Discovery about rare nitrogen molecules offers clues to makeup of other life-supporting planets | UCLA
http://newsroom.ucla.edu/...trogen-molecules-offers-clues-to-makeup-of-other-life-supporting-planets

team of scientists using a state-of-the-art UCLA instrument reports the discovery of a planetary-scale “tug-of-war” of life,
deep Earth and the upper atmosphere that is expressed in atmospheric nitrogen.

The Earth’s atmosphere differs from the atmospheres of most other rocky planets and moons in our solar system in that it is rich
in nitrogen gas, or N2; the Earth’s atmosphere is 78 percent nitrogen gas. Titan, the largest of Saturn’s more than 60 moons, is
the other body in our solar system with a nitrogen-rich atmosphere that resembles ours.

Compared with other key elements of life — such as oxygen, hydrogen and carbon — molecular nitrogen is very stable. Two nitrogen
atoms combine to form N2 molecules that stay in the atmosphere for millions of years.

The majority of nitrogen has an atomic mass of 14. Less than one percent of nitrogen has an extra neutron. While this heavy isotope,
nitrogen-15, is rare, N2 molecules that contain two nitrogen-15s — which chemists call 15N15N — are the rarest of all N2 molecules.

The team of scientists measured the amount of 15N15N in air and discovered that this rare form of nitrogen gas is far more abundant
than scientists had expected. The Earth’s atmosphere contains about two percent more 15N15N than can be accounted for by geochemical
processes occurring near the Earth’s surface.

“This excess was not known before because nobody could measure it,” said senior author Edward Young, a UCLA professor of geochemistry
and cosmochemistry. “Our one-of-a-kind Panorama mass spectrometer allows us to see this for the first time. We conducted experiments
showing that the only way for this excess of 15N15N to occur is by rare reactions in the upper atmosphere. Two percent is a huge excess.”

Young said the enrichment of 15N15N in Earth’s atmosphere is a signature that’s unique to our planet. “But it also gives us a clue about
what signatures of other planets might look like, especially if they are capable of supporting life as we know it.”

Scientists observe supermassive black hole in infant universe | MIT News
http://news.mit.edu/2017/scientists-observe-supermassive-black-hole-infant-universe-1206

A team of astronomers, including two from MIT, has detected the most distant supermassive black hole ever observed.
The black hole sits in the center of an ultrabright quasar, the light of which was emitted just 690 million years
after the Big Bang. That light has taken about 13 billion years to reach us — a span of time that is nearly equal
to the age of the universe.

The black hole is measured to be about 800 million times as massive as our sun — a Goliath by modern-day standards
and a relative anomaly in the early universe.

Why is Earth Magnetized and Venus Not? - Sky & Telescope
http://www.skyandtelescope.com/astronomy-news/why-is-earth-magnetized-and-venus-not-magnetized/

A new analysis reveals that the gigantic impact that led to the Moon's formation might have also switched on Earth's magnetic field.

První světlo pro ESPRESSO – lovce exoplanet nové generace | ESO Česko
http://www.eso.org/public/czechrepublic/news/eso1739/?lang

Spektrograf ESPRESSO úspěšně provedl svá první pozorování. Nový přístroj instalovaný na dalekohledu ESO/VLT v Chile bude díky dosud nedosažitelné
přesnosti měření změn ve spektrech hvězd pátrat po jejich extrasolárních planetách. Zařízení bude navíc schopné získávat záření ze všech čtyř
hlavních dalekohledů systému VLT najednou a tímto způsobem sesbírá tolik světla, jako jeden teleskop se zrcadlem o průměru 16 m.

Přístrojem ESPRESSO (SPectrograph for Rocky Exoplanet and Stable Spectroscopic Observations), který byl nedávno instalován na dalekohled ESO/VLT
na observatoři Paranal v severním Chile [1], prošlo první světlo. Tento nový echelletový spektrograf třetí generace je nástupcem úspěšného zařízení
HARPS, které je stále v provozu na observatoři ESO/La Silla. Zatímco spektrograf HARPS je při měření rychlosti pomocí Dopplerova jevu schopen
dosáhnout přesnosti kolem 1 m/s, ESPRESSO by mělo – díky technologickému vývoji a využití na dalekohledu s mnohem větším zrcadlem –
provádět stejná měření s přesností v řádu několika centimetrů za sekundu.

ESOcast 141 Light: ESPRESSO — the Next Generation Planet Hunter
https://www.youtube.com/watch?v=99lcMp2dv_4


ESPRESSO achieves First Light
https://www.youtube.com/watch?v=AaDzvQFgdec

What If the Big Bang Wasn't the Beginning? New Study Proposes Alternative
https://www.space.com/38982-no-big-bang-bouncing-cosmology-theory.html

..."The Big Bang as the initial singularity is only a speculation," Silva Neves told Space.com.
He said that "there are many observations in cosmology" that support the hypothesis that the
universe went through a period of rapid expansion, but that there is no direct evidence that
this expansion started with a singularity.

In a paper published Aug. 29 in the journal General Relativity and Gravitation, Silva Neves,
a researcher at the Mathematics, Statistics & Scientific Computation Institute (IMECC-UNICAMP)
of the University of Campinas, in Brazil, proposes an alternative cosmological model that does
away with the necessity of this original singularity. His model includes a concept known as
bouncing cosmology.

https://www.swri.org/press-release/collisions-after-moon-formation-remodeled-early-earth

Southwest Research Institute scientists recently modeled the protracted period of bombardment following the Moon’s formation, when leftover planetesimals
pounded the Earth. Based on these simulations, scientists theorize that moon-sized objects delivered more mass to the Earth than previously thought.

Early in its evolution, Earth sustained an impact with another large object, and the Moon formed from the resulting debris ejected into an Earth-orbiting
disk. A long period of bombardment followed, the so-called “late accretion,” when large bodies impacted the Earth delivering materials that were accreted
or integrated into the young planet.

“We modeled the massive collisions and how metals and silicates were integrated into Earth during this ‘late accretion stage,’ which lasted for hundreds
of millions of years after the Moon formed,” said SwRI’s Dr. Simone Marchi, lead author of a Nature Geoscience paper outlining these results. “Based on
our simulations, the late accretion mass delivered to Earth may be significantly greater than previously thought, with important consequences for
the earliest evolution of our planet.”

Previously, scientists estimated that materials from planetesimals integrated during the final stage of terrestrial planet formation made up about half
a percent of the Earth’s present mass. This is based on the concentration of highly “siderophile” elements — metals such as gold, platinum and iridium,
which have an affinity for iron — in the Earth’s mantle. The relative abundance of these elements in the mantle points to late accretion, after Earth’s
core had formed. But the estimate assumes that all highly siderophile elements delivered by the later impacts were retained in the mantle.

Strejda Albert o5 bez ztráty kytičky
In a first, Galileo’s gravity experiment is re-created in space | Science News
https://www.sciencenews.org/article/first-galileo-gravity-experiment-re-created-space-einstein

Galileo’s most famous experiment has taken a trip to outer space. The result? Einstein was right yet again.
The experiment confirms a tenet of Einstein’s theory of gravity with greater precision than ever before.

According to science lore, Galileo dropped two balls from the Leaning Tower of Pisa to show that they fell at the same rate no matter their composition.
Although it seems unlikely that Galileo actually carried out this experiment, scientists have performed a similar, but much more sensitive experiment in
a satellite orbiting Earth. Two hollow cylinders within the satellite fell at the same rate over 120 orbits, or about eight days’ worth of free-fall time,
researchers with the MICROSCOPE experiment report Dec 4 in Physical Review Letters. The cylinders’ accelerations match within two-trillionths of a percent.

VLT’s SPHERE spies rocky worlds | ESO United Kingdom
http://www.eso.org/public/unitedkingdom/images/potw1749a/

These images were taken by ESO’s SPHERE (Spectro-Polarimetric High-contrast Exoplanet REsearch) instrument, installed on ESO’s Very Large Telescope
(VLT) at the Paranal Observatory, Chile. These strikingly-detailed views reveal four of the millions of rocky bodies in the main asteroid belt,
a ring of asteroids between Mars and Jupiter that separates the rocky inner planets of the Solar System from the gaseous and icy outer planets.

Astronomer’s map reveals location of mysterious fast-moving gas | University News : The University of Western Australia
http://www.news.uwa.edu.au/...rnational/astronomer-s-map-reveals-location-mysterious-fast-moving-gas

An Australian scientist has created the most detailed map ever of clouds of high-velocity gas in the Universe around us.

The map covers the entire sky and shows curious clouds of neutral hydrogen gas that are moving at a different speed to
the normal rotation of the Milky Way.

It was created by astronomer Dr Tobias Westmeier, from The University of Western Australia node of the International Centre
for Radio Astronomy Research, and published today in the leading journal Monthly Notices of the Royal Astronomical Society.

Dr Westmeier said the map suggests that at least 13 per cent of the sky is covered by high-velocity clouds.

Metal asteroid Psyche is all set for an early visit from NASA
https://theconversation.com/metal-asteroid-psyche-is-all-set-for-an-early-visit-from-nasa-88044

Three times further away from the sun than the Earth lies an enormous lump of metal. Around 252km in diameter,
the metallic “M-class” asteroid 16 Psyche is the target of NASA’s next mission to the belt of giant rocks that
encircles the inner solar system. And the space agency now plans to visit it much sooner than originally planned.

Not only has the launch has been brought forward one year to the summer of 2022, but NASA’s scientists have also
found a way to get to Psyche (pronounced SYKe-ee) much faster by taking a more efficient trajectory. The new route
means the Psyche spacecraft won’t have to swing around the Earth to build up speed and won’t pass as close to the
sun, so it needs less heat protection. It is now due to arrive in 2026, four years earlier than the original timeline.

https://www.nasa.gov/image-feature/jpl/pia21972/jupiter-blues

The Juno spacecraft captured this image when the spacecraft was only 11,747 miles (18,906 kilometers) from the tops of Jupiter’s clouds —
that’s roughly as far as the distance between New York City and Perth, Australia. The color-enhanced image, which captures a cloud system
in Jupiter’s northern hemisphere, was taken on Oct. 24, 2017 at 10:24 a.m. PDT (1:24 p.m. EDT) when Juno was at a latitude of 57.57 degrees
(nearly three-fifths of the way from Jupiter’s equator to its north pole) and performing its ninth close flyby of the gas giant planet.

The spatial scale in this image is 7.75 miles/pixel (12.5 kilometers/pixel).

Citizen scientists Gerald Eichstädt and Seán Doran processed this image using data from the JunoCam imager.