "discovered" thousands of distant galaxies. It is precisely because we do not know what we would see that is the reason for looking at the night side.

                                            • comment by Ots-78 on 2016-07-18 17:24 UT

                                              @Moa-90 wrote:

                                              > Now, I don't know what the scientific merit of studying the night side of Jupiter

                                              > would be (if anyone has an answer or more information on that, I'd love to know!)

                                              - How about studying mid-latitude auroras? Airglow? Sprites?

                                              - Lightning -- Is there lightning? If so, how is it distributed?

                                              - Do storm cells affect auroras, airglow, or lightning concentrations?

                                              - Can micro-meteors be detected from the re-entry flash? If meteors can be seen, what is their rate? How does this affect the accumulation of solid matter at the planet's core?

                                              - Can we view the sun through the limb of the atmosphere? This may give us a better feel for the density and opacity of the atmosphere and its layers.

                                              - Depending on the capabilities of the camera, atmospheric limb viewing may also reveal atmospheric constituents based on the absorption/transmission of sunlight through the atmospheric limb.

                                              The list goes on and on! The only limit is your imagination.

                                            • comment by Moa-90 on 2016-07-26 23:19 UT

                                              It seems I worded my last sentence somewhat poorly, my apologies! I wasn't trying to dismiss the possibility of finding something (or many things!) of scientific interest in studying the night side of Jupiter. As Hobart said in his reply, "That is exactly the reaction given to the people who proposed aiming Hubble at a completely dark patch of the sky..." I was trying to convey that I didn't know what we would be looking for, and I was hoping that someone like yourself would add in such information. My main point was that it would likely be more difficult to study it with the Juno spacecraft. But, like I said, I could be wrong! Thanks for your comments.


                                            • comment by Kubota-47 on 2016-08-08 16:53 UT

                                              a lot of people think the same thing, but juno must have its solar panels face the sun:(

                                          • comment by Lanusei-23 on 2016-07-12 06:54 UT

                                            Question 1) Given that "Jupiter has a dynamic atmosphere"... how come, that the picture of Jupiter from the NASA article "Jupiter's Great Red Spot is Shrinking" from May 2014 looks exactely the same as "Hubble Captures Vivid Auroras in Jupiter’s Atmosphere" in June 2016 8except fot the lightblue aurora at the pole)? Question 2) How come that the footage of JUNO's fly by of earth and moon in 2013 shows no stars at all in the black sky?

                                            • comment by Lanusei-23 on 2016-07-12 13:41 UT

                                              "All planetary images have black background." Huh? So, how come that Hubble deliveres such beautiful space-pictures? And the aurora must have been photo shopped by NASA employees, because it is published on NASA's official website... Such tricks do not instill trust :-(

                                            • comment by Tell-45 on 2016-07-13 01:41 UT

                                              The aurora was obviously put onto a Jupiter image (by some public outreach guy I suppose) in order to show how large it is and where it is on the planet! The aurora image itself is pretty abstract. They were not trying to keep any aliens secret. "Canada was pink on the map in my school book, but I've been to Canada and the ground isn't pink there!" Don't pretend to be so stupid, Lanusel-23! I don't know anything about cameras, but if there's a big fat bright planet in the image, then tiny faint stars cannot be imaged next to it. Put a sand grain next to a spot light and image it with your smart phone and you will discover this.

                                            • comment by Tom on 2016-07-21 22:15 UT
                                              JUNO SPECIALIST

                                              Actually, Jupiter's aurora are visible in other wavelengths or "colors" of light not sensed by the human eye, such as 3.3 microns, which is sensitive to H3+ emission. So by taking an image of Jupiter in that wavelength and overlaying it on a visible image of Jupiter, we can show the aurora and the visible planet at the same time. It is not a trick, the data is real...it's just overlaying snapshots taken in different wavelengths of light.

                                            • comment by Kubota-47 on 2016-08-08 16:48 UT

                                              makes sences

                                          • comment by Pal'chikov-74 on 2016-07-11 23:11 UT

                                            The Planetary Society just released a blog post on the meteorology of Jupiter. It explains a lot about the cloud features of Jupiter and about what we could learn from JunoCam.


                                            • comment by Hitchens-95 on 2016-07-11 17:55 UT

                                              I would like to see images related to the antipode of the giant red spot. It would be interesting to see if there are any signs congruent on the opposite side of the planet.

                                            • comment by Pal'chikov-74 on 2016-07-10 23:23 UT

                                              Congratulations to the Juno team on a historic accomplishment! I am excited to see what light the spacecraft can shed on our origins!

                                            • comment by Tell-45 on 2016-07-10 20:07 UT

                                              Maybe Juno could get closer to Io, above its pole, as Juno approaches or departs from Jupiter than during perijove? Maybe remaining fuel could allow getting even closer in the end. But Io is very impopular, I've never heard of any interest of examining it. And NASA is extremely afraid of the aliens everyone KNOWS live inside Europa, so I'm sorry. And Juno is not well equipped to study it anyway.

                                              • comment by Pratchett-34 on 2016-07-10 21:57 UT

                                                When the spacecraft dives into Jupiter the sheer heat and pressure as it descends will rip any biological organism to atoms. It will be sterilized so that there is no chance of contamination of Europa.

                                              • comment by Pratchett-34 on 2016-07-11 04:57 UT

                                                If we get confirmation that they even exist? I guess so. There might be nothing there and simply the building blocks of organic life. I mean, it was sheer astronomical coincidence that Earth could even sustain life due to being in the Goldilocks Zone for liquid water and other factors. Then, it was possibly another unlikely event that caused those organic particles to even form into the basis of life. If we find life it'd be amazing, but it's still a big if.

                                              • comment by Miyamoto-47 on 2016-07-12 05:12 UT

                                                Yes. That would very exciting to find even the most basic forms of life. What amazing times we live in.

                                              • comment by Kubota-47 on 2016-08-08 17:26 UT
                                                comment removed.
                                            • comment by Pratchett-34 on 2016-07-09 17:36 UT

                                              Could we get an example sample of the data that Juno would send back? Perhaps the programmers here could write tools to process it and upload it here.

                                            • comment by Tell-45 on 2016-07-09 09:45 UT

                                              @Californa-53, Io happens to be of the same size and is at a similar distance from Jupiter as Earth's moon is. Juno will pass about 300,000 km from Io when they happen to be on the same side of the planet. So I think it would be possible. Like imaging a volcanic eruption on our Moon. Io deserves its own missions, it would be spectacular.

                                            • comment by California-53 on 2016-07-09 01:12 UT

                                              Hey everyone, would it be a good idea to point Junocam to Io? Last time we visited in 2007 we found a new volcano, I want to see how that new volcano has changed.

                                            • comment by Mitidika-00 on 2016-07-09 00:35 UT
                                              comment removed.
                                            • comment by Mitidika-00 on 2016-07-09 00:35 UT

                                              1. I apologize in advance if I sound rude, but when are we gonna start seeing photos from Juno? I know scientific studies won't be known until September, but at least Juno can take pictures, right?

                                              2. Why didn't they send a flying drone-like probe into Jupiter's atmosphere?

                                              3. When will a probe be sent to Europa?

                                            • comment by Pratchett-34 on 2016-07-07 08:12 UT

                                              With the raw images will we get sensor readouts, spectrographs, etc. as well. Possibly in a ZIP or for more compression and to be able to programmatically stream and extract contents on the fly a tar.gz archive

                                            • comment by Pratchett-34 on 2016-07-07 07:48 UT

                                              Will the spacecraft send back pictures as it burns up in Jupiter's atmosphere at the end of the mission? It's be cool to see what is underneath the surface.

                                              • comment by Raahe-22 on 2016-07-07 04:40 UT

                                                I would like to look at raw images. I love browsing Cassini raw images of Saturn. Where can I see raw images from Juno?

                                                • comment by Bickerton-16 on 2016-07-07 02:14 UT

                                                  Does anyone know if/where I can obtain Juno's orbital elements? It doesn't matter how sketchy they are, I know they'll improve over time. I'd like to plug them into one of the sky-visualization applications to be able to show the kids (lesson plan when school starts again) "If you were riding on Juno right now here's what you'd see" looking toward Jupiter and back toward Sol. Thanks!

                                                  • comment by Bickerton-16 on 2016-07-07 13:38 UT

                                                    Thanks for the tip; I know I could do it that way. But there's a method to my madness in wanting to do it 'offline', as such, and some of the hardware I want to show it on (planetarium projector) isn't internetted. Also i'd have the ability to project the orbit forward/backward and back-calculate an approach to make it look good.

                                                  • comment by MatusMotlo on 2016-07-08 08:12 UT

                                                    I didn't find any parameters of orbits. Maybe a little dip inside internet will show them.

                                                • comment by Romaplanetario-23 on 2016-07-06 21:49 UT

                                                  Can't wait! Nasa's images are always top notch. They certainly earn their tax dollars, that's for sure.

                                                • comment by Savalle-08 on 2016-07-06 13:41 UT

                                                  Why do you only show cartoon animations? no real pictures. Another question, how is it possible for JUNO to survive the extreme radiation from Jupiter? And nothing happens to the spacecraft? Was it really so important to take LEGO!! with you? When are we going to see a real picture or video footage of the whole earth spinning in space?? If JUNO's camera is simelar to a camera on your smartphone it should be able to do that?

                                                  • comment by Pare-86 on 2016-07-06 13:38 UT

                                                    I hope all goes well for Juno and congratulations to all the teams involved. Can we expect images of lightning storms? I would be interested to know whether Jovian lightning storms occur only in water/ice clouds or also in ammonia clouds as well.

                                                  • comment by Kenmitchell-61 on 2016-07-06 09:48 UT

                                                    Hello, we all know now that Juno mission's focusing exclusively on Jupiter and especially the poles yet, can-we still expect anything concerning the Moons and particularily Europa in coming months? Thanks

                                                  • comment by Botticelli-29 on 2016-07-06 05:21 UT

                                                    Exciting and can't wait to see all of its findings

                                                  • comment by Tsia-92 on 2016-07-06 05:19 UT

                                                    Such a cool idea to let the public have a say what pictures are taken. BRAVO! I posted I would like to see a shot across the South Pole back toward the Sun and hopefully some Aurora show up in the picture. Not sure how well the picture would come out with all that light, but maybe it will turn out great!!! Good luck everyone and Thanks NASA and all those behind this project!!! Tsia-92

                                                  • comment by Orestelesca-53 on 2016-07-06 05:04 UT

                                                    I'm so excited about being part of tihs historic mission. I can't wait to get back to school and share the findings with my Astronomy students!

                                                  • comment by Llull-22 on 2016-07-06 04:54 UT

                                                    Please photos of where Shoemaker comet impacted

                                                    • comment by Euphemia-39 on 2016-07-06 04:50 UT

                                                      This is interesting. Hope to see more of the gas giants.

                                                    • comment by Puertollano-76 on 2016-07-06 04:50 UT

                                                      Excited to be a part of history and discovery of our giant planet out in the cosmos :-) #WeAreAllStarstuff

                                                    • comment by Spicer-77 on 2016-07-06 04:46 UT

                                                      I am so incredibly excited about what we can find out about this beautiful, but terrifying planet in our celestial neighborhood

                                                    • comment by Andanike-93 on 2016-07-06 02:38 UT

                                                      So cosmically fabulous

                                                    • comment by Stargazer-32 on 2016-07-06 02:16 UT


                                                    • comment by Pounds-30 on 2016-07-06 02:15 UT

                                                      Absolutely amazing to look at

                                                    • comment by Spencer-02 on 2016-07-06 02:07 UT
                                                      comment removed.
                                                    • comment by Gio-50 on 2016-07-06 02:05 UT

                                                      I have 3D vision capabilities without glasses. Is their a way you can provide me 2 stereo pics of jupiter to review my location interest for Juno to look at. The photos I suggested are not the red and blue pics. They are photos at different time pics but close together. This will unable me to view the depth of Jupiter clouds. Thank you.

                                                    • comment by Konstanz-45 on 2016-07-06 01:51 UT

                                                      Looking at the science channel now, I can't control my excitement.

                                                      • comment by Mizugaki-20 on 2016-07-06 01:46 UT

                                                        I look forward to all the information that will be uncovered in the months to come!

                                                      • comment by Pratchett-34 on 2016-07-06 01:42 UT

                                                        This has moderation, so 4Chan won't have a huge influence.

                                                      • comment by Hiroshikanai-96 on 2016-07-06 01:42 UT

                                                        I can't wait to see

                                                      • comment by Johnheise-43 on 2016-07-06 01:42 UT

                                                        Even if my spot isn't selected, I can't wait to see the images Juno sends back!

                                                      • comment by Chinmoy-75 on 2016-07-06 01:41 UT

                                                        We should really try to understand Jupiter, and how Jupiter protects us from asteriods

                                                      • comment by Pygargus-11 on 2016-07-06 01:39 UT

                                                        Sadly I think this may end up like the dub the dew contest and reach mecha kek

                                                      • comment by Apuleius-09 on 2016-07-06 00:40 UT

                                                        Yes we want to see!! So exciting!

                                                      • comment by Vargha-21 on 2016-07-06 00:27 UT

                                                        Ditto JPL…when are the first images expected, were there any taken during the POI?

                                                      • comment by Cortina-96 on 2016-07-06 00:13 UT

                                                        Ready for Juno to look through the veil

                                                      • comment by Deidre-97 on 2016-07-05 23:24 UT

                                                        THIS IS SO EXCITING

                                                      • comment by JPL-53 on 2016-07-05 23:17 UT

                                                        So when can we expect the first images?

                                                      • comment by Ocasio-Cortez-76 on 2016-07-05 23:00 UT

                                                        This level of interaction with the public is long over due! This will make these projects cool again when we do not have to wait years to enjoy the results. Kudos NASA you nailed this one spot one!!

                                                      • comment by Sor-63 on 2016-07-05 21:24 UT

                                                        Amazing ! Thanks for nasa this event wonderful

                                                      • comment by bzznzo on 2016-07-05 20:44 UT

                                                        this is very exciting!

                                                      • comment by Buddy-42 on 2016-07-04 19:27 UT

                                                        they said that not all JunoCam images would be released.. it depends on how "interesting" they are. Boooooo! JunoCam is supposed to be the people's camera. Release ALL images, no matter how boring you think them to be, like Cassini does. Who knows- we might find an extra moon from just a boring image of stars!

                                                      • comment by Lemeshev-51 on 2016-07-04 13:13 UT

                                                        Will there be live video feed from jpl?

                                                        • comment by Batllo-12 on 2016-07-04 11:12 UT

                                                          wow what a great thing for NASA to share with us all

                                                        • comment by Tros-29 on 2016-07-03 23:46 UT

                                                          I would like to see the icy surface details of Europa, and see what more in-depth spectroscopy we can get of the water layer beneath.

                                                        • comment by Penelope-43 on 2016-07-03 21:16 UT

                                                          Would love to see more detail of Jupiter's atmosphere being p