An Un-released Remix Of "Into The Light." 2004 7 Additional Remixes Of C+E's Billboard Club Hit, Including

Easter, Spring, and April Sale!

Please support the artist; comments on Amazon, Goodreads, and Barnes & Noble are also welcome and helpful. Thank you… 🐇🐰🐣🐤🐰🐇 – – Sale throughout April on: Pathway to the Stars: Part 1, Vesha Celeste (first in booklet series) http://www.amazon.com/dp/B07J2S8LLV – –and– – Further than Before: Pathway to the Stars: Part 1 (first in novel series) http://www.amazon.com/dp/B07HL767WZ – – Quotes from series, read by…

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You’re looking at a real big deal.

Because in a nanotechnology lab, big deals come in smaller and smaller packages. What you see above is an extreme close-up of a 5 nanometer transistor. In an industry-first, the IBM Research Alliance developed nanosheet transistors that will enable a 5 nm chip. What’s so big about that? Well, by achieving a scale of 30 billion switches on a fingernail sized chip, it can deliver significant enhancements over today’s state-of-the-art 10 nm chips. This not only improves the performance of current technologies but also provides the fuel for the future demands of AI, VR, quantum and mobile technologies to run on. Plus, it could also make things like smartphone batteries last 2-3x longer between charges, so it may also be a real lifesaver too. 

Learn more about it->

What are white dwarfs?

Some curiosities about white dwarfs, a stellar corpse and the future of the sun.

Where a star ends up at the end of its life depends on the mass it was born with. Stars that have a lot of mass may end their lives as black holes or neutron stars.

A white dwarf is what stars like the Sun become after they have exhausted their nuclear fuel. Near the end of its nuclear burning stage, this type of star expels most of its outer material, creating a planetary nebula.

In 5.4 billion years from now, the Sun will enter what is known as the Red Giant phase of its evolution. This will begin once all hydrogen is exhausted in the core and the inert helium ash that has built up there becomes unstable and collapses under its own weight. This will cause the core to heat up and get denser, causing the Sun to grow in size.

It is calculated that the expanding Sun will grow large enough to encompass the orbit’s of Mercury, Venus, and maybe even Earth.

A typical white dwarf is about as massive as the Sun, yet only slightly bigger than the Earth. This makes white dwarfs one of the densest forms of matter, surpassed only by neutron stars and black holes.

The gravity on the surface of a white dwarf is 350,000 times that of gravity on Earth. 

White dwarfs reach this incredible density because they are so collapsed that their electrons are smashed together, forming what is called “degenerate matter.” This means that a more massive white dwarf has a smaller radius than its less massive counterpart. Burning stars balance the inward push of gravity with the outward push from fusion, but in a white dwarf, electrons must squeeze tightly together to create that outward-pressing force. As such, having shed much of its mass during the red giant phase, no white dwarf can exceed 1.4 times the mass of the sun.

While many white dwarfs fade away into relative obscurity, eventually radiating away all of their energy and becoming a black dwarf, those that have companions may suffer a different fate.

If the white dwarf is part of a binary system, it may be able to pull material from its companion onto its surface. Increasing the mass can have some interesting results.

One possibility is that adding more mass to the white dwarf could cause it to collapse into a much denser neutron star.

A far more explosive result is the Type 1a supernova. As the white dwarf pulls material from a companion star, the temperature increases, eventually triggering a runaway reaction that detonates in a violent supernova that destroys the white dwarf. This process is known as a single-degenerate model of a Type 1a supernova. 

If the companion is another white dwarf instead of an active star, the two stellar corpses merge together to kick off the fireworks. This process is known as a double-degenerate model of a Type 1a supernova.

At other times, the white dwarf may pull just enough material from its companion to briefly ignite in a nova, a far smaller explosion. Because the white dwarf remains intact, it can repeat the process several times when it reaches the critical point, briefly breathing life back into the dying star over and over again. 

Image credit: www.aoi.com.au/ NASA/ ESA/ Hubble/  Wikimedia Commons/ Fsgregs/ quora.com/ quora.com/ NASA’s Goddard Space Flight Center/S. Wiessinger/ ESO/ ESO/ Chandra X-ray Observatory

Source: NASA/ NASA/ space.com

I am pleased to announce a NEW RELEASE to my Space Opera series. It is now available on Amazon in eBook and paperback formats! Pathway to the Stars: Part 6, Erin Carter Enjoy Erin’s beginning journey, in the sixth of a multi-story series, called Pathway to the Stars! "We can guide you, we can answer questions whenever you have them, but the greatest learning comes from freedom." ~ Eliza Williams, "Pathway to the Stars: Part 6, Erin Carter" #spaceopera #futurism #scifiauthor #sciencefiction #scififantasy #biotech #nanotech #neurotech #spacetravel #solarsystem #politicalscifi #strongfemalelead #entertain #educate https://www.instagram.com/p/BvXufGTg5Lb/?utm_source=ig_tumblr_share&igshid=i0paozefwqiv

Pathway to the Stars: Part 11, A New Day

"If we can love ourselves, we can then truly understand what it means to love others and be kind. There is potential that lies within you and everyone else. It is a potential that has always been meant to exist, to bring something greater to this reality of life."

~ Sky Taylor

This story is the eleventh of the Pathway to the Stars space opera series. Sky journeys with Erin Carter and Joanne Gallant, who are now Pathway's president and vice president. On their adventure, she shows them ways to heal the Earth as well as ourselves so we can promote a healthier form of longevity.

To Sky, there is much we can do to prevent future disasters, but sometimes solutions can involve something as simple as a nice walk. In this case, unfortunately, to help Joanne figure out a mystery weighing upon her.

Meanwhile, Eliza Williams and Yesha Alevtina work for the success of the Universal Party with efforts that will affect the United States, the World, and the mission to span the Cosmos!

LCCN: 2019919255

ISBN: 978-1-951321-15-4

eBook: https://smile.amazon.com/dp/B081XNYSL4

Paperback: https://smile.amazon.com/dp/1951321154

#ScienceFiction #Scifi #SpaceOpera #Fantasy #Author #MatthewJOpdyke #EarthFirst #Preservation #ConsiderationForAllLiving #Biology #Neuroscience #Biotechnology #AI #HBCI

Space Is Full Of Planets, And Most Of Them Don’t Even Have Stars

“When we look at our Universe, where our own galaxy contains some 400 billion stars and there are some two trillion galaxies in the Universe, the realization that there are around ten planets for every star is mind-boggling. But if we look outside of solar systems, there are between 100 and 100,000 planets wandering through space for every single star that we can see. While a small percentage of them were ejected from solar systems of their own, the overwhelming majority have never known the warmth of a star at all. Many are gas giants, but still more are likely to be rocky and icy, with many of them containing all the ingredients needed for life. Perhaps, someday, they’ll get their chance. Until then, they’ll continue to travel, throughout the galaxy and throughout the Universe, vastly outnumbering the dizzying array of lights illuminating the cosmos.”

According to the International Astronomical Union, planets need to have enough mass to pull themselves into hydrostatic equilibrium, they need to orbit a star and not any other object, and they need to clear their orbits in a certain amount of cosmic time. But what do you call an object that would have been a planet, if only it were in orbit around a star, but instead wanders through the heavens alone, unbound to any larger masses? These rogue planets are surprisingly ubiquitous in our galaxy and beyond, and we expect that they’ll far outnumber not only the stars, but even the planets that are found orbiting stars. Where do these rogue worlds come from? A percentage of them are orphans, having been ejected from the solar system that they formed in, but the overwhelming majority ought to have never been part of a star system at all.

Come learn how even though space is full of planets, many containing the ingredients for life, most of them don’t even have stars to orbit to give them a chance.

To all women, who dedicate hours on end toward helping others with little thought of reward in return -- you are a blessing in the lives of all you meet. For that, I wish you a Happy Mother's day! https://www.instagram.com/p/CAArmv5A7C8/?igshid=1v92oi99tgo35

IC 63 — nicknamed the Ghost Nebula — is about 550 light-years from Earth. The nebula is classified as both a reflection nebula — as it is reflecting the light of a nearby star — and as an emission nebula — as it releases hydrogen-alpha radiation. Both effects are caused by the gigantic star Gamma Cassiopeiae. The radiation of this star is also slowly causing the nebula to dissipate.

https://www.spacetelescope.org/images/heic1818a/

Constellations: Andromeda

Andromeda is most prominent during autumn evenings in the Northern Hemisphere, along with several other constellations named for characters in the Perseus myth.

Its brightest star, Alpha Andromedae, is a binary star that has also been counted as a part of Pegasus, while Gamma Andromedae is a colorful binary and a popular target for amateur astronomers. Only marginally dimmer than Alpha, Beta Andromedae is a red giant, its color visible to the naked eye. The constellation’s most obvious deep-sky object is the naked-eye Andromeda Galaxy (M31, also called the Great Galaxy of Andromeda), the closest spiral galaxy to the Milky Way and one of the brightest Messier objects. 

In this image of the Andromeda Galaxy, Messier 32 is to the left of the center.

Several fainter galaxies, including M31’s companions M110 and M32, as well as the more distant NGC 891, lie within Andromeda. The Blue Snowball Nebula, a planetary nebula, is visible in a telescope as a blue circular object. 

NGC 891, as taken with amateur equipment

Along with the Andromeda Galaxy and its companions, the constellation also features NGC 891 (Caldwell 23), a smaller galaxy just east of Almach. It is a barred spiral galaxy seen edge-on, with a dark dust lane visible down the middle. 

In addition to the star clusters NGC 752 and NGC 7686, there is also the planetary nebula NGC 7662.

Each November, the Andromedids meteor shower appears to radiate from Andromeda. The shower peaks in mid-to-late November every year, but has a low peak rate of fewer than two meteors per hour. Astronomers have often associated the Andromedids with Biela’s Comet, which was destroyed in the 19th century, but that connection is disputed. source

I love this kind of news!

“Voyager Spacecraft Fires Up Thrusters for First Time Since 1980”

 NASA scientists have recently fired up the thrusters on the Voyager 1 Spacecraft - the farthest spacecraft from Earth - in an effort to reorient its antenna towards Earth.  Originally, scientists would have used the attitude control thrusters aboard the spacecraft to make the adjustments, however these have been wearing out during the voyage. Instead, NASA scientists tried using Voyager’s ‘trajectory correction maneuver’ thrusters, located on the back side of the spacecraft.  Since these hadn’t been fired in 27 years, engineers were thrilled when they received an answer 19 hours and 35 minutes later that the four thrusters had worked perfectly.  "The Voyager team got more excited each time with each milestone in the thruster test. The mood was one of relief, joy and incredulity after witnessing these well-rested thrusters pick up the baton as if no time had passed at all,“ said Todd Barber, a propulsion engineer at NASA’s Jet Propulsion Laboratory in Pasadena, California.

Read more about this fascinating story at: http://www.cnn.com/2017/12/01/us/voyager-1-thrusters-fired-first-time-since-1980/index.html

Image Credit: NASA, ESA, and G. Bacon (STScl)