Monthly Archives: March 2014

Education, Solar Science, Space participation

Sunspotter – citizen solar science

Sunspotter is a Zooniverse citizen science project in which participants ”

help to organize sunspot images in order of complexity to better understand and predict how the Sun’s magnetic activity affects us on Earth.

The Sunspotter blog includes interesting items such as this Space weather – a short guide and  The Making of a Magnetogram Part I: Lost in a Magnetic Field.

sunspot_size“Sunspots vary in size and tend to range between 1.500 – 50,000 km,
making some larger than Earth.Observed with the Swedish 1-m
Solar Telescope (SST). The SST is operated on the island of La Palma
by the Institute for Solar Physics in the Spanish Observatorio del Roque
de los Muchachos of the Instituto de Astrofísica de Canarias.
Observations: Göran Scharmer and Kai Langhans, ISP.
Image processing: Mats Löfdahl, ISP”

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See the HobbySpace Sun & Space Weather page here for real time images and data.

DIY space, Mars, Simulators

Mars One launches simulated outpost project

An announcement from Mars One:

Mars One Begins Work on Simulation Mars Home for Crew

Amersfoort, The Netherlands, 27 March 2014 – Mars One is excited to announce the launch of a simulation project to replicate the future Mars human outpost here on Earth.

Mars One will soon begin the process of construction of the first simulation outpost, which will be used for training selected astronauts and teams. The main purpose of an early version outpost is for potential crew members to gain early experience in the actual environment which will become their home on Mars.

Bas Lansdorp, co-founder: “We are very eager to get started constructing actual hardware for our mission that is important for training future Mars One crews and preparing them for their life on Mars. We are going from theory to practice.”

Mars One has plans to eventually create multiple simulation outposts in different locations for easier training logistics and diverse realism exposure. The early version outpost will not contain an actual life support system immediately, but will be fitted with such systems later.

Newly added team member Kristian von Bengtson will be leading the outpost project from Denmark. He will also be leading the search for potential construction companies and major sponsors who would like [to] be a part of this outpost project.

Kristian von Bengtson: “Finally getting started on the outpost project is incredibly exciting and I am looking forward to replacing images with real life hardware. I think a lot of people are looking forward to opening the hatches of the outpost modules and taking the next step in the mission. I know I am.”

The final location of the first simulation outpost has not yet been decided.

About Mars One
Mars One is a not-for-profit foundation that will establish permanent human life on Mars. Human settlement on Mars is possible today with existing technologies. Mars One’s mission plan integrates components that are well tested and readily available from industry leaders worldwide. The first footprint on Mars and lives of the crew thereon will captivate and inspire generations. It is this public interest that will help finance this human mission to Mars.

Space Policy, SpaceCasts

Space policy roundup – March.27.14 [Update]

There was hearing today of the House subcommittee on Science, NASA and Technology with NASA administrator Charles Bolden testifying Subcommittee on Space – A Review of the National Aeronautics and Space Administration Budget for Fiscal Year 2015 | Committee on Science – U.S. House of Representatives.

Here are notes on the exchanges. The Congresspersons (who mostly represent districts with NASA centers) as usual hailed the SLS/Orion jobs programs while Bolden was more emphatic this time in supporting the Commercial Crew program and blaming Congress for delaying it in favor of paying Russia to launch US astronauts to the ISS:

Yet another selection of space policy/politics related links:

[ Update:

Update 2:

]

Webcasts:

Asteroids & Comets, Astronomy, Space Science

ESO detects ring around asteroid Chariklo

A surprising find by the European Southern Observatory (ESO):

First Ring System Around Asteroid

Observations at many sites in South America, including ESO’s La Silla Observatory, have made the surprise discovery that the remote asteroid Chariklo is surrounded by two dense and narrow rings. This is the smallest object by far found to have rings and only the fifth body in the Solar System — after the much larger planets Jupiter, Saturn, Uranus and Neptune — to have this feature. The origin of these rings remains a mystery, but they may be the result of a collision that created a disc of debris. The new results are published online in the journal Nature on 26 March 2014.

The rings of Saturn are one of the most spectacular sights in the sky, and less prominent rings have also been found around the other giant planets. Despite many careful searches, no rings had been found around smaller objects orbiting the Sun in the Solar System. Now observations of the distant minor planet [1] (10199) Chariklo [2] as it passed in front of a star have shown that this object too is surrounded by two fine rings.

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We weren’t looking for a ring and didn’t think small bodies like Chariklo had them at all, so the discovery — and the amazing amount of detail we saw in the system — came as a complete surprise!” says Felipe Braga-Ribas (Observatório Nacional/MCTI, Rio de Janeiro, Brazil) who planned the observation campaign and is lead author on the new paper.

Chariklo is the largest member of a class known as the Centaurs [3] and it orbits between Saturn and Uranus in the outer Solar System. Predictions had shown that it would pass in front of the star UCAC4 248-108672 on 3 June 2013, as seen from South America [4]. Astronomers using telescopes at seven different locations, including the 1.54-metre Danish and TRAPPIST telescopes at ESO’s La Silla Observatory in Chile [5], were able to watch the star apparently vanish for a few seconds as its light was blocked by Chariklo — an occultation [6].

But they found much more than they were expecting. A few seconds before, and again a few seconds after the main occultation there were two further very short dips in the star’s apparent brightness [7]. Something around Chariklo was blocking the light! By comparing what was seen from different sites the team could reconstruct not only the shape and size of the object itself but also the shape, width, orientation and other properties of the newly discovered rings.

Artist’s impression close-up of the rings around Chariklo
Artist’s sketch of ring around minor planet Chariklo.
Click to Enlarge

The team found that the ring system consists of two sharply confined rings only seven and three kilometres wide, separated by a clear gap of nine kilometres — around a small 250-kilometre diameter object orbiting beyond Saturn.

For me, it was quite amazing to realise that we were able not only to detect a ring system, but also pinpoint that it consists of two clearly distinct rings,” adds Uffe Gråe Jørgensen (Niels Bohr Institute, University of Copenhagen, Denmark), one of the team. “I try to imagine how it would be to stand on the surface of this icy object — small enough that a fast sports car could reach escape velocity and drive off into space — and stare up at a 20-kilometre wide ring system 1000 times closer than the Moon.” [8]

Although many questions remain unanswered, astronomers think that this sort of ring is likely to be formed from debris left over after a collision. It must be confined into the two narrow rings by the presence of small putative satellites.

So, as well as the rings, it’s likely that Chariklo has at least one small moon still waiting to be discovered,” adds Felipe Braga Ribas.

The rings may prove to be a phenomenon that might in turn later lead to the formation of a small moon. Such a sequence of events, on a much larger scale, may explain the birth of our own Moon in the early days of the Solar System, as well as the origin of many other satellites around planets and asteroids.

The leaders of this project are provisionally calling the rings by the nicknames Oiapoque and Chuí, two rivers near the northern and southern extremes of Brazil [9].