Loading Profile...
Blogger Draft Problems
When i log into Blogger Draft panel, i click New Post and i can't edit code anymore, i can't switch HTML or Write mode, just freeze qhen Zemanta loads.
Internet explorer 8.0 RTM on Vista x32
Here's my debug:
Zemanta extension enabled
SCRIPTS
zemanta-widget.css: ok
jquery.js: ok
jquery.zemanta.js: ok
platform.js: ok
ENVIRONMENT
Browser: msie
Version: 8.0
User agent: Mozilla/4.0 (compatible; MSIE 8.0; Windows NT 6.0; Trident/4.0; GTB6; SLCC1; .NET CLR 2.0.50727; Media Center PC 5.0; .NET CLR 3.5.30729; .NET CLR 3.0.30618)
API
key: 7d35xujawqh6xsjg5km9mvsx (ok)
proxy: null (ok)
api_url: http://api.zemanta.com/services/rest/... (ok)
zemanta.preferences: {"status":"ok","amazon_id":"","pixie":"203","return_rdf_links":"1","image_position":"0","stage":"0","readside_javascript":"","name":"","config_url":"http://prefs.zemanta.com/user2/9d60b530e1919efd3ccb59c3f661cf87/","social_timestamp":"0000000049f643173d63ccdc2706c31a06b3fab72c2a7315","doctype":"0","flickr_user_id":"31653666@N05","logged_in":1,"api_key":"7d35xujawqh6xsjg5km9mvsx"}
zemanta.suggest: {"status":"ok","articles":[{"url":"http://www.space.com/scienceastronomy/090414-st-perchlorate-sludge.html","confidence":0.026912,"published_datetime":"2009-04-14T15:14:35Z","zemified":0,"title":" Mars Sprinkled with Salty Mysteries "},{"url":"http://r.zemanta.com/?u=http%3A//www.telegraph.co.uk/scienceandtechnology/science/space/4689871/Anti-freeze-chemicals-could-indicate-life-on-Mars.html&a=3259268&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=78052f0907d96f4b93cb2971c65c816a","confidence":0.015265,"published_datetime":"2009-02-18T16:04:10Z","zemified":0,"title":"Antifreeze chemicals 'could indicate life on Mars'"},{"url":"http://www.sciam.com/blog/60-second-science/post.cfm?id=did-the-phoenix-lander-spot-liquid-2009-03-17","confidence":0.014745,"published_datetime":"2009-03-17T22:50:00Z","zemified":0,"title":"Did the Phoenix lander spot liquid water on Mars?"},{"url":"http://www.lockergnome.com/news/2008/12/23/life-on-mars-elusive-mineral-bolsters-chances/","confidence":0.013059,"published_datetime":"2008-12-23T23:24:11Z","zemified":0,"title":"Life On Mars? Elusive Mineral Bolsters Chances"},{"url":"http://r.zemanta.com/?u=http%3A//www.time.com/time/health/article/0%2C8599%2C1877434%2C00.html%3Fxid%3Drss-health&a=3140049&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=81de26acf4d454973b656a5049603b74","confidence":0.012734,"published_datetime":"2009-02-12T15:55:00Z","zemified":0,"title":"Are We Bringing Our Germs to Mars?"},{"url":"http://r.zemanta.com/?u=http%3A//www.time.com/time/health/article/0%2C8599%2C1877434%2C00.html%3Fxid%3Drss-topstories&a=3023421&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=fafd278046faafa43c31e9e3ffbea51c","confidence":0.012699,"published_datetime":"2009-02-06T15:25:00Z","zemified":0,"title":"Are We Bringing Our Germs to Mars?"},{"url":"http://r.zemanta.com/?u=http%3A//www.guardian.co.uk/science/2009/jan/27/mars-snow-space-technology-nasa&a=2852575&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=6c21cbfd09ba486cc0c5cc45daafdf96","confidence":0.011874,"published_datetime":"2009-01-27T00:01:00Z","zemified":0,"title":"Ian Sample reports on the extraordinary information being sent back from Mars"},{"url":"http://blogs.discovermagazine.com/badastronomy/2009/02/19/universe-today-liquid-water-on-mars/","confidence":0.010435,"published_datetime":"2009-02-19T21:00:46Z","zemified":0,"title":"Universe Today: short-term liquid water on Mars?"},{"url":"http://www.space.com/scienceastronomy/090330-phoenix-habitable-mars.html","confidence":0.009894,"published_datetime":"2009-03-30T21:30:56Z","zemified":0,"title":" 'Most Habitable Zone' on Mars Revealed "},{"url":"http://news.bbc.co.uk/2/hi/technology/7808917.stm","confidence":0.009177,"published_datetime":"2009-01-03T09:27:29Z","zemified":0,"title":"Mars rovers roll on to five years"}],"markup":{"text":"The Phoenix Mars Lander has successfully deployed its robotic arm and tested other instruments including a laser designed to detect dust, clouds, and fog. The arm will be used to dig up samples of the Martian surface which will be analyzed as a possible habitat for life.","links":[{"confidence":0.391997,"anchor":"Phoenix Mars Lander","target":[{"url":"http://www.nasa.gov/mission_pages/phoenix/main/index.html","type":"homepage","title":"Phoenix Mars Lander"},{"url":"http://en.wikipedia.org/wiki/Phoenix_%28spacecraft%29","type":"wikipedia","title":"Phoenix (spacecraft)"},{"url":"http://www.youtube.com/watch?v=tR91HkTZ9VY","type":"youtube","title":"Phoenix Landing"}]},{"confidence":0.285929,"anchor":"Martian","target":[{"url":"http://en.wikipedia.org/wiki/Mars","type":"wikipedia","title":"Mars"}]},{"confidence":0.230226,"anchor":"robotic arm","target":[{"url":"http://en.wikipedia.org/wiki/Robotic_arm","type":"wikipedia","title":"Robotic arm"}]},{"confidence":0.221716,"anchor":"habitat","target":[{"url":"http://en.wikipedia.org/wiki/Habitat","type":"wikipedia","title":"Habitat"}]},{"confidence":0.206564,"anchor":"fog","target":[{"url":"http://en.wikipedia.org/wiki/Fog","type":"wikipedia","title":"Fog"},{"url":"http://www.youtube.com/watch?v=r8FPWRj_TKo","type":"youtube","title":"Lake Ontario Steaming"}]}]},"images":[{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the Phoenix Mars Lander parachutes down to the surface of Mars on May 25, 2008 in the northern polar regions of Mars. The image was taken by the High Resolution Imaging Science Experiment (HiRISE) camera on NASA's Mars Reconnaissance Orbiter. The Phoenix Mars Lander is the newest hope in the search for signs of life on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":141,"url_s":"http://cache.daylife.com/imageserve/06IFgPa1lVcpj/75x75.jpg","source_url":"http://www.daylife.com/image/06IFgPa1lVcpj?utm_source=zemanta&utm_medium=p&utm_content=06IFgPa1lVcpj&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/06IFgPa1lVcpj/141x150.jpg","url_l":"http://cache.daylife.com/imageserve/06IFgPa1lVcpj/141x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":141},{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the Phoenix Mars Lander parachutes down to the surface of Mars on May 25, 2008 in the northern polar regions of Mars. The image was taken by the High Resolution Imaging Science Experiment (HiRISE) camera on NASA's Mars Reconnaissance Orbiter. The Phoenix Mars Lander is the newest hope in the search for signs of life on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":141,"url_s":"http://cache.daylife.com/imageserve/041Vbe19AZ0AI/75x75.jpg","source_url":"http://www.daylife.com/image/041Vbe19AZ0AI?utm_source=zemanta&utm_medium=p&utm_content=041Vbe19AZ0AI&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/041Vbe19AZ0AI/141x150.jpg","url_l":"http://cache.daylife.com/imageserve/041Vbe19AZ0AI/141x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":141},{"url_m_h":240,"confidence":0.5,"url_s_h":75,"attribution":"Image by PhOtOnQuAnTiQuE via Flickr","description":"PhotonQ-Phoenix First MARS view","license":"License CreativeCommons NonCommercial NoDerivs","url_l_w":375,"url_s":"http://farm2.static.flickr.com/1021/1001797732_b8e79ab25d_s.jpg","source_url":"http://www.flickr.com/photos/67968452@N00/1001797732","url_m":"http://farm2.static.flickr.com/1021/1001797732_b8e79ab25d_m.jpg","url_l":"http://farm2.static.flickr.com/1021/1001797732_b8e79ab25d.jpg","url_l_h":500,"url_s_w":75,"url_m_w":180},{"url_m_h":240,"confidence":0.5,"url_s_h":75,"attribution":"Image by gate3003 via Flickr","description":"Day 2 14.19.40 Phoenix Mars Lander 3-D Anaglyphs","license":"License CreativeCommons Attribution only","url_l_w":458,"url_s":"http://farm4.static.flickr.com/3043/2530611038_f490407155_s.jpg","source_url":"http://www.flickr.com/photos/48836503@N00/2530611038","url_m":"http://farm4.static.flickr.com/3043/2530611038_f490407155_m.jpg","url_l":"http://farm4.static.flickr.com/3043/2530611038_f490407155.jpg","url_l_h":500,"url_s_w":75,"url_m_w":220},{"url_m_h":240,"confidence":0.5,"url_s_h":75,"attribution":"Image by gate3003 via Flickr","description":"Day 1 17.07.41 Phoenix Mars Lander 3-D Anaglyphs","license":"License CreativeCommons Attribution only","url_l_w":414,"url_s":"http://farm4.static.flickr.com/3060/2529792453_20e89b6663_s.jpg","source_url":"http://www.flickr.com/photos/48836503@N00/2529792453","url_m":"http://farm4.static.flickr.com/3060/2529792453_20e89b6663_m.jpg","url_l":"http://farm4.static.flickr.com/3060/2529792453_20e89b6663.jpg","url_l_h":500,"url_s_w":75,"url_m_w":199},{"url_m_h":186,"confidence":0.99,"url_s_h":70,"attribution":"Image via Wikipedia","description":"range map of the African Elephant (Loxodonta africana): that includes the Savanna Elephant (Loxodonta [africana] africana) and Forest Elephant (Loxodonta [africana] cyclotis).","license":"CC Attribution ShareAlike 2.5 license","url_l_w":1390,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ef/African_Elephant_distribution_map.svg/75px-African_Elephant_distribution_map.svg.png","source_url":"http://commons.wikipedia.org/wiki/Image:African_Elephant_distribution_map.svg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ef/African_Elephant_distribution_map.svg/200px-African_Elephant_distribution_map.svg.png","url_l":"http://upload.wikimedia.org/wikipedia/commons/e/ef/African_Elephant_distribution_map.svg","url_l_h":1295,"url_s_w":75,"url_m_w":200},{"url_m_h":200,"confidence":0.99,"url_s_h":75,"attribution":"Image via Wikipedia","description":"STS003-09-444 -- On Space Shuttle mission STS-3, March 1982, the Canadarm is used to capture and maneuver an object-- the plasma diagnostics package (PDP)","license":"Public domain","url_l_w":4116,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/65/STS-3_Canadarm_captures_PDP.jpg/75px-STS-3_Canadarm_captures_PDP.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:STS-3_Canadarm_captures_PDP.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/65/STS-3_Canadarm_captures_PDP.jpg/200px-STS-3_Canadarm_captures_PDP.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/6/65/STS-3_Canadarm_captures_PDP.jpg","url_l_h":4116,"url_s_w":75,"url_m_w":200},{"url_m_h":134,"confidence":0.99,"url_s_h":50,"attribution":"Image via Wikipedia","description":"Phoenix Mars Lander being worked on by NASA engineers. The planned Operational Life of the Phoenix Lander is 90 Martian days. Each Martian day is 40 minutes longer than an Earth Day.","license":"Public domain","url_l_w":3000,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ec/Phoenix_Mars_Lander.jpg/75px-Phoenix_Mars_Lander.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_Mars_Lander.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ec/Phoenix_Mars_Lander.jpg/200px-Phoenix_Mars_Lander.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/e/ec/Phoenix_Mars_Lander.jpg","url_l_h":2008,"url_s_w":75,"url_m_w":200},{"url_m_h":178,"confidence":0.99,"url_s_h":67,"attribution":"Image via Wikipedia","description":"Maps of Mars' global topography. The projections are Mercator to 70° latitude and stereographic at the poles with the south pole at left and north pole at right. Note the elevation difference between the northern and southern hemispheres. The Tharsis volcano-tectonic province is centered near the equator in the longitude range 220° E to 300° E and contains the vast east-west trending Valles Marineris canyon system and several major volcanic shields including Olympus Mons (18° N, 225° E), Alba Patera (42° N, 252° E), Ascraeus Mons (12° N, 248° E), Pavonis Mons (0°, 247° E), and Arsia Mons (9° S, 239° E). Regions and structures discussed in the text include Solis Planum (25° S, 270° E), Lunae Planum (10° N, 290° E), and Claritas Fossae (30° S, 255° E). Major impact basins include Hellas (45° S, 70° E), Argyre (50° S, 320° E), Isidis (12° N, 88° E), and Utopia (45° N, 110° E). This analysis uses an areocentric coordinate convention with east longitude positive.","license":"Public domain","url_l_w":2497,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f3/MarsTopoMap-PIA02031_modest.jpg/75px-MarsTopoMap-PIA02031_modest.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:MarsTopoMap-PIA02031_modest.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f3/MarsTopoMap-PIA02031_modest.jpg/200px-MarsTopoMap-PIA02031_modest.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/f/f3/MarsTopoMap-PIA02031_modest.jpg","url_l_h":2221,"url_s_w":75,"url_m_w":200},{"url_m_h":133,"confidence":0.99,"url_s_h":50,"attribution":"Image via Wikipedia","description":"NASA's next Mars-bound spacecraft, the Phoenix Mars Lander, was partway through assembly and testing at Lockheed Martin Space Systems, Denver, in September 2006, progressing toward an August 2007 launch from Florida. In this photograph, spacecraft specialists work on the lander after its fan-like circular solar arrays have been spread open for testing. The arrays will be in this configuration when the spacecraft is active on the surface of Mars. Phoenix will land in icy soils near the north polar permanent ice cap of Mars and explore the history of the water in these soils and any associated rocks, while monitoring polar climate. It will dig into the surface, test scooped-up samples for carbon-bearing compounds and serve as NASA's first exploration of a potential habitat on Mars.","license":"Public domain","url_l_w":900,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/7/79/Phoenix_Mars_Lander_in_testing_PIA01885.jpg/75px-Phoenix_Mars_Lander_in_testing_PIA01885.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_Mars_Lander_in_testing_PIA01885.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/7/79/Phoenix_Mars_Lander_in_testing_PIA01885.jpg/200px-Phoenix_Mars_Lander_in_testing_PIA01885.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/7/79/Phoenix_Mars_Lander_in_testing_PIA01885.jpg","url_l_h":597,"url_s_w":75,"url_m_w":200},{"url_m_h":135,"confidence":0.99,"url_s_h":51,"attribution":"Image via Wikipedia","description":"A labeled look at NASA's Mars Phoenix Lander.","license":"Public domain","url_l_w":720,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f6/070802_phoenix_lab_02.jpg/75px-070802_phoenix_lab_02.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:070802_phoenix_lab_02.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f6/070802_phoenix_lab_02.jpg/200px-070802_phoenix_lab_02.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/f/f6/070802_phoenix_lab_02.jpg","url_l_h":486,"url_s_w":75,"url_m_w":200},{"url_m_h":185,"confidence":0.99,"url_s_h":69,"attribution":"Image via Wikipedia","description":"An artist's rendition of the Phoenix Mars probe during landing. The sophisticated landing system on Phoenix allows the spacecraft to touch down within 10 km (6.2 miles) of the targeted landing area. Thrusters are started when the lander is 570 m (1900 feet) above the surface. The navigation system is capable of detecting and avoiding hazards on the surface of Mars.","license":"Public domain","url_l_w":5200,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/6a/Phoenix_landing.jpg/75px-Phoenix_landing.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_landing.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/6a/Phoenix_landing.jpg/200px-Phoenix_landing.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/6/6a/Phoenix_landing.jpg","url_l_h":4800,"url_s_w":75,"url_m_w":200},{"url_m_h":150,"confidence":0.99,"url_s_h":56,"attribution":"Image via Wikipedia","description":"NASA's Phoenix Mars Lander carries an instrument to heat and sniff samples of Martian soil and ice to analyze some ingredients. The Thermal and Evolved-Gas Analyzer will study substances that are converted to gases by heating samples delivered to this instrument by the lander's robotic arm. It provides two types of information. One of its tools, called a differential scanning calorimeter (on the left in this photograph) monitors how much power is required to increase the temperature of the sample at a constant rate. This reveals which temperatures are transition points from solid to liquid and from liquid to gas for ingredients in the sample. The gases that are released, or \"evolved\" by this heating then go to a mass spectrometer (on the right), a tool that can identify the chemicals.","license":"Public domain","url_l_w":1536,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/3/34/183833main_wb1-tega-hires.jpg/75px-183833main_wb1-tega-hires.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:183833main_wb1-tega-hires.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/3/34/183833main_wb1-tega-hires.jpg/200px-183833main_wb1-tega-hires.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/3/34/183833main_wb1-tega-hires.jpg","url_l_h":1152,"url_s_w":75,"url_m_w":200},{"url_m_h":200,"confidence":0.99,"url_s_h":75,"attribution":"Image via Wikipedia","description":"This image, released on Memorial Day, May 26, 2008, shows the American flag and a mini-DVD on the Phoenix's deck, which is about 3 ft. above the Martian surface. The mini-DVD from the Planetary Society contains a message to future Martian explorers, science fiction stories and art inspired by the Red Planet, and the names of more than a quarter million earthlings. The Phoenix Mission is led by the University of Arizona, Tucson, on behalf of NASA. Project management of the mission is by NASA's Jet Propulsion Laboratory, Pasadena, Calif. Spacecraft development is by Lockheed Martin Space Systems, Denver.","license":"Public domain","url_l_w":1024,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/0/03/Phoenix_mini-DVD_on_Mars.jpg/75px-Phoenix_mini-DVD_on_Mars.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_mini-DVD_on_Mars.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/0/03/Phoenix_mini-DVD_on_Mars.jpg/200px-Phoenix_mini-DVD_on_Mars.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/0/03/Phoenix_mini-DVD_on_Mars.jpg","url_l_h":1024,"url_s_w":75,"url_m_w":200},{"url_m_h":100,"confidence":0.99,"url_s_h":38,"attribution":"Image via Wikipedia","description":"Phoenix's Robotic Arm Stowed before deployment","license":"Public domain","url_l_w":516,"url_s":"http://upload.wikimedia.org/wikipedia/en/thumb/f/fb/Arm_Stowed.jpg/75px-Arm_Stowed.jpg","source_url":"http://en.wikipedia.org/wiki/Image:Arm_Stowed.jpg","url_m":"http://upload.wikimedia.org/wikipedia/en/thumb/f/fb/Arm_Stowed.jpg/200px-Arm_Stowed.jpg","url_l":"http://upload.wikimedia.org/wikipedia/en/f/fb/Arm_Stowed.jpg","url_l_h":258,"url_s_w":75,"url_m_w":200},{"url_m_h":150,"confidence":0.99,"url_s_h":56,"attribution":"Image via Wikipedia","description":"A artificial Noctilucent cloud created by launch of delta II rocket. Reduced to 95% quality to save space.","license":"CC Attribution 3.0 license","url_l_w":2816,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/Phoenix_mars_launch_cloud.jpg/75px-Phoenix_mars_launch_cloud.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_mars_launch_cloud.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/Phoenix_mars_launch_cloud.jpg/200px-Phoenix_mars_launch_cloud.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/e/e1/Phoenix_mars_launch_cloud.jpg","url_l_h":2112,"url_s_w":75,"url_m_w":200},{"url_m_h":200,"confidence":0.99,"url_s_h":75,"attribution":"Image via Wikipedia","description":"Lidar Cover Open on Mars","license":"License unknown, please check it yourself","url_l_w":512,"url_s":"http://upload.wikimedia.org/wikipedia/en/thumb/d/dd/Lidar_open.jpg/75px-Lidar_open.jpg","source_url":"http://en.wikipedia.org/wiki/Image:Lidar_open.jpg","url_m":"http://upload.wikimedia.org/wikipedia/en/thumb/d/dd/Lidar_open.jpg/200px-Lidar_open.jpg","url_l":"http://upload.wikimedia.org/wikipedia/en/d/dd/Lidar_open.jpg","url_l_h":512,"url_s_w":75,"url_m_w":200},{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA, the surface of Mars is seen after the The Phoenix Mars Lander made a successful landing on May 25, 2008 in the northern polar regions of Mars. The Phoenix Mars Lander is the newest hope in the search for signs of life on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":150,"url_s":"http://cache.daylife.com/imageserve/0gVT1XV5Bk8q6/75x75.jpg","source_url":"http://www.daylife.com/image/0gVT1XV5Bk8q6?utm_source=zemanta&utm_medium=p&utm_content=0gVT1XV5Bk8q6&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/0gVT1XV5Bk8q6/150x150.jpg","url_l":"http://cache.daylife.com/imageserve/0gVT1XV5Bk8q6/150x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":150},{"url_m_h":149,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the plains of the northern polar region of Mars is seen after the The Phoenix Mars Lander made a successful landing on May 25, 2008 on Mars. The Phoenix Mars Lander will search for teh basic signs of life in the surface ice on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":150,"url_s":"http://cache.daylife.com/imageserve/0dIDeUY1Bh1mz/75x75.jpg","source_url":"http://www.daylife.com/image/0dIDeUY1Bh1mz?utm_source=zemanta&utm_medium=p&utm_content=0dIDeUY1Bh1mz&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/0dIDeUY1Bh1mz/150x149.jpg","url_l":"http://cache.daylife.com/imageserve/0dIDeUY1Bh1mz/150x149.jpg","url_l_h":149,"url_s_w":75,"url_m_w":150},{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the surface of Mars is seen after the The Phoenix Mars Lander made a successful landing on May 25, 2008 in the northern polar regions of Mars. The Phoenix Mars Lander will search for the basic signs of life in the surface ice on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":150,"url_s":"http://cache.daylife.com/imageserve/0d5x0l91fn8D1/75x75.jpg","source_url":"http://www.daylife.com/image/0d5x0l91fn8D1?utm_source=zemanta&utm_medium=p&utm_content=0d5x0l91fn8D1&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/0d5x0l91fn8D1/150x150.jpg","url_l":"http://cache.daylife.com/imageserve/0d5x0l91fn8D1/150x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":150},{"url_m_h":0,"confidence":0.5,"url_s_h":0,"attribution":"Image by ridingwithrobots via Flickr","description":"Sun Sets on Mars Phoenix","license":"License CreativeCommons ShareAlike","url_l_w":0,"url_s":"http://farm4.static.flickr.com/3187/3025410398_b3fbf32426_s.jpg","source_url":"http://www.flickr.com/photos/22592003@N05/3025410398","url_m":"http://farm4.static.flickr.com/3187/3025410398_b3fbf32426_m.jpg","url_l":"http://farm4.static.flickr.com/3187/3025410398_b3fbf32426.jpg","url_l_h":0,"url_s_w":0,"url_m_w":0},{"url_m_h":161,"confidence":0.5,"url_s_h":75,"attribution":"Image by Laughing Squid via Flickr","description":"Mars Phoenix Lander on Twitter","license":"License CreativeCommons NonCommercial NoDerivs","url_l_w":500,"url_s":"http://farm4.static.flickr.com/3027/2523400282_aff18e6d32_s.jpg","source_url":"http://www.flickr.com/photos/27403767@N00/2523400282","url_m":"http://farm4.static.flickr.com/3027/2523400282_aff18e6d32_m.jpg","url_l":"http://farm4.static.flickr.com/3027/2523400282_aff18e6d32.jpg","url_l_h":335,"url_s_w":75,"url_m_w":240},{"url_m_h":299,"confidence":0.99,"url_s_h":112,"attribution":"Image via Wikipedia","description":"KENNEDY SPACE CENTER, Florida -- The Delta II 7925 rocket carrying NASA's Phoenix Mars lander lifts off amid billows of smoke from Pad 17A at Cape Canaveral Air Force Station at 5:26 a.m. EDT on 2007-08-04. Phoenix will land in icy soils near the north polar, permanent ice cap of Mars and explore the history of the water in these soils and any associated rocks, while monitoring polar climate. Landing on Mars is planned in May 2008 on arctic ground where a mission currently in orbit, Mars Odyssey, has detected high concentrations of ice just beneath the top layer of soil.","license":"Public domain","url_l_w":2008,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/a/ad/Phoenix_Launch_04_08_2007.jpg/75px-Phoenix_Launch_04_08_2007.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_Launch_04_08_2007.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/a/ad/Phoenix_Launch_04_08_2007.jpg/200px-Phoenix_Launch_04_08_2007.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/a/ad/Phoenix_Launch_04_08_2007.jpg","url_l_h":3000,"url_s_w":75,"url_m_w":200},{"url_m_h":55,"confidence":0.99,"url_s_h":20,"attribution":"Image via Wikipedia","description":"This 360-degree view from NASA's Phoenix Mars Lander shows the spacecraft's solar arrays, lander deck and the Martian polar landscape beyond. The top portion has been stretched eight fold to show details of features in the background. Phoenix's parachute, backshell, heatshield, and impact site can also be seen. The hummocky terrain has a network of troughs and very few rocks, typical of polar surfaces here on Earth. Phoenix's Surface Stereo Imager captured the images making up this mosaic on the first and third martian days, or sols, of the mission (May 26 and 28, 2008). The spacecraft is capable of taking color, high-resolution photos, but its first priority is to scan its surroundings with black-and-white, lower-resolution images like these. The Phoenix Mission is led by the University of Arizona, Tucson, on behalf of NASA. Project management of the mission is by NASA's Jet Propulsion Laboratory, Pasadena, Calif. Spacecraft development is by Lockheed Martin Space Systems, Denver.","license":"Public domain","url_l_w":6659,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/1/17/PIA10735_Phoenix_B%26W_panorama.jpg/75px-PIA10735_Phoenix_B%26W_panorama.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:PIA10735_Phoenix_B%26W_panorama.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/1/17/PIA10735_Phoenix_B%26W_panorama.jpg/200px-PIA10735_Phoenix_B%26W_panorama.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/1/17/PIA10735_Phoenix_B%26W_panorama.jpg","url_l_h":1818,"url_s_w":75,"url_m_w":200}],"signature":"
","keywords":[{"confidence":0.322701,"scheme":"general","name":"Mars"},{"confidence":0.193327,"scheme":"general","name":"Phoenix"},{"confidence":0.07924,"scheme":"general","name":"Space"},{"confidence":0.06035,"scheme":"general","name":"Robotic arm"},{"confidence":0.057724,"scheme":"general","name":"Technology"},{"confidence":0.050838,"scheme":"general","name":"Phoenix Mars Lander"},{"confidence":0.049152,"scheme":"general","name":"Astronomy"},{"confidence":0.04355,"scheme":"general","name":"Earth"}],"rid":"ef67ca4e-cff6-4610-8ede-e080617719a8","categories":[],"rich_objects":[{"title":"Phoenix Landing","url":"http://www.youtube.com/watch?v=tR91HkTZ9VY","thumbnail_width":120,"height":242,"width":300,"html":"","thumbnail_height":90,"thumbnail_url":"http://i1.ytimg.com/vi/tR91HkTZ9VY/2.jpg"},{"title":"Lake Ontario Steaming","url":"http://www.youtube.com/watch?v=r8FPWRj_TKo","thumbnail_width":120,"height":242,"width":300,"html":"","thumbnail_height":90,"thumbnail_url":"http://i1.ytimg.com/vi/r8FPWRj_TKo/2.jpg"}]}
Internet explorer 8.0 RTM on Vista x32
Here's my debug:
Zemanta extension enabled
SCRIPTS
zemanta-widget.css: ok
jquery.js: ok
jquery.zemanta.js: ok
platform.js: ok
ENVIRONMENT
Browser: msie
Version: 8.0
User agent: Mozilla/4.0 (compatible; MSIE 8.0; Windows NT 6.0; Trident/4.0; GTB6; SLCC1; .NET CLR 2.0.50727; Media Center PC 5.0; .NET CLR 3.5.30729; .NET CLR 3.0.30618)
API
key: 7d35xujawqh6xsjg5km9mvsx (ok)
proxy: null (ok)
api_url: http://api.zemanta.com/services/rest/... (ok)
zemanta.preferences: {"status":"ok","amazon_id":"","pixie":"203","return_rdf_links":"1","image_position":"0","stage":"0","readside_javascript":"","name":"","config_url":"http://prefs.zemanta.com/user2/9d60b530e1919efd3ccb59c3f661cf87/","social_timestamp":"0000000049f643173d63ccdc2706c31a06b3fab72c2a7315","doctype":"0","flickr_user_id":"31653666@N05","logged_in":1,"api_key":"7d35xujawqh6xsjg5km9mvsx"}
zemanta.suggest: {"status":"ok","articles":[{"url":"http://www.space.com/scienceastronomy/090414-st-perchlorate-sludge.html","confidence":0.026912,"published_datetime":"2009-04-14T15:14:35Z","zemified":0,"title":" Mars Sprinkled with Salty Mysteries "},{"url":"http://r.zemanta.com/?u=http%3A//www.telegraph.co.uk/scienceandtechnology/science/space/4689871/Anti-freeze-chemicals-could-indicate-life-on-Mars.html&a=3259268&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=78052f0907d96f4b93cb2971c65c816a","confidence":0.015265,"published_datetime":"2009-02-18T16:04:10Z","zemified":0,"title":"Antifreeze chemicals 'could indicate life on Mars'"},{"url":"http://www.sciam.com/blog/60-second-science/post.cfm?id=did-the-phoenix-lander-spot-liquid-2009-03-17","confidence":0.014745,"published_datetime":"2009-03-17T22:50:00Z","zemified":0,"title":"Did the Phoenix lander spot liquid water on Mars?"},{"url":"http://www.lockergnome.com/news/2008/12/23/life-on-mars-elusive-mineral-bolsters-chances/","confidence":0.013059,"published_datetime":"2008-12-23T23:24:11Z","zemified":0,"title":"Life On Mars? Elusive Mineral Bolsters Chances"},{"url":"http://r.zemanta.com/?u=http%3A//www.time.com/time/health/article/0%2C8599%2C1877434%2C00.html%3Fxid%3Drss-health&a=3140049&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=81de26acf4d454973b656a5049603b74","confidence":0.012734,"published_datetime":"2009-02-12T15:55:00Z","zemified":0,"title":"Are We Bringing Our Germs to Mars?"},{"url":"http://r.zemanta.com/?u=http%3A//www.time.com/time/health/article/0%2C8599%2C1877434%2C00.html%3Fxid%3Drss-topstories&a=3023421&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=fafd278046faafa43c31e9e3ffbea51c","confidence":0.012699,"published_datetime":"2009-02-06T15:25:00Z","zemified":0,"title":"Are We Bringing Our Germs to Mars?"},{"url":"http://r.zemanta.com/?u=http%3A//www.guardian.co.uk/science/2009/jan/27/mars-snow-space-technology-nasa&a=2852575&rid=ef67ca4e-cff6-4610-8ede-e080617719a8&e=6c21cbfd09ba486cc0c5cc45daafdf96","confidence":0.011874,"published_datetime":"2009-01-27T00:01:00Z","zemified":0,"title":"Ian Sample reports on the extraordinary information being sent back from Mars"},{"url":"http://blogs.discovermagazine.com/badastronomy/2009/02/19/universe-today-liquid-water-on-mars/","confidence":0.010435,"published_datetime":"2009-02-19T21:00:46Z","zemified":0,"title":"Universe Today: short-term liquid water on Mars?"},{"url":"http://www.space.com/scienceastronomy/090330-phoenix-habitable-mars.html","confidence":0.009894,"published_datetime":"2009-03-30T21:30:56Z","zemified":0,"title":" 'Most Habitable Zone' on Mars Revealed "},{"url":"http://news.bbc.co.uk/2/hi/technology/7808917.stm","confidence":0.009177,"published_datetime":"2009-01-03T09:27:29Z","zemified":0,"title":"Mars rovers roll on to five years"}],"markup":{"text":"The Phoenix Mars Lander has successfully deployed its robotic arm and tested other instruments including a laser designed to detect dust, clouds, and fog. The arm will be used to dig up samples of the Martian surface which will be analyzed as a possible habitat for life.","links":[{"confidence":0.391997,"anchor":"Phoenix Mars Lander","target":[{"url":"http://www.nasa.gov/mission_pages/phoenix/main/index.html","type":"homepage","title":"Phoenix Mars Lander"},{"url":"http://en.wikipedia.org/wiki/Phoenix_%28spacecraft%29","type":"wikipedia","title":"Phoenix (spacecraft)"},{"url":"http://www.youtube.com/watch?v=tR91HkTZ9VY","type":"youtube","title":"Phoenix Landing"}]},{"confidence":0.285929,"anchor":"Martian","target":[{"url":"http://en.wikipedia.org/wiki/Mars","type":"wikipedia","title":"Mars"}]},{"confidence":0.230226,"anchor":"robotic arm","target":[{"url":"http://en.wikipedia.org/wiki/Robotic_arm","type":"wikipedia","title":"Robotic arm"}]},{"confidence":0.221716,"anchor":"habitat","target":[{"url":"http://en.wikipedia.org/wiki/Habitat","type":"wikipedia","title":"Habitat"}]},{"confidence":0.206564,"anchor":"fog","target":[{"url":"http://en.wikipedia.org/wiki/Fog","type":"wikipedia","title":"Fog"},{"url":"http://www.youtube.com/watch?v=r8FPWRj_TKo","type":"youtube","title":"Lake Ontario Steaming"}]}]},"images":[{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the Phoenix Mars Lander parachutes down to the surface of Mars on May 25, 2008 in the northern polar regions of Mars. The image was taken by the High Resolution Imaging Science Experiment (HiRISE) camera on NASA's Mars Reconnaissance Orbiter. The Phoenix Mars Lander is the newest hope in the search for signs of life on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":141,"url_s":"http://cache.daylife.com/imageserve/06IFgPa1lVcpj/75x75.jpg","source_url":"http://www.daylife.com/image/06IFgPa1lVcpj?utm_source=zemanta&utm_medium=p&utm_content=06IFgPa1lVcpj&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/06IFgPa1lVcpj/141x150.jpg","url_l":"http://cache.daylife.com/imageserve/06IFgPa1lVcpj/141x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":141},{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the Phoenix Mars Lander parachutes down to the surface of Mars on May 25, 2008 in the northern polar regions of Mars. The image was taken by the High Resolution Imaging Science Experiment (HiRISE) camera on NASA's Mars Reconnaissance Orbiter. The Phoenix Mars Lander is the newest hope in the search for signs of life on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":141,"url_s":"http://cache.daylife.com/imageserve/041Vbe19AZ0AI/75x75.jpg","source_url":"http://www.daylife.com/image/041Vbe19AZ0AI?utm_source=zemanta&utm_medium=p&utm_content=041Vbe19AZ0AI&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/041Vbe19AZ0AI/141x150.jpg","url_l":"http://cache.daylife.com/imageserve/041Vbe19AZ0AI/141x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":141},{"url_m_h":240,"confidence":0.5,"url_s_h":75,"attribution":"Image by PhOtOnQuAnTiQuE via Flickr","description":"PhotonQ-Phoenix First MARS view","license":"License CreativeCommons NonCommercial NoDerivs","url_l_w":375,"url_s":"http://farm2.static.flickr.com/1021/1001797732_b8e79ab25d_s.jpg","source_url":"http://www.flickr.com/photos/67968452@N00/1001797732","url_m":"http://farm2.static.flickr.com/1021/1001797732_b8e79ab25d_m.jpg","url_l":"http://farm2.static.flickr.com/1021/1001797732_b8e79ab25d.jpg","url_l_h":500,"url_s_w":75,"url_m_w":180},{"url_m_h":240,"confidence":0.5,"url_s_h":75,"attribution":"Image by gate3003 via Flickr","description":"Day 2 14.19.40 Phoenix Mars Lander 3-D Anaglyphs","license":"License CreativeCommons Attribution only","url_l_w":458,"url_s":"http://farm4.static.flickr.com/3043/2530611038_f490407155_s.jpg","source_url":"http://www.flickr.com/photos/48836503@N00/2530611038","url_m":"http://farm4.static.flickr.com/3043/2530611038_f490407155_m.jpg","url_l":"http://farm4.static.flickr.com/3043/2530611038_f490407155.jpg","url_l_h":500,"url_s_w":75,"url_m_w":220},{"url_m_h":240,"confidence":0.5,"url_s_h":75,"attribution":"Image by gate3003 via Flickr","description":"Day 1 17.07.41 Phoenix Mars Lander 3-D Anaglyphs","license":"License CreativeCommons Attribution only","url_l_w":414,"url_s":"http://farm4.static.flickr.com/3060/2529792453_20e89b6663_s.jpg","source_url":"http://www.flickr.com/photos/48836503@N00/2529792453","url_m":"http://farm4.static.flickr.com/3060/2529792453_20e89b6663_m.jpg","url_l":"http://farm4.static.flickr.com/3060/2529792453_20e89b6663.jpg","url_l_h":500,"url_s_w":75,"url_m_w":199},{"url_m_h":186,"confidence":0.99,"url_s_h":70,"attribution":"Image via Wikipedia","description":"range map of the African Elephant (Loxodonta africana): that includes the Savanna Elephant (Loxodonta [africana] africana) and Forest Elephant (Loxodonta [africana] cyclotis).","license":"CC Attribution ShareAlike 2.5 license","url_l_w":1390,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ef/African_Elephant_distribution_map.svg/75px-African_Elephant_distribution_map.svg.png","source_url":"http://commons.wikipedia.org/wiki/Image:African_Elephant_distribution_map.svg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ef/African_Elephant_distribution_map.svg/200px-African_Elephant_distribution_map.svg.png","url_l":"http://upload.wikimedia.org/wikipedia/commons/e/ef/African_Elephant_distribution_map.svg","url_l_h":1295,"url_s_w":75,"url_m_w":200},{"url_m_h":200,"confidence":0.99,"url_s_h":75,"attribution":"Image via Wikipedia","description":"STS003-09-444 -- On Space Shuttle mission STS-3, March 1982, the Canadarm is used to capture and maneuver an object-- the plasma diagnostics package (PDP)","license":"Public domain","url_l_w":4116,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/65/STS-3_Canadarm_captures_PDP.jpg/75px-STS-3_Canadarm_captures_PDP.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:STS-3_Canadarm_captures_PDP.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/65/STS-3_Canadarm_captures_PDP.jpg/200px-STS-3_Canadarm_captures_PDP.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/6/65/STS-3_Canadarm_captures_PDP.jpg","url_l_h":4116,"url_s_w":75,"url_m_w":200},{"url_m_h":134,"confidence":0.99,"url_s_h":50,"attribution":"Image via Wikipedia","description":"Phoenix Mars Lander being worked on by NASA engineers. The planned Operational Life of the Phoenix Lander is 90 Martian days. Each Martian day is 40 minutes longer than an Earth Day.","license":"Public domain","url_l_w":3000,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ec/Phoenix_Mars_Lander.jpg/75px-Phoenix_Mars_Lander.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_Mars_Lander.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/ec/Phoenix_Mars_Lander.jpg/200px-Phoenix_Mars_Lander.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/e/ec/Phoenix_Mars_Lander.jpg","url_l_h":2008,"url_s_w":75,"url_m_w":200},{"url_m_h":178,"confidence":0.99,"url_s_h":67,"attribution":"Image via Wikipedia","description":"Maps of Mars' global topography. The projections are Mercator to 70° latitude and stereographic at the poles with the south pole at left and north pole at right. Note the elevation difference between the northern and southern hemispheres. The Tharsis volcano-tectonic province is centered near the equator in the longitude range 220° E to 300° E and contains the vast east-west trending Valles Marineris canyon system and several major volcanic shields including Olympus Mons (18° N, 225° E), Alba Patera (42° N, 252° E), Ascraeus Mons (12° N, 248° E), Pavonis Mons (0°, 247° E), and Arsia Mons (9° S, 239° E). Regions and structures discussed in the text include Solis Planum (25° S, 270° E), Lunae Planum (10° N, 290° E), and Claritas Fossae (30° S, 255° E). Major impact basins include Hellas (45° S, 70° E), Argyre (50° S, 320° E), Isidis (12° N, 88° E), and Utopia (45° N, 110° E). This analysis uses an areocentric coordinate convention with east longitude positive.","license":"Public domain","url_l_w":2497,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f3/MarsTopoMap-PIA02031_modest.jpg/75px-MarsTopoMap-PIA02031_modest.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:MarsTopoMap-PIA02031_modest.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f3/MarsTopoMap-PIA02031_modest.jpg/200px-MarsTopoMap-PIA02031_modest.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/f/f3/MarsTopoMap-PIA02031_modest.jpg","url_l_h":2221,"url_s_w":75,"url_m_w":200},{"url_m_h":133,"confidence":0.99,"url_s_h":50,"attribution":"Image via Wikipedia","description":"NASA's next Mars-bound spacecraft, the Phoenix Mars Lander, was partway through assembly and testing at Lockheed Martin Space Systems, Denver, in September 2006, progressing toward an August 2007 launch from Florida. In this photograph, spacecraft specialists work on the lander after its fan-like circular solar arrays have been spread open for testing. The arrays will be in this configuration when the spacecraft is active on the surface of Mars. Phoenix will land in icy soils near the north polar permanent ice cap of Mars and explore the history of the water in these soils and any associated rocks, while monitoring polar climate. It will dig into the surface, test scooped-up samples for carbon-bearing compounds and serve as NASA's first exploration of a potential habitat on Mars.","license":"Public domain","url_l_w":900,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/7/79/Phoenix_Mars_Lander_in_testing_PIA01885.jpg/75px-Phoenix_Mars_Lander_in_testing_PIA01885.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_Mars_Lander_in_testing_PIA01885.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/7/79/Phoenix_Mars_Lander_in_testing_PIA01885.jpg/200px-Phoenix_Mars_Lander_in_testing_PIA01885.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/7/79/Phoenix_Mars_Lander_in_testing_PIA01885.jpg","url_l_h":597,"url_s_w":75,"url_m_w":200},{"url_m_h":135,"confidence":0.99,"url_s_h":51,"attribution":"Image via Wikipedia","description":"A labeled look at NASA's Mars Phoenix Lander.","license":"Public domain","url_l_w":720,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f6/070802_phoenix_lab_02.jpg/75px-070802_phoenix_lab_02.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:070802_phoenix_lab_02.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/f/f6/070802_phoenix_lab_02.jpg/200px-070802_phoenix_lab_02.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/f/f6/070802_phoenix_lab_02.jpg","url_l_h":486,"url_s_w":75,"url_m_w":200},{"url_m_h":185,"confidence":0.99,"url_s_h":69,"attribution":"Image via Wikipedia","description":"An artist's rendition of the Phoenix Mars probe during landing. The sophisticated landing system on Phoenix allows the spacecraft to touch down within 10 km (6.2 miles) of the targeted landing area. Thrusters are started when the lander is 570 m (1900 feet) above the surface. The navigation system is capable of detecting and avoiding hazards on the surface of Mars.","license":"Public domain","url_l_w":5200,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/6a/Phoenix_landing.jpg/75px-Phoenix_landing.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_landing.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/6/6a/Phoenix_landing.jpg/200px-Phoenix_landing.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/6/6a/Phoenix_landing.jpg","url_l_h":4800,"url_s_w":75,"url_m_w":200},{"url_m_h":150,"confidence":0.99,"url_s_h":56,"attribution":"Image via Wikipedia","description":"NASA's Phoenix Mars Lander carries an instrument to heat and sniff samples of Martian soil and ice to analyze some ingredients. The Thermal and Evolved-Gas Analyzer will study substances that are converted to gases by heating samples delivered to this instrument by the lander's robotic arm. It provides two types of information. One of its tools, called a differential scanning calorimeter (on the left in this photograph) monitors how much power is required to increase the temperature of the sample at a constant rate. This reveals which temperatures are transition points from solid to liquid and from liquid to gas for ingredients in the sample. The gases that are released, or \"evolved\" by this heating then go to a mass spectrometer (on the right), a tool that can identify the chemicals.","license":"Public domain","url_l_w":1536,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/3/34/183833main_wb1-tega-hires.jpg/75px-183833main_wb1-tega-hires.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:183833main_wb1-tega-hires.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/3/34/183833main_wb1-tega-hires.jpg/200px-183833main_wb1-tega-hires.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/3/34/183833main_wb1-tega-hires.jpg","url_l_h":1152,"url_s_w":75,"url_m_w":200},{"url_m_h":200,"confidence":0.99,"url_s_h":75,"attribution":"Image via Wikipedia","description":"This image, released on Memorial Day, May 26, 2008, shows the American flag and a mini-DVD on the Phoenix's deck, which is about 3 ft. above the Martian surface. The mini-DVD from the Planetary Society contains a message to future Martian explorers, science fiction stories and art inspired by the Red Planet, and the names of more than a quarter million earthlings. The Phoenix Mission is led by the University of Arizona, Tucson, on behalf of NASA. Project management of the mission is by NASA's Jet Propulsion Laboratory, Pasadena, Calif. Spacecraft development is by Lockheed Martin Space Systems, Denver.","license":"Public domain","url_l_w":1024,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/0/03/Phoenix_mini-DVD_on_Mars.jpg/75px-Phoenix_mini-DVD_on_Mars.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_mini-DVD_on_Mars.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/0/03/Phoenix_mini-DVD_on_Mars.jpg/200px-Phoenix_mini-DVD_on_Mars.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/0/03/Phoenix_mini-DVD_on_Mars.jpg","url_l_h":1024,"url_s_w":75,"url_m_w":200},{"url_m_h":100,"confidence":0.99,"url_s_h":38,"attribution":"Image via Wikipedia","description":"Phoenix's Robotic Arm Stowed before deployment","license":"Public domain","url_l_w":516,"url_s":"http://upload.wikimedia.org/wikipedia/en/thumb/f/fb/Arm_Stowed.jpg/75px-Arm_Stowed.jpg","source_url":"http://en.wikipedia.org/wiki/Image:Arm_Stowed.jpg","url_m":"http://upload.wikimedia.org/wikipedia/en/thumb/f/fb/Arm_Stowed.jpg/200px-Arm_Stowed.jpg","url_l":"http://upload.wikimedia.org/wikipedia/en/f/fb/Arm_Stowed.jpg","url_l_h":258,"url_s_w":75,"url_m_w":200},{"url_m_h":150,"confidence":0.99,"url_s_h":56,"attribution":"Image via Wikipedia","description":"A artificial Noctilucent cloud created by launch of delta II rocket. Reduced to 95% quality to save space.","license":"CC Attribution 3.0 license","url_l_w":2816,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/Phoenix_mars_launch_cloud.jpg/75px-Phoenix_mars_launch_cloud.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_mars_launch_cloud.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/Phoenix_mars_launch_cloud.jpg/200px-Phoenix_mars_launch_cloud.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/e/e1/Phoenix_mars_launch_cloud.jpg","url_l_h":2112,"url_s_w":75,"url_m_w":200},{"url_m_h":200,"confidence":0.99,"url_s_h":75,"attribution":"Image via Wikipedia","description":"Lidar Cover Open on Mars","license":"License unknown, please check it yourself","url_l_w":512,"url_s":"http://upload.wikimedia.org/wikipedia/en/thumb/d/dd/Lidar_open.jpg/75px-Lidar_open.jpg","source_url":"http://en.wikipedia.org/wiki/Image:Lidar_open.jpg","url_m":"http://upload.wikimedia.org/wikipedia/en/thumb/d/dd/Lidar_open.jpg/200px-Lidar_open.jpg","url_l":"http://upload.wikimedia.org/wikipedia/en/d/dd/Lidar_open.jpg","url_l_h":512,"url_s_w":75,"url_m_w":200},{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA, the surface of Mars is seen after the The Phoenix Mars Lander made a successful landing on May 25, 2008 in the northern polar regions of Mars. The Phoenix Mars Lander is the newest hope in the search for signs of life on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":150,"url_s":"http://cache.daylife.com/imageserve/0gVT1XV5Bk8q6/75x75.jpg","source_url":"http://www.daylife.com/image/0gVT1XV5Bk8q6?utm_source=zemanta&utm_medium=p&utm_content=0gVT1XV5Bk8q6&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/0gVT1XV5Bk8q6/150x150.jpg","url_l":"http://cache.daylife.com/imageserve/0gVT1XV5Bk8q6/150x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":150},{"url_m_h":149,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the plains of the northern polar region of Mars is seen after the The Phoenix Mars Lander made a successful landing on May 25, 2008 on Mars. The Phoenix Mars Lander will search for teh basic signs of life in the surface ice on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":150,"url_s":"http://cache.daylife.com/imageserve/0dIDeUY1Bh1mz/75x75.jpg","source_url":"http://www.daylife.com/image/0dIDeUY1Bh1mz?utm_source=zemanta&utm_medium=p&utm_content=0dIDeUY1Bh1mz&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/0dIDeUY1Bh1mz/150x149.jpg","url_l":"http://cache.daylife.com/imageserve/0dIDeUY1Bh1mz/150x149.jpg","url_l_h":149,"url_s_w":75,"url_m_w":150},{"url_m_h":150,"confidence":0.5,"url_s_h":75,"attribution":"Image by Getty Images via Daylife","description":"IN SPACE - MAY 25: In this handout photo provided by NASA/JPL-Caltech/University of Arizona, the surface of Mars is seen after the The Phoenix Mars Lander made a successful landing on May 25, 2008 in the northern polar regions of Mars. The Phoenix Mars Lander will search for the basic signs of life in the surface ice on Mars. Less than half of the Mars missions have made successful landings. At a cost of $420-million, the Phoenix Mars Lander has flown 422-million-miles since leaving Earth last August.","license":"Low resolution use allowed when backlinking","url_l_w":150,"url_s":"http://cache.daylife.com/imageserve/0d5x0l91fn8D1/75x75.jpg","source_url":"http://www.daylife.com/image/0d5x0l91fn8D1?utm_source=zemanta&utm_medium=p&utm_content=0d5x0l91fn8D1&utm_campaign=z1","url_m":"http://cache.daylife.com/imageserve/0d5x0l91fn8D1/150x150.jpg","url_l":"http://cache.daylife.com/imageserve/0d5x0l91fn8D1/150x150.jpg","url_l_h":150,"url_s_w":75,"url_m_w":150},{"url_m_h":0,"confidence":0.5,"url_s_h":0,"attribution":"Image by ridingwithrobots via Flickr","description":"Sun Sets on Mars Phoenix","license":"License CreativeCommons ShareAlike","url_l_w":0,"url_s":"http://farm4.static.flickr.com/3187/3025410398_b3fbf32426_s.jpg","source_url":"http://www.flickr.com/photos/22592003@N05/3025410398","url_m":"http://farm4.static.flickr.com/3187/3025410398_b3fbf32426_m.jpg","url_l":"http://farm4.static.flickr.com/3187/3025410398_b3fbf32426.jpg","url_l_h":0,"url_s_w":0,"url_m_w":0},{"url_m_h":161,"confidence":0.5,"url_s_h":75,"attribution":"Image by Laughing Squid via Flickr","description":"Mars Phoenix Lander on Twitter","license":"License CreativeCommons NonCommercial NoDerivs","url_l_w":500,"url_s":"http://farm4.static.flickr.com/3027/2523400282_aff18e6d32_s.jpg","source_url":"http://www.flickr.com/photos/27403767@N00/2523400282","url_m":"http://farm4.static.flickr.com/3027/2523400282_aff18e6d32_m.jpg","url_l":"http://farm4.static.flickr.com/3027/2523400282_aff18e6d32.jpg","url_l_h":335,"url_s_w":75,"url_m_w":240},{"url_m_h":299,"confidence":0.99,"url_s_h":112,"attribution":"Image via Wikipedia","description":"KENNEDY SPACE CENTER, Florida -- The Delta II 7925 rocket carrying NASA's Phoenix Mars lander lifts off amid billows of smoke from Pad 17A at Cape Canaveral Air Force Station at 5:26 a.m. EDT on 2007-08-04. Phoenix will land in icy soils near the north polar, permanent ice cap of Mars and explore the history of the water in these soils and any associated rocks, while monitoring polar climate. Landing on Mars is planned in May 2008 on arctic ground where a mission currently in orbit, Mars Odyssey, has detected high concentrations of ice just beneath the top layer of soil.","license":"Public domain","url_l_w":2008,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/a/ad/Phoenix_Launch_04_08_2007.jpg/75px-Phoenix_Launch_04_08_2007.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:Phoenix_Launch_04_08_2007.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/a/ad/Phoenix_Launch_04_08_2007.jpg/200px-Phoenix_Launch_04_08_2007.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/a/ad/Phoenix_Launch_04_08_2007.jpg","url_l_h":3000,"url_s_w":75,"url_m_w":200},{"url_m_h":55,"confidence":0.99,"url_s_h":20,"attribution":"Image via Wikipedia","description":"This 360-degree view from NASA's Phoenix Mars Lander shows the spacecraft's solar arrays, lander deck and the Martian polar landscape beyond. The top portion has been stretched eight fold to show details of features in the background. Phoenix's parachute, backshell, heatshield, and impact site can also be seen. The hummocky terrain has a network of troughs and very few rocks, typical of polar surfaces here on Earth. Phoenix's Surface Stereo Imager captured the images making up this mosaic on the first and third martian days, or sols, of the mission (May 26 and 28, 2008). The spacecraft is capable of taking color, high-resolution photos, but its first priority is to scan its surroundings with black-and-white, lower-resolution images like these. The Phoenix Mission is led by the University of Arizona, Tucson, on behalf of NASA. Project management of the mission is by NASA's Jet Propulsion Laboratory, Pasadena, Calif. Spacecraft development is by Lockheed Martin Space Systems, Denver.","license":"Public domain","url_l_w":6659,"url_s":"http://upload.wikimedia.org/wikipedia/commons/thumb/1/17/PIA10735_Phoenix_B%26W_panorama.jpg/75px-PIA10735_Phoenix_B%26W_panorama.jpg","source_url":"http://commons.wikipedia.org/wiki/Image:PIA10735_Phoenix_B%26W_panorama.jpg","url_m":"http://upload.wikimedia.org/wikipedia/commons/thumb/1/17/PIA10735_Phoenix_B%26W_panorama.jpg/200px-PIA10735_Phoenix_B%26W_panorama.jpg","url_l":"http://upload.wikimedia.org/wikipedia/commons/1/17/PIA10735_Phoenix_B%26W_panorama.jpg","url_l_h":1818,"url_s_w":75,"url_m_w":200}],"signature":"
","keywords":[{"confidence":0.322701,"scheme":"general","name":"Mars"},{"confidence":0.193327,"scheme":"general","name":"Phoenix"},{"confidence":0.07924,"scheme":"general","name":"Space"},{"confidence":0.06035,"scheme":"general","name":"Robotic arm"},{"confidence":0.057724,"scheme":"general","name":"Technology"},{"confidence":0.050838,"scheme":"general","name":"Phoenix Mars Lander"},{"confidence":0.049152,"scheme":"general","name":"Astronomy"},{"confidence":0.04355,"scheme":"general","name":"Earth"}],"rid":"ef67ca4e-cff6-4610-8ede-e080617719a8","categories":[],"rich_objects":[{"title":"Phoenix Landing","url":"http://www.youtube.com/watch?v=tR91HkTZ9VY","thumbnail_width":120,"height":242,"width":300,"html":"","thumbnail_height":90,"thumbnail_url":"http://i1.ytimg.com/vi/tR91HkTZ9VY/2.jpg"},{"title":"Lake Ontario Steaming","url":"http://www.youtube.com/watch?v=r8FPWRj_TKo","thumbnail_width":120,"height":242,"width":300,"html":"","thumbnail_height":90,"thumbnail_url":"http://i1.ytimg.com/vi/r8FPWRj_TKo/2.jpg"}]}
I’m unconcerned
1
person has this question
I have this question, too!
Tell me when someone answers.
The more people who ask this question, the more it gets noticed.
The more people who ask this question, the more it gets noticed.
-
Inappropriate?We tried hard to reproduce this, but sadly can't. I noticed that you're using also IE7, is it working OK from there?
Did upgrading IE8 to latest final release maybe change the symptoms in any way?
