Emil Ivanov - When Venus Rises With The Sun, 2012. (View Across The Black Sea On June 6 Finds Venus Rising

Venus as seen from the Mariner 10 probe taken in 1974

“Venus at Night in Infrared from Akatsuki” Is the NASA Astronomy Picture of the Day of today, January 30, 2018

Earth View from Moon by ric tan

Die Perkins-Stimmen wieder vereint ...

  Die Startfolge der Hörspielserie Mark Brandis, Raumkadett überrascht die Commander-Perkins-Fans mit einer Wiedervereinigung der Stimmen ihrer Helden: Nach 34 Jahren sind Horst Stark, Gabi Libbach und Gernot Endemann erstmals wieder zusammen in einem Science-Fiction-Werk zu hören …

Alle Links in unserer “Ortungsleitzentrale” (olz)…

SpaceTime 20180309 Series 21 Episode 19 is now out

SpaceTime covers the latest news in astronomy & space sciences.

The show is available as a free twice weekly podcast through Apple Podcasts (itunes), Stitcher, Pocketcasts, SoundCloud, Bitez.com, YouTube, Audio Boom, your favourite podcast download provider, and from www.spacetimewithstuartgary.com

SpaceTime is also broadcast coast to coast across the United States on Science360 Radio by the National Science Foundation in Washington D.C. around the world on Tune-In Radio and as inflight entertainment aboard Virgin Australia

SpaceTime daily news blog: http://spacetimewithstuartgary.tumblr.com/ SpaceTime facebook: www.facebook.com/spacetimewithstuartgary SpaceTime Instagram @spacetimewithstuartgary SpaceTime twitter feed @stuartgary

Today’s stories…

The strange dense structure discovered below the South Atlantic Anomaly A strange dense structure has been discovered directly below the South Atlantic Anomaly and just above the Earth’s core mantle boundary. The object may provide important clues about the Earth’s magnetic field and when it’s next likely to reverse polarity.

New gravity mission to monitor climate change NASA’s next Earth Gravity mission is slated to launch aboard a SpaceX Falcon 9 rocket from the Vandenberg Air Force Base in California on April 14. The twin GRACE-FO spacecraft will continue the work of the original GRACE mission, monitoring how climate change caused by man’s use of fossil fuels was affecting the planet.

New exotic state of matter created Scientists have provided proof for a new state of matter comprising an electron orbiting an atomic nucleus at such a great distance – the space between the two can contain other bound atoms. The discovery raises new questions about the definition of an atom.

The Science Report The deadly legacy of asbestos is only now reaching its peak. Police to deploy drone killers at next month’s Commonwealth Games. Australians dying from alcohol-attributable diseases at the rate of one every 90 minutes. Taking selfies really does make your nose look bigger. A skeptic’s guide to water divining.

SpaceTime Background SpaceTime is Australia’s most respected astronomy and space science news program. The show reports on the latest stories and discoveries making news in astronomy, astrophysics, cosmology, planetary science, galactic and stellar evolution, physics, spaceflight, and general science. SpaceTime features interviews with leading Australian scientists about their latest research. The show is broadcast coast to coast across the United States by the National Science Foundation on Science360 Radio, and is available in Australia as a twice weekly podcast which averages around three million downloads annually. It’s hosted through Bitez.com on all major podcast platforms. SpaceTime is also available as inflight entertainment on Virgin Australia Airlines and on Tune in Radio. The SpaceTime program began life in 1995 as ‘StarStuff’ on ABC NewsRadio. Stuart Gary created the show while he was NewsRadio’s Science Editor and evening News anchor. Gary wrote, produced and hosted the program, consistently achieving almost 9 percent of the Australian national radio audience share - according to the Neilsen ratings survey figures for the five major Australian metro markets (Sydney, Melbourne, Brisbane, Adelaide, & Perth). The StarStuff podcast was hosted by ABC Science on line achieving over 1.3 million downloads annually. The program was axed in 2015 following ABC budget cuts. Gary resigned from the ABC, taking the show and audience with him and rebranding it as SpaceTime. The first SpaceTime episode was broadcast on February 8th 2016 and the show has been in production twice weekly ever since.

Craters on Venus.

Venera

The Venera series space probes were developed by the Soviet Union between 1961 and 1984 to gather data from Venus, Venera being the Russian name for Venus. As with some of the Soviet Union’s other planetary probes, the later versions were launched in pairs with a second vehicle being launched soon after the first of the pair.

Ten probes from the Venera series successfully landed on Venus and transmitted data from the surface of Venus, including the two Vega program and Venera-Halley probes. In addition, thirteen Venera probes successfully transmitted data from the atmosphere of Venus.

Among the other results, probes of the series became the first human-made devices to enter the atmosphere of another planet (Venera 4 on October 18, 1967), to make a soft landing on another planet (Venera 7 on December 15, 1970), to return images from the planetary surface (Venera 9 on June 8, 1975), and to perform high-resolution radar mapping studies of Venus (Venera 15 on June 2, 1983). The later probes in the Venera series successfully carried out their mission, providing the first direct observations of the surface of Venus. Since the surface conditions on Venus are extreme, the probes only survived on the surface for durations varying between 23 minutes (initial probes) up to.

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Ten interesting facts about Uranus

Like the classical planets, Uranus is visible to the naked eye, but it was never recognised as a planet by ancient observers because of its dimness and slow orbit. Sir William Herschel announced its discovery on 13 March 1781, expanding the known boundaries of the Solar System for the first time in history and making Uranus the first planet discovered with a telescope.

1° Uranus is the seventh planet from the Sun. It has the third-largest planetary radius and fourth-largest planetary mass in the Solar System. Uranus is similar in composition to Neptune, and both have different bulk chemical composition from that of the larger gas giants Jupiter and Saturn.

2° Like all of the giant planets, Uranus has its share of moons. At present, astronomers have confirmed the existence of 27 natural satellites. But for the most part, these moons are small and irregular.

3° Uranus’ moons are named after characters created by William Shakespeare and Alexander Pope. These include Oberon, Titania and Miranda.  All are frozen worlds with dark surfaces. Some are ice and rock mixtures.  The most interesting Uranian moon is Miranda; it has ice canyons, terraces, and other strange-looking surface areas.

4° Only one spacecraft in the history of spaceflight has ever made a close approach to Uranus. NASA’s Voyager 2 conducted its closest approach to  Uranus on January 24th, 1986, passing within 81,000 km of the cloud tops of Uranus. It took thousands of photographs of the gas/ice giant and its moons before speeding off towards its next target: Neptune.

5° Uranus has rings: All the gas and ice giants have their own ring systems, and Uranus’ is the second most dramatic set of rings in the Solar System.

6° Uranus makes one trip around the Sun every 84 Earth years. During some parts of its orbit one or the other of its poles point directly at the Sun and get about 42 years of direct sunlight. The rest of the time they are in darkness.

7° All of the planets in the Solar System rotate on their axis, with a tilt that’s similar to the Sun. In many cases, planet’s have an axial tilt, where one of their poles will be inclined slightly towards the Sun. But the axial tilt of Uranus is a staggering 98 degrees! In other words, the planet is rotating on its side.

8° Uranus is approximately 4 times the sizes of Earth and 63 times its volume.

9° Uranus is blue-green in color, the result of methane in its mostly hydrogen-helium atmosphere. The planet is often dubbed an ice giant, since 80 percent or more of its mass is made up of a fluid mix of water, methane, and ammonia ices.

10° Uranus hits the coldest temperatures of any planet. With minimum atmospheric temperature of -224°C Uranus is nearly coldest planet in the solar system. While Neptune doesn’t get as cold as Uranus it is on average colder. The upper atmosphere of Uranus is covered by a methane haze which hides the storms that take place in the cloud decks.

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Images credit: NASA

TODAY IN HISTORY: Planet Venus, observed by NASA’s Pioneer 12 space probe on February 26, 1979.

NASA considering cloud cities and air ships for manned mission to Venus

Cloud cities. On Venus. No, this is not the pitch for a potentially awesome science fiction story — this is a real-life proposal currently being considered by NASA. 

Though Venus’s surface is far too volatile for us to visit anytime soon, scientists believe there’s a “sweet spot” in the Venusian atmosphere that would be the perfect place to fly some exploratory air ships and eventually establish a legit cloud city. Even better? They think it could be a whole lot easier than going to Mars. Well, kinda.

At approximately 31 miles above the planet’s surface, you’ll find one atmosphere of pressure and gravity just a tad lower than that of Earth. The average temperature, though admittedly hot, is just 17 degrees (Celsius) above the average Earth temperature. Hot, sure, but not unmanageable. Compare that to the wasteland of Mars, and it doesn’t sound too bad. Plus, since Venus is closer to the sun than Earth, that height is the perfect spot to tap into solar power — which could keep the ships (and cities?) running forever.

The Space Mission Analysis Branch of NASA’s Systems Analysis and Concepts Directorate at Langley Research Center is working on a proposal to send a robotic probe followed by manned air ships to the planet, leading to a permanent settlement. The five phases would include robotic exploration, a crewed mission to orbit on a 30-day mission, a crewed mission to the atmosphere on a 30-day mission, a crewed mission to the atmosphere for one year and finally a permanent human presence.

So, why might this be easier (in some ways) than a mission to Mars? The distance involved. A round-trip jaunt to Venus (440 days) would take almost half the travel time as a mission to Mars (650-900 days). But that doesn’t mean every aspect is easier. As IEEE Spectrum’s Evan Ackerman noted in a report that quotes NASA scientist Dale Arney, putting all the pieces together in motion above an alien planet wouldn’t be for the faint of heart:

The crewed mission would involve a Venus orbit rendezvous, where the airship itself (folded up inside a spacecraft) would be sent to Venus ahead of time. Humans would follow in a transit vehicle (based on NASA’s Deep Space Habitat), linking up with the airship in Venus orbit.

Since there’s no surface to land on, the “landing” would be extreme, to say the least. “Traditionally, say if you’re going to Mars, you talk about ‘entry, descent, and landing,’ or EDL,” explains Arney. “Obviously, in our case, ‘landing’ would represent a significant failure of the mission, so instead we have ‘entry, descent, and inflation,’ or EDI.” The airship would enter the Venusian atmosphere inside an aeroshell at 7,200 meters per second. Over the next seven minutes, the aeroshell would decelerate to 450 m/s, and it would deploy a parachute to slow itself down further. At this point, things get crazy. The aeroshell would drop away, and the airship would begin to unfurl and inflate itself, while still dropping through the atmosphere at 100 m/s. As the airship got larger, its lift and drag would both increase to the point where the parachute became redundant. The parachute would be jettisoned, the airship would fully inflate, and (if everything had gone as it’s supposed to), it would gently float to a stop at 50 km above Venus’s surface.

Considering the whole world is focused on Mars these days, even the team behind the proposal notes it’s unlikely for the focus to shift anytime soon. But the project is still a fascinating pitch. Seriously, can you even imagine a real-life Cloud City? Lando would be proud. 

(Via io9, IEEE Spectrum)