Daily Archives: July 8, 2014

The Sun Online and solar activity. July 8, 2014

The strongest flare of the past 24 hours, a C4.0 flare peaking at 09:02 UT, originated from Catania sunspot group 16 (NOAA active region 2113). This region has grown in size and complexity. Catania sunspot groups 6 and 9 (NOAA AR 2108 and 2109) keep their delta component and retain their flaring
potential with a moderate chance for M-class flares.
 Solar wind speed is between 290 to 350 km/s, as measured by ACE. The interplanetary magnetic field reached a magnitude of 10 nT with a fluctuating Bz. Geomagnetic conditions have been quiet and are expected to remain so until the arrival of a fast speed stream from a small coronal hole that is expected to result in active conditions on July 9-10.
SIDC

Equipment: Coronado 90 +  Imaging Source DMK  + LX75
Processing: Photoshop, Avistack 300 frames
Date: 07/08/14
Time UT: 16:00
Exposure 1/500 sec.

Observatory Sponli

  

Related posts:

  1. The Sun Online and solar activity. July 7, 2014
  2. The Sun Online and solar activity. July 3, 2014
  3. The Sun Online and solar activity. June 6, 2014
  4. The Sun Online and solar activity. January 21, 2014

Iridescent Clouds over Thamserku

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Image Credit & Copyright: Oleg Bartunov

Why would a cloud appear to be different colors? A relatively rare phenomenon known as iridescent clouds can show unusual colors vividly or a whole spectrum of colors simultaneously. These clouds are formed of small water droplets of nearly uniform size. When the Sun is in the right position and mostly hidden by thick clouds, these thinner clouds significantly diffract sunlight in a nearly coherent manner, with different colors being deflected by different amounts. Therefore, different colors will come to the observer from slightly different directions. Many clouds start with uniform regions that could show iridescence but quickly become too thick, too mixed, or too far from the Sun to exhibit striking colors. The above iridescent cloud was photographed in 2009 from the Himalayan Mountains in Nepal, behind the 6,600-meter peak named Thamserku.

APOD NASA 08-Jul-14

Related posts:

  1. The Colorful Clouds of Rho Ophiuchi
  2. A Rainbow Pileus Cloud over Zimbabwe
  3. Mammatus Clouds over Nebraska
  4. M78 and Reflecting Dust Clouds

M 31: Great Andromeda Nebula

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Observation history

The Persian astronomer Abd al-Rahman al-Sufi wrote a line about the chained constellation in his Book of Fixed Stars around 964, describing it as a “small cloud”. Star charts of that period have it labeled as the Little Cloud. The first description of the object based on telescopic observation was given by German astronomer Simon Marius on December 15, 1612. Charles Messier catalogued it as object M31 in 1764 and incorrectly credited Marius as the discoverer, unaware of Al Sufi’s earlier work. In 1785, the astronomer William Herschel noted a faint reddish hue in the core region of M31. He believed it to be the nearest of all the “great nebulae” and based on the color and magnitude of the nebula, he incorrectly guessed that it was no more than 2,000 times the distance of Sirius.

William Huggins in 1864 observed the spectrum of M31 and noted that it differed from a gaseous nebula. The spectra of M31 displayed a continuum of frequencies, superimposed with dark absorption lines that help identify the chemical composition of an object. The Andromeda nebula was very similar to the spectra of individual stars, and from this it was deduced that M31 had a stellar nature. In 1885, asupernova (known as S Andromedae) was seen in M31, the first and so far only one observed in that galaxy. At the time M31 was considered to be a nearby object, so the cause was thought to be a much less luminous and unrelated event called a nova, and was named accordingly “Nova 1885”.
The first photographs of M31 were taken in 1887 by Isaac Roberts from his private observatory in Sussex, England. The long-duration exposure allowed the spiral structure of the galaxy to be seen for the first time. However, at the time this object was still commonly believed to be a nebula within our galaxy, and Roberts mistakenly believed that M31 and similar spiral nebulae were actually solar systems being formed, with the satellites nascent planets. The radial velocity of this object with respect to our solar system was measured in 1912 by Vesto Slipher at the Lowell Observatory, using spectroscopy. The result was the largest velocity recorded at that time, at 300 kilometres per second (190 mi/s), moving in the direction of the Sun.

Imaging telescopes or lenses: Canon EF 70-200mm f/4L USM
Imaging cameras: Canon EOS 550D / Rebel T2i
Mounts: Skywatcher Neq6 pro synscan
Guiding cameras: QHY5
Software: DeepSkyStacker, PHD guiding
Dates: Oct. 11, 2013
Frames: 10×420″
Integration: 1.2 hours

Author: Ivan Jevremovic
AstroPhotography of the day by SPONLI 08 July 2014

Related posts:

  1. Andromeda Galaxy
  2. NGC 891: unbarred spiral galaxy in the constellation Andromeda
  3. Great Nebula in Carina
  4. M31 – Andromeda galaxy

The Sun Online and solar activity. July 7, 2014

Catania AR 9 (NOAA 2109) produced the strongest flare in the past 24 hours (C4.3 peak at 08:02 UT). This AR together with Catania 6 (NOAA 2108) have potential for M-class flares.Geomagnetic conditions have been quiet and are expected to remain so until the arrival of a fast speed stream from a small coronal hole that will increase the conditions up to active levels on July 9-10.
SIDC

Equipment: Coronado 90 +  Imaging Source DMK  + LX75
Processing: Photoshop, Avistack 300 frames
Date: 07/07/14
Time UT: 16:00
Exposure 1/500 sec.

Observatory Sponli

  

Related posts:

  1. The Sun Online and solar activity. July 6, 2014
  2. The Sun Online and solar activity. July 3, 2014
  3. The Sun Online and solar activity. July 5, 2014
  4. The Sun Online and solar activity. July 4, 2014