Title: Solar observations with Rio de Janeiro Danjon astrolabe: diameter variations and its correlations (1998-2000) Authors: Eugênio Reis Neto This work has aimed to analyse the 1998 to 2000 campaign of solar diameter surveying. The employed instrument was a Danjon astrolabe, at the Observat...
Title: Recent Results from Super-Kamiokande Authors: H. Sekiya, for the Super-Kamiokande Collaboration (Version v2) The recent results on the oscillation analyses of solar neutrino and the atmospheric neutrino measurements in Super-Kamiokande are presented. Recent status of the detector...
Why explore the moons of our Solar System?Click to Play | View Details As of October 2008, there are 327 formally classified moons, including 166 moons orbiting six of the eight "full-size" planets (Earth, Mars, Jupiter, Saturn, Uranus, and Neptune), while six orbit the "dwarf&q...
Time: 18 January, 1994, just before dawn.
Place: the city of Santiago de Compostela, Galicia, north-west Spain.
The event: 34 people report a very bright, luminous object, moving across the sky, from the north-northeast towards west-southwest. The object, which some witnesses said was as lar...
Orbital elements:
2013 AR72 Earth MOID = 0.1002 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 267.55685 (2000.0) P Q
n 0.57450281 Peri. 241.03700 -0.87819409 -0.02494750
a 1.4330938 Node 293.79300 +0.31198091 -0.78683685
e 0.3352504 Incl. 31.46788 -0.36255075 -0.61665663
P 1.72 H 25...
X-ray machine from 1896 compared to modern version Scientists have dusted off X-ray equipment dating from shortly after the discovery of the rays in 1895, in order to put it through its paces. Researchers from the same Dutch town where the system was originally built used it to produce striking imag...
New insights into anatomy of ancient tentacled creature Scientists have shed light on a peculiar tentacled marine creature that lived 520 million years ago. Experts thought that Cotyledion tylodes may have belonged to the jellyfish-like cnidarian group. But new anatomical evidence from the an...
Orbital elements:
2013 AU76 Earth MOID = 0.0633 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 314.50522 (2000.0) P Q
n 0.21016916 Peri. 208.78351 -0.73863310 +0.67302119
a 2.8017114 Node 13.72826 -0.58349171 -0.60989262
e 0.7066009 Incl. 9.27699 -0.33757748 -0.41841782
P 4.69 H 18.2...
Orbital elements:
2013 AT76 Earth MOID = 0.2242 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 332.75940 (2000.0) P Q
n 0.18863374 Peri. 206.14545 -0.80884651 -0.33312018
a 3.0110858 Node 305.40091 +0.58720597 -0.50092800
e 0.6114263 Incl. 36.47454 -0.03092691 -0.79881292
P 5.22 H 19...
Orbital elements:
2013 AH76 Earth MOID = 0.0586 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 323.88936 (2000.0) P Q
n 1.00822334 Peri. 353.04268 +0.94588005 +0.32410943
a 0.9849894 Node 348.00743 -0.29384340 +0.83415324
e 0.5455617 Incl. 4.48497 -0.13772067 +0.44625268
P 0.98 H 22....
Orbital elements:
2013 AG76 Earth MOID = 0.0648 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 349.54308 (2000.0) P Q
n 0.27583783 Peri. 111.80932 +0.80957530 -0.53316952
a 2.3372231 Node 281.20007 +0.40209163 +0.80849135
e 0.6383161 Incl. 14.49915 +0.42767998 +0.24914253
P 3.57 H 20...
Orbital elements:
2013 AF69 Earth MOID = 0.1495 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 349.29010 (2000.0) P Q
n 1.01066636 Peri. 220.29526 +0.85156913 +0.31350445
a 0.9834014 Node 116.53592 -0.27121154 +0.94935081
e 0.4063407 Incl. 28.01144 -0.44863607 +0.02116595
P 0.98 H 22...
Orbital elements:
2013 AX60 Earth MOID = 0.1274 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 348.00570 (2000.0) P Q
n 0.55207437 Peri. 282.39981 +0.89966164 -0.13229740
a 1.4716493 Node 86.33200 +0.30647300 +0.87008961
e 0.3889932 Incl. 24.63994 -0.31093927 +0.47480678
P 1.79 H 20....
Orbital elements:
2013 AW60 Earth MOID = 0.3110 AU
Epoch 2012 Sept. 30.0 TT = JDT 2456200.5 MPC
M 356.30491 (2000.0) P Q
n 0.40315039 Peri. 278.79265 +0.59108944 -0.71471284
a 1.8147828 Node 128.02172 +0.78863531 +0.60938297
e 0.4234593 Incl. 28.33477 -0.16931514 +0.34327533
P 2.44 H 18...
