News | Catalog of Known Near-Earth Asteroids Tops 15,000
http://www.jpl.nasa.gov/news/news.php?feature=6664

The number of discovered near-Earth asteroids (NEAs) now tops 15 000, with an average of 30 new discoveries added each week.
This milestone marks a 50 percent increase in the number of known NEAs since 2013, when discoveries reached 10,000 in August of that year.

Surveys funded by NASA's Near Earth Object (NEO) Observations Program (NEOs include both asteroids and comets) account for more than 95 percent of discoveries so far.

The 15 000th near-Earth asteroid is designated *2016 TB57*. It was discovered on Oct. 13 by observers at the Mount Lemmon Survey, an element of the NASA-funded Catalina
Sky Survey in Tucson, Arizona. 2016 TB57 is a rather small asteroid - about 16 to 36 meters in size - that will come closest to Earth on Oct. 31 at just beyond five times
the distance of the moon. It will safely pass Earth.

Boyajians Star from Breakthrough Listen at 10.4 GHz. Axes are frequency (vertical) vs time (horizontal)

Bright fireball captured by a dashcam over Denver, Colorado on October 27, 2016
https://www.youtube.com/watch?v=sESqNYBimbQ&feature=youtu.be

Shocks in the early universe could be detectable today
http://phys.org/news/2016-10-early-universe-today.html

Physicists have discovered a surprising consequence of a widely supported model of the early universe: according to the model, tiny
cosmological perturbations produced shocks in the radiation fluid just a fraction of a second after the big bang. These shocks would have
collided with each other to generate gravitational waves that are large enough to be detected by today's gravitational wave detectors.

The physicists, Ue-Li Pen at the Canadian Institute for Theoretical Astrophysics in Toronto, and Neil Turok at the Perimeter Institute
for Theoretical Physics in Waterloo, have published a paper on the shocks in the early universe and their aftermath in a recent issue
of Physical Review Letters.

As the scientists explain, the most widely supported model of the early universe is one with a radiation-dominated background that is
almost perfectly homogeneous, except for some tiny waves, or perturbations, in the radiation.

In the new study, Pen and Turok have theoretically shown that some of these early, tiny perturbations, which are small-amplitude waves,
would have spiked to form large-amplitude waves, or shocks. These shocks would have formed only at very high temperatures, like those
that occur immediately after the big bang.

The physicists also showed that, when two or more shocks collide with each other, they generate gravitational waves.

Auroras. Taken by Chad Blakley on October 26, 2016 @ Abisko National Park, Sweden

15 000 space rocks and counting / Space Situational Awareness / Operations / Our Activities / ESA
http://www.esa.int/...ivities/Operations/Space_Situational_Awareness/15_000_space_rocks_and_counting

The number of catalogued asteroids approaching Earth has grown rapidly since the count reached 10 000 only three years ago.
“A few decades back, 30 were found in a typical year, now we have been discovering on average 30 new ones per week."

Orex status ke 27/10

Vzdál. sonda-Země: 27.7 M km
vzdál. od Slunce: 0.84 au
Jednosměrné zpoždění signálu: 92.3 s

Délka dráhy od startu do čt. večera: 131 M km

Rychlost vůči Zemi: 9.35 km/s
Rychlost vůči Slunci: 34.5 km/s



modrá - dráha od startu po dnešek
šedaá přerušovaná - budoucí dráha
zelená - oběžnice Země
červená - oběžnice asteroidu

Possible meteor observed by a dashcam over Salt Lake City on October 27th, 2016
Salt Lake City Meteor Oct 27th 2016
https://www.youtube.com/watch?v=12SpESvSRG0

Watch The Shocking Moment Lightning Strikes an Airplane Mid-Flight
https://www.youtube.com/watch?v=8qI8z-RGH44


Drone Lightning Strike
https://www.youtube.com/watch?v=EZL93vNR6Qk&feature=youtu.be

Astronomers using observations from NASA's Kepler and Swift missions have discovered a group of rapidly spinning stars
that produce X-rays at more than 100 times the peak levels ever seen from the sun. The stars, which spin so fast they've
been squashed into pumpkin-like shapes, are thought to be the result of close binary systems where two sun-like stars merge.

The 18 stars rotate in just a few days, on average, compared to the sun's nearly one month rotation. Their rapid rotation greatly
amplifies the same kind of activity we see on the sun, such as sunspots and solar flares, resulting in enhanced X-ray output.

NASA's Kepler, Swift Missions Harvest ‘Pumpkin’ Stars
https://www.youtube.com/watch?v=kimszroryKs

VIRGO:

ExoMars Lander's Impact Site Revealed In Better Resolution | Video
https://www.youtube.com/watch?v=Yrk67LSPgOc&feature=youtu.be

[1610.08043] On the stability of a space vehicle riding on an intense laser beam
https://arxiv.org/abs/1610.08043

Slow cometary fireball spotted over Southern Spain on October 26, 2016
Slow cometary fireball on Oct. 26 (at 23:57 UT)
https://www.youtube.com/watch?v=ryhUd9krCqg

The oldest star cluster in Tarantula Nebula even older than previously thought, study finds
http://phys.org/news/2016-10-oldest-star-cluster-tarantula-nebula.html

The Hubble Space Telescope Hubble Tarantula Treasury Project (HTTP) survey has revealed new insights on the star formation history
of the oldest star cluster in the Tarantula Nebula (also known as 30 Doradus), designated Hodge 301. According to a study published
Oct. 19 on arXiv.org, this star cluster could be even several million years older than previously estimated.