What's out there? - About Space
The goal of the Puli is to reach the Moon, but we can’t forget about the other parts of Space. Our Solar System, the Milky Way and the other galaxies far away are interesting, unexplored areas, what humanity tries to know. Because of that, beside our own celestial follower we have to look elsewhere too, to know the natural objects and those instruments, which are analyzing them.
This collection of articles from Puli-members or others tries to present the most important moments of space sciences. Don’t forget: we advise these for everyone, and not only for those, who are interested in this topic!
Have fun reading!
The articles are:
NASA would send a probe, where no one has sent before: directly into Sun’s outer atmosphere. The instruments of Solar Probe Plus have been chosen.
According to the current plans, the Solar Probe Plus would launch ‘til 2018. Last week the American space agency named that five scientific instruments, what they would deploy on the probe what will fly next to the sun, and what’s size is similar to a size of a car. The instruments would analyze the composition of solar wind, detect the impacting dust particles, measure the electromagnetic field of the star and would make 3D images of the corona. The experiments have been chosen from 13 suggestions presented in 2009. The pre-studies, planning, engineering and testing of the chosen instruments will cost 180 million dollars.
The Solar Probe Plus near the Sun (Fantasy: JHU APL)
As the probe will get close to the sun, it will have to endure more than 1400°C temperature and fierce bursts. It looks for the answer to two main questions: why is the corona hotter, than the visible “surface” of the sun - the photosphere - and how exactly gain the particles of the solar wind speed, which have an effect, among other things, on our Earth’s environment.
The scientific goals of Solar Probe Plus didn’t change since 2005, when the experts started to think about a probe, the Solar Probe, analyzing the Sun. The practical plans have altered though. It’s an idea since the 1970’s, that after a swinging maneuver around Jupiter a probe would go into a quasi-polar orbit around the Sun, where the smallest distance would have been 4 Sun radiuses. This would allow 2 flybys. In the current, newer plans the probe stays in the level of the ecliptics and nears the star much frequently – but the distances are larger and slowly decreasing too. The main program contains 24 perihelium-flybys in 35 Sun radiuses. 19 from that is even closer - 20 Sun radiuses. In the years following, after a swinging maneuver by Venus the 9,5 Sun radiuses are the goal. This will be the last, 88 days long orbit, and the probe would do it 3 times.
The changing orbit of the Solar Probe Plus around the Sun – In this image is the probe starts in the year 2015, but that altered to the July 2018. What didn’t change, that to reach reach the inner orbit will take 6,5 years. (Image: JHU APL)
The heat protection layer of the Solar Probe Plus is a 2,7 meters diameter shield. The power sources are two independent solar panels. The first will be used in a larger distance from the Sun, and when the probe gets closer, it will fold and will be pulled into the shade of the heat protection shield. During this part of the orbit they will use another, liquid-cooled solar panel. The scientific data will be stored on the deck, until the probe reaches again the 0,59 AU distance, then the data will be sent to Earth. (1 AU is the medium Sun-Earth distance, it’s roughly 150 million km - 215 times bigger, then the radius of the Sun.)
Translation by Márton Deák
Last Updated (Sunday, 21 November 2010 17:52)