With Astronomy Rewind, Citizen Scientists Bring Zombie Astrophotos Back to Life | American Astronomical Society
https://aas.org/media/press-releases/astronomy-rewind

A new citizen-science project will rescue tens of thousands of potentially valuable cosmic images that are mostly dead to science
and bring them fully back to life. Called Astronomy Rewind, the effort, which launches today (22 March 2017), will take photographs,
radio maps, and other telescopic images that have been scanned from the pages of dusty old journals and place them in context in
digital sky atlases and catalogs. Anyone will then be able to find them online and compare them with modern electronic data from
ground- and space-based telescopes, making possible new studies of short- and long-term changes in the heavens.

Astronomy Rewind results in WorldWide Telescope
https://www.youtube.com/watch?v=uJGTgNJ_V7E

How to hunt for a black hole with a telescope the size of Earth : Nature News & Comment
http://www.nature.com/news/how-to-hunt-for-a-black-hole-with-a-telescope-the-size-of-earth-1.21693
Astronomers hope to grab the first images of an event horizon — the point of no return.

Ice in Ceres' Shadowed Craters Linked to Tilt History
https://www.nasa.gov/feature/jpl/ice-in-ceres-shadowed-craters-linked-to-tilt-history

Dwarf planet Ceres may be hundreds of millions of miles from Jupiter, and even farther from Saturn, but the tremendous influence of gravity
from these gas giants has an appreciable effect on Ceres' orientation. In a new study, researchers from NASA's Dawn mission calculate that
the axial tilt of Ceres -- the angle at which it spins as it journeys around the sun -- varies widely over the course of about 24,500 years.
Astronomers consider this to be a surprisingly short period of time for such dramatic deviations.

Changes in axial tilt, or "obliquity," over the history of Ceres are related to the larger question of where frozen water can be found on Ceres'
surface, scientists report in the journal Geophysical Research Letters. Given conditions on Ceres, ice would only be able to survive at extremely
cold temperatures -- for example, in areas that never see the sun.

"We found a correlation between craters that stay in shadow at maximum obliquity, and bright deposits that are likely water ice," said Anton Ermakov,
postdoctoral researcher at NASA's Jet Propulsion Laboratory, Pasadena, California, and lead author of the study. "Regions that never see sunlight
over millions of years are more likely to have these deposits."

To je nádhera..
"Newton's Discovery of the Refraction of Light" (1827) by Italian artist Pelagio Palagi; Pinacoteca Tosio Martinengo, Brescia Musei.

Mysterious Fomalhaut b Might Not Be an Exoplanet After All – astroengine.com
https://astroengine.com/2017/03/18/mysterious-fomalhaut-b-might-not-be-an-exoplanet-after-all/

The famous exoplanet was the first to be directly imaged by Hubble in 2008 but many mysteries surround its identity —
so astronomers are testing the possibility that it might actually be an exotic neutron star.

Collapsing cliff reveals comet’s interior / Rosetta / Space Science / Our Activities / ESA
http://www.esa.int/Our_Activities/Space_Science/Rosetta/Collapsing_cliff_reveals_comet_s_interior

Rosetta scientists have made the first compelling link between an outburst of dust and gas
and the collapse of a prominent cliff, which also exposed the pristine, icy interior of the comet.

Sudden and short-lived outbursts were observed frequently during Rosetta’s two-year mission at Comet
67P/Churyumov–Gerasimenko. Although their exact trigger has been much debated, the outbursts seem to
point back to the collapse of weak, eroded surfaces, with the sudden exposure and heating of volatile
material likely playing a role.

Space in Images - 2017 - 03 - Collapsing cliff
http://www.esa.int/spaceinimages/Images/2017/03/Collapsing_cliff

Unravelling Earth’s magnetic field / Swarm / Observing the Earth / Our Activities / ESA
http://www.esa.int/Our_Activities/Observing_the_Earth/Swarm/Unravelling_Earth_s_magnetic_field

ESA’s Swarm satellites are seeing fine details in one of the most difficult layers of Earth’s magnetic field to unpick –
as well as our planet’s magnetic history imprinted on Earth’s crust. Earth’s magnetic field can be thought of as a huge cocoon,
protecting us from cosmic radiation and charged particles that bombard our planet in solar wind. Without it, life as we know
it would not exist.

Most of the field is generated at depths greater than 3000 km by the movement of molten iron in the outer core. The remaining
6% is partly due to electrical currents in space surrounding Earth, and partly due to magnetised rocks in the upper lithosphere –
the rigid outer part of Earth, consisting of the crust and upper mantle.

Lithospheric magnetic field
https://www.youtube.com/watch?v=58FZ6OCI6mk

ESO Top 10 Astronomical Discoveries
https://www.youtube.com/watch?v=Yf0M2ljzekk