When Dead Stars Collide!

Pathway to the Stars: Part 9, Allure & Spacecraft "We cannot engage in human progression as solo artists, alone, and expect long-term and optimal results. While we can inspire momentum for a time, while working diligently, ultimately the laws of chaos will prevail unless we work together to preserve our world, our solar system, and our Universe." ~ Eliza Williams Vesha has completed her Virtual Universe training, and now she becomes immersed in missions and callings as never before! Enjoy as she tackles issues where society seems muddled in the chains of self-bondage, rather than moving forward with a bright and beautiful future for all. Joanne revisits a problem that can affect Eliza Williams' hopes for the future. Among Eliza's many goals within the Solar System to that end, related to space travel, is the construction of spacecraft being built just above Pluto! Enjoy this Space Opera as Eliza continues her quest to nurture humanity into a space-faring, world-preserving, and Universe-exploring civilization! She believes that the most significant step toward moving forward is kindness, and that kindness is the greatest strength we have! ISBN: 978-1951321093 LCCN: 2019918425eBook: https://smile.amazon.com/dp/B081XLG9JV Paperback: https://smile.amazon.com/dp/195132109X For more info: https://www.mjopublications.com https://smile.amazon.com/author/matthewopdyke Tags: #sciencefiction #scifi #spaceopera #fantasy #stem #astronomy #sentience #spacecraft #spaceelevator #wellbeing #author #matthewjopdyke #ebook #paperback #amazon

A new Chandra image shows the location of several elements produced by the explosion of a massive star.

Cassiopeia A is a well-known supernova remnant located about 11,000 light years from Earth.

Supernova remnants and the elements they produce are very hot — millions of degrees — and glow strongly in X-ray light.

Chandra’s sharp X-ray vision allows scientists to determine both the amount and location of these crucial elements objects like Cas A produce.

Where do most of the elements essential for life on Earth come from? The answer: inside the furnaces of stars and the explosions that mark the end of some stars’ lives.Astronomers have long studied exploded stars and their remains — known as “supernova remnants” — to better understand exactly how stars produce and then disseminate many of the elements observed on Earth, and in the cosmos at large.Due to its unique evolutionary status, Cassiopeia A (Cas A) is one of the most intensely studied of these supernova remnants. A new image from NASA’s Chandra X-ray Observatory shows the location of different elements in the remains of the explosion: silicon (red), sulfur (yellow), calcium (green) and iron (purple). Each of these elements produces X-rays within narrow energy ranges, allowing maps of their location to be created. The blast wave from the explosion is seen as the blue outer ring.

X-ray telescopes such as Chandra are important to study supernova remnants and the elements they produce because these events generate extremely high temperatures — millions of degrees — even thousands of years after the explosion. This means that many supernova remnants, including Cas A, glow most strongly at X-ray wavelengths that are undetectable with other types of telescopes.Chandra’s sharp X-ray vision allows astronomers to gather detailed information about the elements that objects like Cas A produce. For example, they are not only able to identify many of the elements that are present, but how much of each are being expelled into interstellar space.

Much more reading/info/video:  http://chandra.harvard.edu/photo/2017/casa_life/

This Is Why Hubble Can’t See The Very First Galaxies

“By observing dark, empty patches of sky, it reveals ancient galaxies without nearby interference. When distant galaxy clusters are present, these massive gravitational clumps behave as natural magnifying lenses. The most distant observed galaxies have their light bent, distorted, and amplified along the journey. Hubble discovered the current cosmic record-holder, GN-z11, via lensing. Its light arrives from 407 million years after the Big Bang: 3% of the Universe’s current age.”

No astronomical observatory has revolutionized our view of the Universe quite like NASA’s Hubble Space Telescope. With the various servicing missions and instrument upgrades that have taken place over its lifetime, Hubble has pushed back the cosmic frontier of the first stars and galaxies to limits never before known. Yet there must be galaxies before them; some of the most distant Hubble galaxies have stars in them that push back the time of the first galaxies to just 250 million years after the Big Bang. Yet Hubble is physically incapable of seeing that far. Three factors: cosmic redshift, warm temperatures, and light-blocking gas, prevent us from going much beyond what we’ve already seen. In fact, we’re remarkably lucky to have gotten as distant as we have. 

Find out why Hubble can’t see the very first galaxies, and why we need the James Webb space telescope!

No matter what people tell you, words and ideas can change the world.

http://www.brainyquote.com/quotes/authors/r/robin_williams.html

Merry Christmas from FTB Pathway Publications

Please enjoy

Matthew Opdyke @ Author Central

http://www.amazon.com/dp/0578430436

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In the works, #veshaceleste #authored by #sciencefictionfantasy #writer #matthewopdyke and #narrator #allisontaylor #strongfemalelead #neuroscience #physics #theoreticalphysics #biotechnology #physiology #nanotechnology #longevity #CRISPR #heforshe #politicalsciencefiction #furtherthanbefore #pathwaytothestars #audiobook https://www.instagram.com/p/BtQOmHlgle4/?utm_source=ig_tumblr_share&igshid=1jaexo15cdd91

Nice view of Earth...

Our pale blue dot, planet Earth, is seen in this video captured by NASA astronaut Jack Fischer from his unique vantage point on the International Space Station. From 250 miles above our home planet, this time-lapse imagery takes us over the Pacific Ocean’s moon glint and above the night lights of San Francisco, CA. The thin hue of our atmosphere is visible surrounding our planet with a majestic white layer of clouds sporadically seen underneath.

The International Space Station is currently home to 6 people who are living and working in microgravity. As it orbits our planet at 17,500 miles per hour, the crew onboard is conducting important research that benefits life here on Earth.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

Pathway to the Stars: Part 10, Sky Taylor

"In a benevolent society, you are safe, I am safe, everyone is safe, and our potential for innovations that reduce unnecessary suffering can know no bounds. Only in a benevolent, ethical, and moral society—a society and a worldwide civilization that seeks to preserve life, and bolster well-being, will we possess the mentality and the evolved capacity to preserve our Earth, our Solar System, and our humanity...

“Those who justify the behaviors of those that truly oppress, they know who they are, yet I believe that they too can change. No matter who you are, no matter your past, no matter what you have done until now, you can still grow, you can breathe in, and you can breathe out. You can slow down the visceral thoughts of malice raging within your mind, and you can gain compassion for others, you can preach ideas of hope and of kindness, rather than push the agendas of greed, elitism, and dissension." ~ Eliza Williams

In this, the tenth book of the Pathway to the Stars series, continues her political leadership rising to new heights, and due to her efforts, a new superhero is borne. Meet Sky Taylor and her unique method of resolving some of the most significant conflicts affecting us all. To her, healing rather than harming is the best option toward creating a beautiful and promising future, as we prepare to journey to the distant stars!

LCCN: 2019919232 ISBN: 978-1-951321-11-6 eBook: https://smile.amazon.com/dp/B081XLBL1G Paperback: https://smile.amazon.com/dp/1951321111

#ScienceFiction #Scifi #SpaceOpera #Fantasy #Author #MatthewJOpdyke #Physics #Biology #Neuroscience #Biotechnology #AI #HBCI #HumanEvolution #PreservingEarth #SpaceExploration #SolarSystem #VirtualUniverse #Nanotech #Biotech #CRISPR #Longevity #Wellbeing #QualityofLife #ClarityofMind https://youtu.be/lGSSIaPM098 via YouTube​

Ask Ethan: How Does Very-Long-Baseline Interferometry Allow Us To Image A Black Hole?

“[The Event Horizon Telescope] uses VLBI. So what is interferometry and how was it employed by [the Event Horizon Telescope]? Seems like it was a key ingredient in producing the image of M87 but I have no idea how or why. Care to elucidate?”

If it were easy to network radio telescopes together across the world, we’d have produced an image of a black hole’s event horizon long ago. Well, it’s not easy at all, but it is at least possible! The technique that enabled it is known as VLBI: very-long-baseline interferometry. But there are some critical steps that aren’t very obvious that need to happen in order for this method to succeed. Remarkably, we learned how to do it and have successfully employed it, and the Event Horizon Telescope marks the first time we’ve ever been able to get an image with a telescope that’s effectively the size of planet Earth!

Come get the incredible science behind how the technique of VLBI enabled the Event Horizon Telescope to construct the first-ever image of a black hole’s event horizon!

Excellent Time to Cozy Up to Preparation for a Grand Space Adventure!

Excellent Time to Cozy Up to Preparation for a Grand Space Adventure!

  It takes a lot to travel beyond the limits of our Solar System. As such, the Christmas Edition of the two-novel literary masterpiece, with a side dish series going a little deeper in smaller portions of each major aspect of the two-novel series, Pathway to the Stars, despite being ridden with indie goofs, pauper challenges toward perfection, and ever-so-constantly updating text to improve the…

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