UFO: Inside the BlackVault, FOIA POSSE, MKULTRA, ARTICHOKE, BLUEBIRD

[grarpamp]

A trillion galaxies times a trillion stars with avg one planet each
times 14 billion years... do the math, odds are you're not alone.


https://en.wikipedia.org/wiki/Age_of_the_universe
https://en.wikipedia.org/wiki/Fermi_paradox
https://en.wikipedia.org/wiki/Extraterrestrial_life


A Logarithmic Map Of The Entire Observable Universe

https://www.visualcapitalist.com/cp/map-of-the-entire-known-universe/
https://www.amacad.org/news/universe-stranger-we-thought
https://www.pablocarlosbudassi.com/2021/02/atlas-of-universe-is-linear-version-of_15.html
https://www.astro.princeton.edu/universe/
https://www.visualcapitalist.com/cp/nature-timespiral-the-evolution-of-earth-from-the-big-bang/
https://www.visualcapitalist.com/cp/comparing-objects-in-our-solar-system-by-rotation-size-and-more/
https://rwu.pressbooks.pub/webboceanography/chapter/3-1-origin-of-earth-and-the-solar-system/
https://www.bbc.com/news/world-asia-china-61511546
https://www.esa.int/About_Us/ESA_history/Edwin_Hubble_The_man_who_discovered_the_Cosmos
https://www.visualcapitalist.com/cp/using-planets-to-visualize-the-speed-of-light/

Among the scientific community, it’s widely believed that so far
humans have only discovered about 5% of the universe.

Yet, as Visual Capitalist's Carmen Ang details below, despite knowing
about just a fraction of what’s out there, we’ve still managed to
discover galaxies billions of light-years away from Earth.

This graphic by Pablo Carlos Budassi provides a logarithmic map of the
entire known universe, using data by researchers at Princeton
University and updated as of May 2022.

For a full-size option or to inquire about posters, please visit Pablo
Carlos Budassi’s website.
How Does the Map Work?

Before diving in, it’s worth touching on a few key details about the map.

First off, it’s important to note that the celestial objects shown on
this map are not shown to scale. If it was made to scale with sizes
relative to how we see them from Earth, nearly all of the objects
would be miniscule dots (except the Moon, the Sun, and some nebulae
and galaxies).

Secondly, each object’s distance from the Earth is measured on a
logarithmic scale, which increases exponentially, in order to fit in
all the data.

Within our Solar System, the map’s scale spans astronomical units
(AU), roughly the distance from the Earth to the Sun. Beyond, it grows
to measure millions of parsecs, with each one of those equal to 3.26
light-years, or 206,000 AU.
Exploring the Map

The map highlights a number of different celestial objects, including:

    The Solar System
    Comets and asteroids
    Star systems and clusters
    Nebulae
    Galaxies, including the Milky Way
    Galaxy clusters
    Cosmic microwave background—radiation leftover from the Big Bang

Featured are some recently discovered objects, such as the most
distant known galaxy to date, HD1. Scientists believe this
newly-discovered galaxy was formed just ​​330 million years after the
Big Bang, or roughly 8.4 billion years before Earth.

It also highlights some newly deployed spacecraft, including the James
Webb Space Telescope (JWST), which is NASA’s latest infrared
telescope, and the Tiangong Space Station, which was made by China and
launched in April 2021.
Why is it called the “Observable” Universe?

Humanity has been interested in space for thousands of years, and many
scientists and researchers have dedicated their lives to furthering
our collective knowledge about space and the universe.

Most people are familiar with Albert Einstein and his theory of
relativity, which became a cornerstone of both physics and astronomy.
Another well-known scientist was Edwin Hubble, whose findings of
galaxies moving away from Earth is considered to be the first
observation of the universe expanding.

But the massive logarithmic map above, and any observations from Earth
or probes in space, are limited in nature. The universe is currently
dated to be around 13.8 billion years old, and nothing in the universe
can travel faster than the speed of light.

When accounting for the expansion of the universe and observed objects
moving away from us, that means that the farthest we can “see” is
currently calculated at around 47.7 billion light-years. And since
light takes time to travel, much of what we’re observing actually
happened many millions of years ago.

But our understanding of the universe is evolving constantly with new
discoveries. What will we discover next?