Explore the solar system on your PC! Fed up with space games that insult your intelligence and violate every law of physics? Orbiter is a simulator that gives you an idea what space flight really feels like – today and in the not so distant future. And best of all: you can download it for free!
Although it is fun and challenging in many ways, Orbiter 2016 truly is a space flight simulation, or what some might now call a “sandbox game.” In its level of detail and learning curve, it is something like Microsoft Flight Simulator or X-Plane, where the “game” is mainly the challenge of learning to fly, or of mastering advanced skills such as instrument approaches. Orbiter too supports atmospheric flight, but with the major addition of space flight with accurate orbital mechanics.
There is plenty to learn and do, but there are no requirements, characters, weapons, or scores, only the unforgiving rules of Newtonian physics, a wide range of tools and techniques to master, and the full solar system to explore. Learning to launch a spacecraft to orbit, dock with the ISS, land on the Moon, or navigate to Mars: all of this, and more, is possible in Orbiter.
You can choose from a variety of built-in spacecraft and scenarios, download and fly add-on spacecraft and scenarios, or even design and fly your own spacecraft, although doing so requires some external tools.
Irving also has good things to say about these two spaceflight sims:
This image was taken by the MUSE instrument, mounted on ESO’s Very Large Telescope and shows the region R44 within the Carina Nebula, 7500 light-years away. The massive stars within the star formation region slowly destroy the pillars of dust and gas from which they are born. [Larger versions]Spectacular new observations of vast pillar-like structures within the Carina Nebula have been made using the MUSE instrument on ESO’s Very Large Telescope. The different pillars analysed by an international team seem to be pillars of destruction — in contrast to the name of the iconic Pillars of Creation in the Eagle Nebula, which are of similar nature.
3D animation of the Carina Nebula. Credit: ESO/M. Kornmesser
The spires and pillars in the new images of the Carina Nebula are vast clouds of dust and gas within a hub of star formation about 7500 light-years away. The pillars in the nebula were observed by a team led by Anna McLeod, a PhD student at ESO, using the MUSE instrument on ESO’s Very Large Telescope.
This image was taken by the MUSE instrument, mounted on ESO’s Very Large Telescope and shows the region R18 within the Carina Nebula, 7500 light-years away. The massive stars within the star formation region slowly destroy the pillars of dust and gas from which they are born. [Larger images]The great power of MUSE is that it creates thousands of images of the nebula at the same time, each at a different wavelength of light. This allows astronomers to map out the chemical and physical properties of the material at different points in the nebula.
Images of similar structures, the famous Pillars of Creation[1] in the Eagle Nebula and formations in NGC 3603, were combined with the ones displayed here. In total ten pillars have been observed, and in so doing a clear link was observed between the radiation emitted by nearby massive stars and the features of the pillars themselves.
This image was taken by the MUSE instrument, mounted on ESO’s Very Large Telescope and shows the region R45 within the Carina Nebula, 7500 light-years away. The massive stars within the star formation region slowly destroy the pillars of dust and gas from which they are born. [Larger images]In an ironic twist, one of the first consequences of the formation of a massive star is that it starts to destroy the cloud from which it was born. The idea that massive stars will have a considerable effect on their surroundings is not new: such stars are known to blast out vast quantities of powerful, ionising radiation — emission with enough energy to strip atoms of their orbiting electrons. However, it is very difficult to obtain observational evidence of the interplay between such stars and their surroundings.
The team analysed the effect of this energetic radiation on the pillars: a process known as photoevaporation, when gas is ionised and then disperses away. By observing the results of photoevaporation — which included the loss of mass from the pillars — they were able to deduce the culprits. There was a clear correlation between the amount of ionising radiation being emitted by nearby stars, and the dissipation of the pillars.
This craggy fantasy mountaintop enshrouded by wispy clouds looks like a bizarre landscape. But it is indeed a pillar of gas and dust, three light-years tall, which is being eaten away by the brilliant light from nearby bright stars. The pillar is also being assaulted from within, as infant stars buried inside it fire off jets of gas that can be seen streaming from towering peaks. [Larger images]This might seem like a cosmic calamity, with massive stars turning on their own creators. However the complexities of the feedback mechanisms between the stars and the pillars are poorly understood. These pillars might look dense, but the clouds of dust and gas which make up nebulae are actually very diffuse. It is possible that the radiation and stellar winds from massive stars actually help create denser spots within the pillars, which can then form stars.
These breathtaking celestial structures have more to tell us, and MUSE is an ideal instrument to probe them with.
This zoom sequence starts with a broad view of the Milky Way and closes in on the Carina Nebula, an active stellar nursery about 7500 light-years from Earth. In the final sequence we see a new image taken with the VLT Survey Telescope at ESO’s Paranal Observatory. This picture was taken with the help of Sebastián Piñera, President of Chile, during his visit to the observatory on 5 June 2012 and released on the occasion of the telescope’s inauguration in Naples on 6 December 2012.
Credit: ESO/Nick Risinger (skysurvey.org)/Digitized Sky Survey 2 . Music: John Dyson (from the album Moonwind). Acknowledgement: VPHAS+ Consortium/Cambridge Astronomical Survey Unit
Notes
[1] The Pillars of Creation are an iconic image, taken with the NASA/ESA Hubble Space Telescope, making them the most famous of these structures. Also known as elephant trunks, they can be several light-years in length.
This week we talk with Emory Stagmer about small satellites, what they mean to the industry, some of the issues holding them back today and what Northrup Grumman is doing to help bring reliability and sustainability to the small sat market.
Space news topics discussed:
* New Images Show Mars Lander Crash Site * OA-5 Docks with ISS * Juno Recovers From Safe Mode, But Propulsion Problem Persists * Another Air Force Satellite breaks up in orbit * Final Data From New Horizons Flyby of Pluto is Downlinked * Tiangong-2 Deploys Micro-Sat
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