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A brand new supernova in NGC 6946 is bright enough to see in modest-sized telescopes. Here’s how to find it.
A possible new supernova was discovered overnight by amateur Patrick Wiggins in the spiral galaxy NGC 6946 in Cygnus. You can see it blink in photos taken in 2011 (no supernova) and on May 14th. The star is above and right of galaxy center. Gianluca Masi
Last night, Utah amateur Patrick Wiggins discovered a possible bright supernova in the spiral galaxy NGC 6946 in Cygnus. If confirmed, AT 2017 eaw will become the 10th supernova found in this explosion-rich galaxy in the past century, reaffirming its reputation for fireworks of the grandest kind.
It was Wiggins’s third supernova, and he found it by comparing a CCD image made on May 14.24 UT through his 0.35-m f/5.5 reflector near Erda, Utah, with one taken several years ago and another from May 12th. Nothing showed on either image, leading him to suspect a supernova.
To be sure, he watched the new object for over an hour to see if it moved. Faint asteroids have masqueraded as supernovae before, but this one didn’t budge. Italian astronomer Gianluca Masi did a check for known asteroids in the vicinity and none were listed. For the moment then, it appears we have a brand new stellar blowup in our night sky.
Through a combination of good fortune and hard work, Wiggins happened to catch the star during the early stage of the blast. He estimated its magnitude at +12.8. Others have since confirmed the discovery and pinned the star’s brightness at +12.6, bright enough to spot in telescopes as small as 6 inches!
Additional info: http://www.skyandtelescope.com/astronomy-news/observing-news/possible-bright-supernova-discovered-in-fireworks-galaxy-ngc-6946/
This image from Hubble’s Wide Field Camera 3 (WFC3) shows a section of NGC 1448, a spiral galaxy located about 50 million light-years from Earth in the little-known constellation of Horologium (The Pendulum Clock). We tend to think of spiral galaxies as massive and roughly circular celestial bodies, so this glittering oval does not immediately appear to fit the visual bill. What’s going on?
Imagine a spiral galaxy as a circular frisbee spinning gently in space. When we see it face on, our observations reveal a spectacular amount of detail and structure ‘” a great example from Hubble is the telescope’s view of Messier 51, otherwise known as the Whirlpool Galaxy. However, the NGC 1448 frisbee is very nearly edge-on with respect to Earth, giving it an appearance that is more oval than circular. The spiral arms, which curve out from NGC 1448’s dense core, can just about be seen.
Although spiral galaxies might appear static with their picturesque shapes frozen in space, this is very far from the truth. The stars in these dramatic spiral configurations are constantly moving as they orbit around the galaxy’s core, with those on the inside making the orbit faster than those sitting further out.
This makes the formation and continued existence of a spiral galaxy’s arms something of a cosmic puzzle, because the arms wrapped around the spinning core should become wound tighter and tighter as time goes on ‘” but this is not what we see. This is known as the winding problem.
For Hubble’s image of the Whirlpool Galaxy, visit: andnbsp;andnbsp;
http://hubblesite.org/image/1677/news_release/2005-12
Image credit: ESA/Hubble andamp; NASA
Text credit: European Space Agency
Hubble Space Telescope
Time And Space
Auroras in a Brown Dwarf
This artist’s concept shows an auroral display on a brown dwarf. If you could see an aurora on a brown dwarf, it would be a million times brighter than an aurora on Earth.
Credit: NASA / Caltech
Happy Women’s History Month! To celebrate let me introduce to you Margaret Bryan. Bryan, who was born in the 1760, was a British natural philosopher, writer of scientific textbooks and educator. This book, titled Lectures on Natural Philosophy, was written by Margaret Bryan as a general text book for both boys and girls and was published in 1806.
I think we should all take a moment to appreciate this gloriously well-preserved nodosaur that turned up in Alberta.
I mean, look at this thing!
This has got to be one of the most well-preserved dinosaurs I have ever laid eyes on.
Even the keratin sheaths around its osteoderm spikes were preserved, so it can be used to reliably reconstruct how ankylosaurids would have looked at in life!
And the best part is it was discovered completely by accident in a mining operation! Can you imagine being one of the miners who stumbled across this beautiful, beautiful thing?
National Geographic link
ITS SO BEAUTIFUL
@abrictosaurus
I’m just going to call this post the parade of beautiful laboratory equipment. I’m not exactly sure how these things work, but look at how gorgeous they are! The illustrator of this book must have been an expert in the drawing of explosions and fires. Look at the combustion of Phosphorus, amazing! Images from A Compendium of the Course of Chemical Instruction in the Medical Department of the University of Pennsylvania by Robert Hare, 1828.
Description of the most common edible mushrooms in Italy
By Vittadini, Charles.
Publication info Milan, Rusconi, 1835. Contributing Library: University of Illinois BioDiv. Library
Dust, Gas, and Stars in the Orion Nebula
Pls tell me interesting facts about stars
Interesting facts about stars:
Heavy stars blow up and make heavier elements like gold. So, every bit of gold you’ve ever seen, worn, or touched came from the dying explosion of a star. Other elements made in supernovae include anything on the periodic table heavier than iron
Heavy stars blow up when they start fusing iron. Meaning, the iron in your frying pan, car, and your blood killed a star at least 3 times the mass of the sun.
Some massive stars that die end up compressing all their mass into a star about 6 miles across, or about the size of a city. This is called a neutron star.
To put this in perspective, these stars start out 3 times as big as our sun and all of their mass is crushed into something the size of a city. The space between atoms is squished away, and the protons and electrons combine to form neutrons.
Neutron stars are literally as dense as atomic nuclei
Most stars come in pairs
The most common stellar type is a red dwarf, which is a small, red, dim, cool star.
Honestly, that’s just the first few that come to mind, space is really crazy.
Largest Batch of Earth-size, Habitable Zone Planets
Our Spitzer Space Telescope has revealed the first known system of seven Earth-size planets around a single star. Three of these planets are firmly located in an area called the habitable zone, where liquid water is most likely to exist on a rocky planet.
This exoplanet system is called TRAPPIST-1, named for The Transiting Planets and Planetesimals Small Telescope (TRAPPIST) in Chile. In May 2016, researchers using TRAPPIST announced they had discovered three planets in the system.
Assisted by several ground-based telescopes, Spitzer confirmed the existence of two of these planets and discovered five additional ones, increasing the number of known planets in the system to seven.
This is the FIRST time three terrestrial planets have been found in the habitable zone of a star, and this is the FIRST time we have been able to measure both the masses and the radius for habitable zone Earth-sized planets.
All of these seven planets could have liquid water, key to life as we know it, under the right atmospheric conditions, but the chances are highest with the three in the habitable zone.
At about 40 light-years (235 trillion miles) from Earth, the system of planets is relatively close to us, in the constellation Aquarius. Because they are located outside of our solar system, these planets are scientifically known as exoplanets. To clarify, exoplanets are planets outside our solar system that orbit a sun-like star.
In this animation, you can see the planets orbiting the star, with the green area representing the famous habitable zone, defined as the range of distance to the star for which an Earth-like planet is the most likely to harbor abundant liquid water on its surface. Planets e, f and g fall in the habitable zone of the star.
Using Spitzer data, the team precisely measured the sizes of the seven planets and developed first estimates of the masses of six of them. The mass of the seventh and farthest exoplanet has not yet been estimated.
For comparison…if our sun was the size of a basketball, the TRAPPIST-1 star would be the size of a golf ball.
Based on their densities, all of the TRAPPIST-1 planets are likely to be rocky. Further observations will not only help determine whether they are rich in water, but also possibly reveal whether any could have liquid water on their surfaces.
The sun at the center of this system is classified as an ultra-cool dwarf and is so cool that liquid water could survive on planets orbiting very close to it, closer than is possible on planets in our solar system. All seven of the TRAPPIST-1 planetary orbits are closer to their host star than Mercury is to our sun.
The planets also are very close to each other. How close? Well, if a person was standing on one of the planet’s surface, they could gaze up and potentially see geological features or clouds of neighboring worlds, which would sometimes appear larger than the moon in Earth’s sky.
The planets may also be tidally-locked to their star, which means the same side of the planet is always facing the star, therefore each side is either perpetual day or night. This could mean they have weather patterns totally unlike those on Earth, such as strong wind blowing from the day side to the night side, and extreme temperature changes.
Because most TRAPPIST-1 planets are likely to be rocky, and they are very close to one another, scientists view the Galilean moons of Jupiter – lo, Europa, Callisto, Ganymede – as good comparisons in our solar system. All of these moons are also tidally locked to Jupiter. The TRAPPIST-1 star is only slightly wider than Jupiter, yet much warmer.
How Did the Spitzer Space Telescope Detect this System?
Spitzer, an infrared telescope that trails Earth as it orbits the sun, was well-suited for studying TRAPPIST-1 because the star glows brightest in infrared light, whose wavelengths are longer than the eye can see. Spitzer is uniquely positioned in its orbit to observe enough crossing (aka transits) of the planets in front of the host star to reveal the complex architecture of the system.
Every time a planet passes by, or transits, a star, it blocks out some light. Spitzer measured the dips in light and based on how big the dip, you can determine the size of the planet. The timing of the transits tells you how long it takes for the planet to orbit the star.
The TRAPPIST-1 system provides one of the best opportunities in the next decade to study the atmospheres around Earth-size planets. Spitzer, Hubble and Kepler will help astronomers plan for follow-up studies using our upcoming James Webb Space Telescope, launching in 2018. With much greater sensitivity, Webb will be able to detect the chemical fingerprints of water, methane, oxygen, ozone and other components of a planet’s atmosphere.
At 40 light-years away, humans won’t be visiting this system in person anytime soon…that said…this poster can help us imagine what it would be like:
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
Goliath beetle
A HISTORY OF SPACE TRAVEL
Unusual Seymchan Meteorite Slice with Chromite
This slice weighs 565.6 grams and contains multiple inclusions of Chromite, a mineral that is common to find in meteorites but not common to find like this. Normally it will display as a small dark blob, but this slice has stunning Chromite inclusions coursing all through it. The Seymchan Pallasite Meteorite was discovered in 1967 and comes from Russia.
Narwhals, the Unicorns of the sea!
We are constantly discovering new things about these creatures, and another recent discovery of the use of that special tooth. Watch!