Power Dynamic Telescope PDT Test Selection

Constellation Canes Venatici

POWER DYNAMIC TELESCOPE
TEST OBJECT SELECTED

THE BIG BRAIN INITIATIVE has studied the Universe and is developing greater understanding and amassing a collection of information regarding its construct. The tools used for mining are powerful sensors such as giant telescope eyes capable of reaching the edge of the Universe. The impetus now is in regard to breaking the cosmic barrier, the component of the Big Bang birthing, and the dimensional quality of the Singularity.

To better understand these elements of the Cosmos and what may have existed before time and space was born (on the other side of the nothingness where there was something), and to determine what exists now on the other side, it's deemed important, by the Big Brain Initiative, to further explore causation Black Holes and their effects. Therefore, the first test site selected as a test calibrator of imaging and data collection for the massive Power Dynamic Telescope will be a Black Hole and its surrounding space, time flux, and galaxy stars counterparts.

Black Hole in Canes Venatici

There are numerous black holes to study. Each giant galaxy is held together by a black hole and maintains the gravitational space time capture of trillions of stars. As a quick test, we can look at the closer black holes at the 0 to 50 million light year mark. Of interest are Seyfert galaxies with very active nucleus cores, and ones that emit x-rays, particularly for the reason these contain super black holes. Therefore we will review the 0-50 million light year range Seyfert galaxies, and move the telescope towards a selection.

Small telescope view

One of the closest super massive black holes resident within a Seyfert II Galaxy is located at R.A. 12h 18m 57.5s and DEC +47° 18′ 14″ in the Canis Venatici region of space. The apparent size of the surrounding warped space and time being affected is large, at 18′.6 × 7′.2 of dimensionally plane measurements.

It fits our imaging and distance criteria at 23.7 million light years. At 9.1 magnitude, it can be compared to smaller telescope CCD imagery. Designation is PGC 39600, UGC 7353, NGC 4258, M106. The object will be visible to observers in the Northern Hemisphere. Emission lines show the galaxy object is emitting x-rays and falling into the central super massive black hole.

The small B&W telescope image shows the Seyfert II Galaxy with the super massive black hole at its center which is a prominent x-ray emitter. Black holes are able to change space and time and are known to cause counter intuitive Temporal Effects in the Universe where time changes from place to place and its causation is under the relativity flux of change. It's also a theory that the birth of the Universe is related to a singularity produced by a kind of black hole that opened up and "poured through elemental primordial particles that rapidly expanded."

The Big Brain thinks this is likely true and the study of these black holes will become paramount to understanding what existed and may currently exist, before and after the Big Bang, not in the Cosmic territory of this Universe but rather of that territory that lies beyond the Cosmic Barrier and the Edge of the Universe, and, it may lead to ways and techniques for breaching the Cosmic Barrier to other dimensions of space and time.

Our initiative is also looking to answering other questions, about the existence of dimensions with space and no time, or of time and no space, or other elements that exceed the limitations of our current understanding.

This is the selected test area for the Power Dynamic Telescope.

PGT-ET Telescope & Edge of Universe

Adjunctive telescope's most distant journey ever achieved
PGT-ET TELESCOPE AT THE EDGE OF THE UNIVERSE it's more than we expected
Greatest Discovery

Can you see the edge of the Universe? An old adage says if you look far enough into the curvature of space and time, you'll see the back of your head!

[Pointing the massive telescope at the Edge of the Universe boundary and expecting to see little or nothing led to this great surprise — thousands of galaxies and early formation objects are located at the final fringe of space in front of the Big Bang!]

— Enter inside the beginning of the Universe at the final Fringe and face the edge of time and the Universe —

It's mind boggling, we've reached the final Fringe at the Edge of the Universe just after the Big Bang occurred! We see the space is not empty but rather it's filled with many spectacular proto objects in blazing color undergoing evolutionary formation. Many early galaxies are in collision - evidence of a more chaotic early Universe.

— Each time the exposure integration is increased, more objects appear —

THE FRINGE AT THE EDGE OF CREATION
This image looks into the farthest most distant Fringe back in time towards the birth of the Universe known as the Big Bang. The image has reached inside the half million year boundary of "Creation" and made unprecedented discoveries.

TIME SPAN
The image of these objects, traveling at the speed of light, has taken around 13 billion years to reach the telescope's aperture, which is based on the age of the Universe. The fact is, these objects had billions of years of time to evolve and no longer appear the same or reside in the same positions.

FROZEN TIME
For the telescope, time is "frozen in space" at an early age of the Universe when looking back in time. The more powerful the telescope, the farther back in time it travels. The freeze is an advantage to discerning the edge. How can these objects end up frozen in space time?

HUMAN TIME
Given that humans exist with only infinitesimal life spans, the minute it takes to view the image of a galaxy in real time is next to nonexistent by terms of the evolutionary time scale of galaxies.

GALAXY TIME
Yet galaxies are fast rotating pinwheels like 4th of July fireworks, only it takes eons to complete a single revolution. Remember, actual views through the telescope or time lapse imaging is recording the motion of these galaxies, even if the equipment registers no detection of motion.

— The PGT-ET takes us directly to the front doorstep at the Edge of the Universe' fringe boundary — 

UNIVERSE MEASUREMENTS
The Universe is currently measured as 13.7 billion years. This telescopic image has exceeded 13.25 billion years, into the fringe, less than 450 million years to the Universe EOU boundary. The PGT-ET is powerful enough to study and explore very distant EOU boundary fringes for the first time. The <450M Fringe is the just the beginning for EOU exploration.

— Many of the galaxies visible are in collision with other galaxies, which is expected in the early years of EVO life in the Universe —  

OBJECT DETECTION
M units are in millions of light years, or a fraction thereof. If one brightest galaxy in the plate is measured at a distance of 450 million years to the Big Bang, then many more objects appear to have far greater distances from the Earth. We estimate these objects could be at the 100M Fringe, right at the EOU.

THE BIRTH OF THE UNIVERSE
With tuned clarity, there could be a space anomaly visible as we move closer to the birth. This is what the Prime Directive encompasses.

HOW FAR BACK IN TIME?
Discovery of the Fringe has led to more questions than answers. We're on a Cosmic Quest Adventure of grand exploration - can we detect more than microwave radiation from the Big Bang? Can we optically see far back enough in time to detect the Big Bang?

FRINGE EVENTS
If an event already happened at the Fringe, can we see it unfold? We know Supernova can reside on the other side of the galaxy and yet we see these explosive events happen millions, even billions of years after they actually happened. How is the Big Bang any different?

HOW CLOSE TO THE BIG BANG?
How close can the power of Adjunctive observation reach towards the infinitesimal moment of Universe' creation? And, if we can reach minutes or seconds after the event, what should we see, or look for?

ABBREVIATIONS DEFINED
EVO - Evolution
EOU - Edge of Universe
PGT-ET - Paradigmic Genius Telescope - Enhanced Technology
M - Millions of Years
ADJ - Adjunctive