Guest Posting

If you wish to write and/or publish an article on Operation Disclosure all you need to do is send your entry to applying these following rules.

The subject of your email entry should be: "Entry Post | (Title of your post) | Operation Disclosure"

- Must be in text format
- Proper Grammar
- No foul language
- Your signature/name/username at the top

Send your entry and speak out today!

News Alerts


Current Overview:

(Disclaimer: The following is an overview of the current situation based on rumors from several sources which may or may not be truthful or accurate.)

- Cabal blackmail and exposure has been the main delay for the release of the RV.

- A peace treaty will be signed between the U.S., South Korea and North Korea officially ending the armistice.

- The final battle of Syria will be resolved before GESARA.

- The resolving of the Syria situation is not a prerequisite for the RV.

- A solid RV date has been set sometime before the end of this month.

- A few currencies will show up on Forex.

- Keep watch for the 800#'s.




Featured Post

Restored Republic via a GCR as of April 22, 2018

Restored Republic via a GCR Update as of April 22 2018 Compiled 12:01 am EDT 22 April 2018 by Judy Byington, MSW, LCSW, ret. CEO, Child Ab...

Saturday, April 30, 2016

All Gold on Earth Comes from Supernovas

All the Gold on Earth Comes From Massive Space Explosions

Ashley Feinberg

7/18/13 3:10pm
Filed to: SPACE

Previously, astronomers had been under the impression that the heavy elements—gold, platinum, lead, uranium, etc.—came from supernova explosions. But now, scientists have announced a new theory for these highly valuable elements, this one involving two ultra-dense neutron stars and one spectacularly violent, grossly expensive collision.

We Are All Made of Stars

Essentially, we're all here to today because some star somewhere in space exploded once upon a time. Down in the interior of stars, the high pressure and heat cooks up elements like carbon and oxygen atoms (the stuff we're made of). So when it inevitably comes time for that star to die, that explosion shoots out all of the ingredients for life as we know it.

This explanation didn't, however, quite manage to explain where the more dense elements got their start. Because while the majority of light elements come with a fairly simple recipe, a heavier one like gold requires 79 protons, 79 electrons, and 118 neutrons—that's a hell of lot of ingredients. Which is why it takes these absurdly dense neutron stars, which come packing way more atomic supplies, to give us all those beautiful, heavy, glittering goods.

What's a Neutron Star?

When a massive star enters Type II, Type Ib, or Type Ic supernova—or in other words, when its core is essentially crushed by the force of its own gravity—there are two potential outcomes. It can either turn into a black hole or emerge from its supernova cocoon as a neutron star. To the get the latter, you'd need to start with a star about 4 to 8 times the size of our sun. Once the star burns off enough nuclear fuel to the point that the core can no longer support itself, gravity finally wins and collapses the core with enough force to cause protons and electrons to assimilate. Which creates neutrons. Which, as you may have already guessed, is where neutron stars get their name.

To get an idea of just how dense a neutron star is, a mere teaspoon of the stuff would weigh about 10 billion tons. (Of course, if you actually did extract a teaspoon of neutronium goo, you'd lose all that wonderful gravitational force holding everything together, and the whole thing would immediately explode into a giant mass of neutrons about the size of a planet that would then break down to its individual proton and electron parts. To put it bluntly, you, dear reader, would die. But that's neither here nor there.)
When Two Neutron Stars Love Each Other Very Much...

So under most circumstances, these insanely dense dead stars will float around the universe doing no one any harm. But in binary star systems, the two are destined to collide. And this is what NASA's Swift space telescope observed during an all-sky survey on June 3.

After seeing a flash of light called a short gamma-ray burst (GRB) far, far way in the constellation Leo, astronomers were quickly able to deduce (with the help of a few theoretical models) that what they were seeing was the radioactive afterglow from a gargantuan mass of heavy metals created in the wake of a neutron star collision. Previously, scientists had only been able to hypothesize that GRBs were the result of two colliding neutron stars, but now we have actual proof.

Edo Berger, the astronomer who led the research at the Harvard-Smithsonian Centre for Astrophysics, describes the process:

When they make contact, several exciting things happen very quickly. Most of the material actually collapses to form a black hole. Some of the material then gets sucked into the black hole. That is the event that causes the gamma-ray burst. Some of the material gets spewed out into space. That material, since it came from neutron stars, is very rich in neutrons, and as a result, is very efficient at forming these heavy elements, including gold.

And considering how many particles these neutron stars have pushed together (literally until they can be pushed together no more), it makes sense that twoof them combined would be able to make quite a bit of gold—enough to equal about 20 times the mass of Earth, to be more specific. Which is also enough to fill around 100 trillion oil tankers. But hey, gold isn't everyone's thing. Neutron stars get that—they also produce about eight times that amount of platinum.

Artist's impression of neutron star collision via NASA.

But while mind-boggling in quantity, it's not quite gold as you imagine it; what you're getting from a neutron collision is atomized gold. It won't make it into your hands or onto your teeth (you do you) until it finds a big cloud of particles. These will eventually get shoved together by gravity and come out a beautiful solar system. Then, as the gold particles come together and the planet applies geological pressure, the particles will coalesce and, after about 1 billion years, become something you can see with your naked eye and subsequently covet.

With this new theory, it's incredibly likely that all of our beautiful gold originates from this massively violent destructive force. Which is an incredibly cool thought. So friends, when you go home tonight, make sure to hug your gold tight and thank it for being here—it's had pretty rough ride. [Sydney Morning Herald, NASA, National Geographic]

Receive News from Operation Disclosure via Email

Shoutbox Disclaimer

Please be advised that the Shoutbox is NOT moderated. Use it at your own will.