OrbitalHub

NASA dixit:

“The sun is always changing and NASA’s Solar Dynamics Observatory is always watching. Launched on Feb. 11, 2010, SDO keeps a 24-hour eye on the entire disk of the sun, with a prime view of the graceful dance of solar material coursing through the sun’s atmosphere, the corona. SDO’s sixth year in orbit was no exception. This video shows that entire sixth year — from Jan. 1, 2015, to Jan. 28, 2016, as one time-lapse sequence. At full quality on YouTube, this video is ultra-high definition 3840×2160 and 29.97 frames per second. Each frame represents 2 hours. […]

SDO’s Atmospheric Imaging Assembly (AIA) captures a shot of the sun every 12 seconds in 10 different wavelengths. The images shown here are based on a wavelength of 171 angstroms, which is in the extreme ultraviolet range and shows solar material at around 600,000 kelvins (about 1,079,540 degrees F). In this wavelength it is easy to see the sun’s 25-day rotation.

During the course of the video, the sun subtly increases and decreases in apparent size. This is because the distance between the SDO spacecraft and the sun varies over time. The image is, however, remarkably consistent and stable despite the fact that SDO orbits Earth at 6,876 mph, and Earth orbits the sun at 67,062 mph.

Scientists study these images to better understand the complex electromagnetic system causing the constant movement on the sun, which can ultimately have an effect closer to Earth, too. Flares and another type of solar explosion called coronal mass ejections can sometimes disrupt technology in space. Moreover, studying our closest star is one way of learning about other stars in the galaxy. NASA’s Goddard Space Flight Center in Greenbelt, Maryland, built, operates and manages the SDO spacecraft for NASA’s Science Mission Directorate in Washington, D.C.”

Video credit: NASA’s Goddard Space Flight Center/Wiessinger

Music credit: “Tides,” a track available from Killer Tracks

NASA dixit:

“Around 13 times per century, Mercury passes between Earth and the sun in a rare astronomical event known as a planetary transit. The 2016 Mercury transit occurred on May 9, between roughly 7:12 a.m. and 2:42 p.m. EDT.”

Wikipedia dixit:

“A transit of Mercury across the Sun takes place when the planet Mercury passes directly between the Sun and a superior planet, becoming visible against (and hence obscuring a small portion of) the solar disk. During a transit, Mercury can be seen as a very small black disk moving across the face of the Sun. Transits of Mercury with respect to Earth are much more frequent than transits of Venus, with about 13 or 14 per century, in part because Mercury is closer to the Sun and orbits it more rapidly. Transits of Mercury occur in May or November. The last four transits occurred in 1999, 2003, 2006, and May 9, 2016. The next will occur on November 11, 2019, and then on November 13, 2032. A typical transit lasts several hours.

On June 3, 2014, the Mars rover Curiosity observed the planet Mercury transiting the Sun, marking the first time a planetary transit has been observed from a celestial body besides Earth.”

Video credit: NASA’s Goddard Space Flight Center/Genna Duberstein

Music credit: Encompass by Mark Petrie

Ego dixit:

“On April 28th 2016, a Soyuz-2.1a lifted off from Vostochny (Восточный) with three satellites: Lomonosov (Ломоносов), AIST-2D (Аист-2Д), and SamSat-218. This was the first launch from Vostochny. Construction of the cosmodrome began in January 2011 and it is expected to be completed in 2018.”

Wikipedia dixit:

“Vostochny (which means “eastern” in Russian) is in the Svobodny and Shimanovsk districts of Amur Oblast in the Russian Far East, on the watershed of the Zeya and Bolshaya Pyora rivers, approximately 600–800 km (370–500 mi) from the Pacific Ocean, depending on launch azimuth. The planned total area is 551.5 km2, being a region approximately 30 km in diameter centred on 51°53′N 128°20′E. The nearby train station is Ledyanaya and the nearest city is Tsiolkovsky. The cosmodrome’s latitude, 51° north, means that rockets will be able to carry almost the same amount of payload as they can when launched from Baikonur at 46°N. Other arguments for choosing this location include the ability to use sparsely populated areas and bodies of water for the rocket launch routes; proximity to major transportation networks such as the Baikal–Amur Mainline, the Chita–Khabarovsk Highway; abundance of electricity production resources in the area; and the infrastructure supporting the former Svobodny Cosmodrome, on which the new spaceport will be based. The site’s location in the Russian far eastern region allows for easier transport of materials to the site, and allows rockets to jettison their lower stages over the ocean. It was expanded as part of the plan of modernization of the supporting infrastructure. Putin said that among places offered was an area on the shore of the Pacific Ocean, near Vladivostok, but that experts recommended not to locate it there since the proximity to the ocean can create problems and delays in launches, and as a result the current place was chosen.

The new cosmodrome is to enable Russia to launch most missions from its own land, and to reduce Russia’s dependency on the Baikonur cosmodrome in Kazakhstan. Currently, Baikonur is the only launch site operated by Russia with the capability to launch crewed missions to ISS or elsewhere. The Russian government pays a yearly rent of $115 million to Kazakhstan for its usage. Satellites bound for geostationary orbit and high inclination orbits can be currently launched from Plesetsk Cosmodrome in northwestern Russia. The new site is intended mostly for civilian launches. Roscosmos plans to move 45% of Russia’s space launches to Vostochny by 2020, while Baikonur’s share will drop from 65% to 11%, and Plesetsk will account for 44 percent. In a draft strategy, which was presented at a meeting of the club of friends of the cluster space technology and telecommunications fund “Skolkovo” and published in the official fund microblog on Twitter said that in 2011 the share of space launches from Russia’s territory stands at 25% today and by 2030 this figure will stand on 90%.”

Video credit: Roscosmos