Friday, 28 November 2014

Beam Me Up, Mars! Uwingu Will Send 90,000 Radio Messages There Today

Early Spring Dust Storms at the North Pole of Mars. Early spring typically brings dust storms to northern polar Mars. As the north polar cap begins to thaw, the temperature difference between the cold frost region and recently thawed surface results in swirling winds. The choppy dust clouds of several dust storms are visible in this mosaic of images taken by the Mars Global Surveyor spacecraft in 2002. The white polar cap is frozen carbon dioxide. (NASA/JPL/Malin Space Science Systems)
Early Spring Dust Storms at the North Pole of Mars. Early spring typically brings dust storms to northern polar Mars. As the north polar cap begins to thaw, the temperature difference between the cold frost region and recently thawed surface results in swirling winds. The choppy dust clouds of several dust storms are visible in this mosaic of images taken by the Mars Global Surveyor spacecraft in 2002. The white polar cap is frozen carbon dioxide. (NASA/JPL/Malin Space Science Systems)
Maybe you can’t climb on a rocketship to Mars, at least yet, but at the least you can get your desire for exploration out through other means. Today, take comfort that humanity is sending 90,000 messages in the Red Planet’s direction. That’s right, the non-profit Uwingu plans to transmit these missives today around 3 p.m. EST (8 p.m. UTC).
Among the thousands of ordinary folks are a collection of celebrities: Bill Nye, the Science Guy; George Takei (“Sulu” on Star Trek) and commercial astronaut Richard Garriott, among many others.

“This is the first time messages from people on Earth have been transmitted to Mars by radio,” Uwingu stated. “The transmission, part of Uwingu’s ‘Beam Me to Mars’ project, celebrates the 50th anniversary of the 28 November 1964 launch of NASA’s Mariner 4 mission—the first successful mission to explore Mars.”
The project was initially released in the summer with the idea that it could help support struggling organizations, researchers and students who require funding for their research. The messages cost between $5 and $100, with half the money going to the Uwingu Fund for space research and education grants, and the other half for transmission costs to Mars and other needed things.
While only robots can receive those messages for now, it’s another example of transmission between the planets that we take for granted. For example, check out this stunning picture below from Mars Express, a European Space Agency mission, that was just released yesterday (Nov. 27). Every day we receive raw images back from the Red Planet that anyone can browse on the Internet. That was unimaginable in Mariner 4’s days. What will we see next?
Close-up of a trough in the huge Hellas Basin on Mars, taken by the European Space Agency's Mars Express spacecraft and released Nov. 27, 2014. Credit: ESA/DLR/FU Berlin
Close-up of a trough in the huge Hellas Basin on Mars, taken by the European Space Agency’s Mars Express spacecraft and released Nov. 27, 2014. Credit: ESA/DLR/FU Berlin

Tuesday, 25 November 2014

NASA Wants To Launch Tiny Moon Satellites On Its Next-Generation Rocket

Artist's conception of NASA's Space Launch System. Credit: NASA
Artist’s conception of NASA’s Space Launch System. Credit: NASA
As the space community counts down the days to the long-awaited Dec. 4 uncrewed launch of the Orion spacecraft — that vehicle that is supposed to bring astronauts into the solar system in the next decade — NASA is already thinking ahead to the next space test in 2017 or 2018.
Riding atop the new Space Launch System rocket, if all goes to plan, will be a suite of CubeSats that will explore the Moon as Orion makes its journey out to our largest closest celestial neighbor. NASA announced details of the $5 million “Cube Quest” challenge yesterday (Nov. 24).

CubeSats are tiny satellites that are so small that they are often within the reach of universities and similar institutions that want to perform science in space without the associated cost of operating a huge mission. The concept has been so successful that some companies are basing their entire business model on it, such as Planet Labs — a company that is performing Earth observations with the small machines.
NCube-2 cubesat, a typical configuration for this kind of satellite (although the outer skin is missing.) Credit: ARES Institute
NCube-2 cubesat, a typical configuration for this kind of satellite (although the outer skin is missing.) Credit: ARES Institute
The competition will be divided into several parts, including a ground tournament to see if the CubeSats can fly on the SLS, a lunar derby to ensure they can communicate at a distance of 10 times the Earth-moon distance, and a deep-space derby to put the CubeSat in a “stable lunar orbit” and work well there.

Friday, 21 November 2014

How Long Does it Take Jupiter to Orbit the Sun?

How Long Does it Take Jupiter to Orbit the Sun
Hubble Jupiter

“How long goes it take Jupiter to orbit the Sun?” is a question that we get from time to time here on Universe Today. Jupiter orbits the Sun every 11.86 Earth years (or 4,332 days). The longer orbital period for Jupiter is because it orbits at an average distance of 778 million km(Earth orbits at an average of 150 million km). Above I mentioned Jupiter’s semi-major axis is 778 million km. At perihelion Jupiter can be as close to the Sun as 740,679,835 km and at aphelion it is 816,001,807 km away. Jupiter is tilted on its axis by 3.13 degrees. With such a slight tilt, the planet does not experience seasons.
Jupiter is the only planet that has a center of mass with the Sun that lies outside the volume of the Sun. The center of mass is approximately7% outside of the Sun’s volume. The elliptical orbit of Jupiter is inclined 1.31 degrees compared to the Earth. While in its orbit, Jupiter rotates faster than any other planet in our Solar System. It completes one rotation(day) every 9.97 hours. In order to rotate so fast, Jupiter has to have a centripetal acceleration at its equator of 1.67 m/s2. When this is compared to its equatorial surface gravity of 24.79 m/s2, the net acceleration that would be felt at the equatorial surface is close to 23.12 m/s2. The quick rotation has flattened the planet into a visible oblate spheroid. The flattening can actually be noticed through Earth based telescopes. Jupiter is flattened to the point that the equatorial diameter is 9275 km longer than the diameter measured through the poles.
Have you ever wondered how far it is from Earth to Jupiter? The answer changes every day as the planets move through the Solar System, but they can be as close as 893 million km apart. At their most distant they are 964 million km apart. They are closest to each other when Earth is at aphelion and Jupiter is at perihelion. They are the most distant when they are on opposite sides of the Sun and both are at aphelion.
Hopefully, finding out the answer to “how long does it take Jupiter to orbit the Sun” inspires you to do more research on the entire Jovian system. If you do, you will find volcanoes, oceans of slush, and places that may harbor conditions ideal for life.


Monday, 17 November 2014



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Friday, 14 November 2014

Congratulations to ESA on a magnificent job, after 10 years of watching and planing, manoeuvring  this Rosetta probe across our solar system to a rendezvous with a comet hurtling through space, and then land Philae, twice,  one time more than needed and it seems it may be on it's side, and unfortunately it's solar panels may be shaded which will shorten the battery life and may shorten the mission. However it is still a great achievement and will hopefully inspire others to try and better this effort.



Monday, 10 November 2014

Celestron C6-S GT XLT Advanced Series 6" Schmidt-Cassegrain Telescope


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Friday, 7 November 2014

Well there's been a lot happening in space recently, Virgin Galactic's space ship two tragic accident which claimed the life of co-pilot Micheal Alsbury and injured pilot Peter Siebold who is "alert and talking" the investigation continues, it may take up to a year to complete. Sir Richard Branson who arrived straight after the accident to lend support to his team has said the accident won't change his plans for space tourism.   




                                           Virgin Galactic's Space Ship 2 wreckage in the desert.

The launch pad explosion at Wallaps flight facility in Virginia USA of the Antares rocket which was carrying Orbital Science's 3rd resupply Cygnus capsule for the ISS.Orbital Science are contracted to a total of 8 supply capsule mission to the ISS.



                                           Antares rocket explodes just after liftoff.

On a happier note , the return of China's 1st round trip to the moon on November 1st which parachuted into Mongolia , Chang-E 5, the prelude to Chang-E 6, scheduled for 2017 which will land on the Moon, gather samples(2.2kg) and return them to Earth.
                                          Chinese scientist inspect Ghang-E 5.

On the 12th of November the European Space Agency(ESA) will attempt to land on a comet for the first time in history.On that day ESA Rosetta spacecraft will deploy the Philae lander , it will take 7 hours to approach and land on Comet 67P/ Churyumov-Gerasimenko.       
      The comet will be traveling 40 times faster than a speeding bullet, spinning on its axis every 12 hours, all the while shooting jets of gas out of its rocky uneven surface.
      Philae will home in on its small landing site called Agilkia as shown below. The best of luck fella's.


Monday, 3 November 2014


Largest Sunspot in 24 Years Wows Scientists, But Also Mystifies


Jupiter-sized sunspot AR 12192
The Jupiter-sized sunspot AR 12192 is the largest active region seen on the sun in 24 years.
Credit: C. Alex Young/The Sun Today
The biggest sunspot to grace the face of the sun in more than two decades just rotated out of Earth's view, but it was responsible for kicking up some truly amazing solar activity this week.
The sunspot (called Active Region 12192 or AR 2192) shot off four powerful flares in four days recently, with many more smaller flares sprinkled in as well. The sunspot region was about the size of the planet Jupiter and is the largest solar flare observed in 24 years.
AR 2192 was actually one of the biggest observed sunspots of all time, ranking 33rd largest of 32,908 active regions since 1874, according to NASA scientists C. Alex Young and Dean Pesnell. But how does a sunspot grow this big?

"The simple answer is we really don't know," Young told Space.com. "Being close to solar maximum [the peak in the sun's 11-year solar cycle] means there is more concentrated magnetic field and magnetic energy under the solar surface waiting to bubble up. But the question of why it comes up as one spot instead of two or more is really still unknown, a mystery.
"I guess a good analogy is when you twist a rubber band or piece of string," Young added. "Why do, say, three knots or bunches form instead of two or four? The physics is probably too complicated for us at this point but we can get a handle on, say, when the knots will start to form once we better understand the properties of the rubber band or string and how much twist we put into them. We are not to that point with the sun but we may get there eventually."
Sunspots are active areas on the sun. They generally form when magnetic field lines are warped, and if they become twisted. Part of it may break out, and show up on the face of the star. Sunspots look dark because they are cooler than the area surrounding them.
The sunspot is particularly special because of the somewhat strange way scientists have seen it behave. Instead of shooting out huge bursts of plasma — called coronal mass ejections (CMEs) — with powerful flares, the giant sunspot hasn't produced significant CMEs during its time rotating in view of Earth, according to Young.
"What's really curious about it [the large sunspot] is that it's produced so many flares of pretty good size, but little or no coronal mass ejections," Young said. "It's not that it's never happened before, but it tends to be the case that when you have a big flare, you generally get a big CME."
Earth-directed CMEs are responsible for geomagnetic storms that can harm satellites in orbit or even knock out power grids on the planet. A CME produced by a sunspot larger than AR 2192 knocked out the power in Quebec, Canada, in 1989, Young said.
The sunspot just rotated out of view of Earth, according to Spaceweather.com, but that doesn't necessarily mean that AR 2192 won't make another appearance on Earth's side of the star.
Huge sunspots usually tend to stick around for a while, Young said, so AR 2192 could end up surviving its two week-journey around the other side of the sun, out of view of Earth.
"We don't know exactly if it's going to make it on its way around, but there's a good chance," Young, who also runs The Sun Today blog, said. "It's pretty big, and certainly there have been plenty of examples of other spots that have gone around. Some have gone around a couple times."
If the sunspot does make it around to the Earth-facing side of the sun again, observers on the planet might be able to spot it. AR 2192 was visible using eclipse glasses for the past week or so, but NEVER look at the sun with your naked eye; it can cause serious eye damage. Find out how to safely observe the sun using Space.com's sun observation guide.