Pinpointing a Singularity

STEP 1: Reaching the guts precipice of a Black Hole

BIG BRAIN'S EXPLORER CLASS TELESCOPE
PINPOINTING A BLACK HOLE SINGULARITY
HOW do you get inside a Black Hole without being crushed to death — transformed into molecular mush? How can we see inside the guts of a Black Hole?

With the advent and full operation of the new Power Dynamic Telescope PDT, which has begun the first view examination processes approaching the hidden and mysterious interiors of Black Holes, a precipice is now discovered and reached.

EVENT HORIZON
The cataclysmic region of Black Holes include an Event Horizon (EH) where, inside its border, gravity becomes so powerful that not even light can escape.

SINGULARITY
At the very center is a Singularity where the laws of physics break down and even more mysterious and strange things happen. The study of singularities is very important.

TRANSCEND SPACE
If the singularity is powerful enough, it can open up the gate to a new place in between universes which resides outside our own universe. Transcend Space is like an ocean in which universes can float and where singularities can create connected space and time of new worlds.

ONE WAY TRAFFIC
We don't know if the path of a singularity is one-way in direction, i.e. what comes out cannot go in. Singularities can become the orifice to  universe production when they reside in Transcend Space, but can they become the conduit to locations back outward to the Transcending ocean? If the the direction is two way, it may be possible to discover and observe the effects on the other side, even someday to transcend to the next universe level or a pathway provided by a quantum bridge.

PDT TELESCOPE
The PDT Telescope can, and is, looking inside Black Holes, to the doorstep of their unprecedented chaotic EH boundaries where optical light extinction occurs. The PDT, with its Molecular Processor and its highest number of Adjuncts ever used within the entire line of Adjunctive telescopes, is ideal for this mission.

BLACK HOLE CENTER
Several techniques are employed to ascertain the Black Hole's center dimension for long range celestial navigation of the telescope into the caldron of chaos.

JET SYMMETRY
One technique now employed is based on the symmetry of Black Holes with dual jets and the examination of space in between these jets. So finding super black holes will become an important aspect.

RADIOMETRIC
Another technique uses the intensity of radiometric data to pinpoint the Singularity. It's here where the likelihood of a new telescope design will be born. This telescope will undoubtedly base operations on elements beyond the optical, and utilize aspects of gravity.

NEW KIND OF TELESCOPE
A gravity telescope has remained in the planning for a long time. In the 1970s, several designs were conceived and small tests were conducted to validate their potentials. Several sensors were purchased for testing. However, in the four decades that followed, new designs were ultimately initiated.

Two Edges Universe Unfolding

BIG BRAIN SPACE INSTITUTE
A SOLUTION FOR UNFOLDING THE TWO EDGES UNIVERSE
TWO EDGES: The Universe space time cosmos is unfolding and traveling faster than the speed of light in which the rate of expansion occurs. There is no limit as to how fast space time can stretch and contort. This leads to a remarkable structure filled with yet-to-understand formations and conditions.

The Universe has more than one edge. One edge is located at 13.77 billion years of time, representing the burst of the singularity known as the Big Bang, yet light has currently traveled to 46 billion light years away in every direction, which is the distance that the light has now reached. This latter numerical representation is the edge of the universe visible in all directions. This represents the farthest distance from the Earth in which cosmic light can reach us. It represents the radius of the observable Universe.

However, beyond the observable Universe lies more universe, or that which remains indirectly connect, yet detached by other definition, encompassed from the objects and matter whose light has yet to reach us and from matter which aggregates relative to specific regions from extinction lines (edges) where nothing more beyond is directly and optically observable.

It's this extinction boundary where light has cutoff. NASA has confirmed a glimpse of the "dark flow" existing beyond the extinction boundary migrated from a singularity.

http://www.telegraph.co.uk/science/science-news/3352360/Scientists-glimpse-dark-flow-lurking-beyond-the-edge-of-the-universe.html

Yet, as we have discovered, if we go back farther in time, there lies another edge to the Universe with objects that are made up of gravity and no light that we can observe for one reason or another.

We are finding, and will find more evidence, that the Universe is much more intricate and has more parts and mechanisms than we currently know. The Big Brain Space Initiate is currently working towards unraveling the mixed palette of space time leading to the edge of the Universe and beyond.

With these new discoveries and findings, it's likely the current Big Brain Space Initiative's telescope will evolve from the current Power Dynamic Telescope PDT into one that also incorporates powerful gravity sensors and/or gravity inferencing techniques as a super telescope to look into and detect things beyond the cosmic barrier and edge.

It's also possible to observe the focus of the observable to find and map the direct unobservable.

Space Launch Slated for Thursday

SPACECRAFT LAUNCH SLATED FOR THURSDAY
Our new schedule just in, cites the human spacecraft launch will take place on Thursday, May 1st, 2013. Government registrations are completed and approved. Exploration of Near Space and the deployment of the Tiny Space Telescope, with a study of our new GPS instruments are currently scheduled for this flight.

http://humanoidolabs.blogspot.tw/2013/04/telescope-for-near-space.html

It was decided to go ahead with back to back space launches and recoveries to double the amount of collectible space data. This is also double the amount of work to conduct the space program. We hope to collect usable data and images with the first Tiny Space Telescope. This could include daytime solar and night time star imagery for the testing of future celestial navigation.

http://humanoidolabs.blogspot.tw/2013/04/near-space-test.html

The Big Brain machine appears intent on running with both manned and unmanned versions of its space program. Currently the space program is using a new PDT, a Power Dynamic Telescope, in tandem to explore black holes and the edge of the Universe.

Black Holes Raise More Questions

Black Hole with unknown BL Trans

BLACK HOLES RAISE MORE QUESTIONS THAN ANSWERS
The Big Brain Machine Initiative to explore space and study black holes to fulfill requirements of the Prime Directive has recently taken a turn with the introduction and completion of the largest and most powerful telescope in the series of Adjunctive Telescopes. These new telescopes have tools never before available in unique combinations that permit seeing things in unusual places where typically telescopes do not look.

In the number of days the PDT has remained in its infancy of operation, and based on enigmatic black hole data returned so far, we can say that approximately 33 questions are raised and only 2 answers have resulted. This is truly mind boggling and was never expected. The massively large telescope was expected to see new things, and it has, and we expected to be able to offer identifications of what we were seeing, and we have not. We did not anticipate the new and enigmatic causation occurring inside the black hole domain. This is a place where the laws of physics, space and time are unknown, so what we are seeing may be inexplicable.

"A black hole is a region of spacetime from which gravity prevents anything, including light, from escaping. The theory of general relativity predicts that a sufficiently compact mass will deform spacetime to form a black hole. Around a black hole there is a mathematically defined surface called an event horizon that marks the point of no return. The hole is called "black" because it absorbs all the light that hits the horizon, reflecting nothing, just like a perfect black body in thermodynamics. Quantum field theory in curved spacetime predicts that event horizons emit radiation like a black body with a finite temperature. This temperature is inversely proportional to the mass of the black hole, making it difficult to observe this radiation for black holes of stellar mass or greater."

"The defining feature of a black hole is the appearance of an event horizon—a boundary in spacetime through which matter and light can only pass inward towards the mass of the black hole. Nothing, not even light, can escape from inside the event horizon. The event horizon is referred to as such because if an event occurs within the boundary, information from that event cannot reach an outside observer, making it impossible to determine if such an event occurred."

"When an object falls into a black hole, any information about the shape of the object or distribution of charge on it is evenly distributed along the horizon of the black hole, and is lost to outside observers. The behavior of the horizon in this situation is a dissipative system that is closely analogous to that of a conductive stretchy membrane with friction and electrical resistance—the membrane paradigm. This is different from other field theories like electromagnetism, which do not have any friction or resistivity at the microscopic level, because they are time-reversible. Because a black hole eventually achieves a stable state with only three parameters, there is no way to avoid losing information about the initial conditions: the gravitational and electric fields of a black hole give very little information about what went in. The information that is lost includes every quantity that cannot be measured far away from the black hole horizon, including approximately conserved quantum numbers such as the total baryon number and lepton number. This behavior is so puzzling that it has been called the black hole information loss paradox." Wikipedia

Black Hole Floaters & Red Matter

Inside the heart and center of a Black Hole, Red Matter and a White Floater undergo enigmatic molecular transformation. Power Dynamic Telescope image.

BLACK HOLE FLOATERS
and Red Matter Mystery
Another mystery and new discovery emerged today when images returned from the Power Dynamic PDT Telescope, showing white floaters and red matter, were subjected to study at the Power Dynamic Telescope Control and Processing Center.

— What is this red matter domain and what are these floaters inside the black hole? Why does one transform the other? —

The image shows a red domain and white floaters. The view is aimed at the heart and center of the black hole and at several mystery objects, named floaters, also deep inside.

The real enigma is the transformation of the center floater object as it appears to have transparency, change color and transform when it floats over the apparent underlying domain object.

The floater objects appear to have a white base color but when one passes over the red domain object, it obviously changes color to yellow. Another white floater is evident, with two more intensive whitish globules inside.

A yellow border on the floater object appears to be generated by the red domain object and just on the other side, the color abruptly turns bright white. A marked and profound delineation appears between the two objects and a border is established. This mystery deepens when examining additional imagery.

Strange Object Inside Black Hole

ERIE OBJECT DISCOVERED
INSIDE BLACK HOLE
This is the first closer look at an erie object found inside a black hole with the new telescope. What purpose does it serve? What are the functioning dynamics of this object.

Found recently with the PDT Power Dynamic Telescope, we don't know what it is, but it's one of several objects found inside a black hole. It lies somewhere between the center of the core and the position slightly outward towards one relativistic jet. This class of enigmatic objects found inside black holes within the confines of contort space will become a subject of study. Thermal Imaging and X-raying have revealed no additional information at this time.

Black Hole Contort Space

Strange Erie Relativistic Space Warped by Temporal Time
FIRST VIEWS OF CONTORT SPACE! 

— INSIDE A BLACK HOLE — 

While other astronomers are focused on the jets from these black holes, the Big Brain Initiative is looking at the very luminous heart’s center, where relativistic event space is warped and the curvature of time is changed by huge gravity. This data can provide information for solving the riddle of going beyond the singularity when space and time was born in the Universe.

In this very deep image, the very distant galaxy 3C348 Hercules A, located 2.1 billion light years from the Earth, is penetrated to reveal the black hole at its core. Next, we used the Power Dynamic Telescope to penetrate further, deep within the black hole and its vicinity.

This image represents a very massive undertaking. The giant Power Dynamic Telescope uses nearly 30 Adjunctives for penetrating deep inside the elliptical galaxy’s core and mining this powerful black hole treasure. This far in, contort space looks strange and erie, warped by temporal time.

The black hole object  has such high gravity that not even light can escape. The image shows matter glow from the mad rush of incoming matter into the black hole itself as it’s crunched into fundamental molecular mush. This black hole was likely formed when a massive star died and its core collapsed into a superdense mass.

Power Dynamic Telescope PDT - through the Ring Nebula M57

The center of the Ring seen through the Power Dynamic Telescope PDT

POWER DYNAMIC TELESCOPE PDT
FANTASTIC JOURNEY THROUGH M57 RING NEBULA
M57 like you've never seen it before!

Small telescope M57 view

LOOKING INTO & THROUGH THE RING NEBULA — Discover What’s Inside and On the Other Side!

At Left: a small telescope barely shows the 9th magnitude Ring Nebula. The center hole is featureless.

We give you permission to embark on a great Telenaut mission of exploration and discovery. Travel to the giant smoke ring - the famous Ring Nebula. Like astronauts using space ships, Telenauts use powerful telescopes to achieve their space missions.

When we arrive at this celestial wonder, we will enter into, explore inside, and then travel beyond the place that no man has ever gone before using the Big Brain's newest Adjunctive telescope.

Spectacular, mind boggling, and fantastic are the named results that come to mind when describing the newest journey into deep space made with the new Power Dynamic Telescope, bringing forth shocking new discoveries (that reside within and on the other side of the Ring).

No telescope this large ever attempted to penetrate the center hole of M57 until now. This is just the beginning of a new era in space exploration by the Big Brain Inititive. The Ring Nebula appears as a kind of cylinder, with spatial depth that can be penetrated and reveal space time on the opposite side. The things that materialized in the first exploratory image are astounding!

BREAKING NEWS! Spectacular results were imaged last night when the newest and most powerful Adjunctive telescope, the Power Dynamic Telescope PDT, was slewed towards the famous Ring Nebula, diving into the center hole to reveal the treasures hidden inside.

Supercomputer driven, the very powerful and complex Discovery Class Power Dynamic Telescope was pointed at the center of the Ring Nebula M57, and when doing Molecular calibrations - it inadvertently began looking inside the hole where we expected to only see a couple dim magnitude stars for tweaking the cams. Unexpectedly, not only could we see materialization inside, but we could see all the way through the Nebular Cast Sheen (attributed to M57) to the other side where new objects were discovered, arranged in space - resident beyond the ring!

— Telescope shows more than expected: looking into and through the ring to the other side! — 

Our Discovery List

1) The PDT allows one to look inside M57 Ring Nebula’s center hole and to look inside some distance as the ring is really a cylinder implying depth of field.

2) A Blue Cast Sheen BCS molecular window is discovered, which was created by the Ring's connecting molecular dust and gas.

3) The PDT Telescope was able to penetrate the blue cast sheen all the way to the other side of space and time.

4) There are objects both within and beyond this ring - inside and beyond the window of exploded star dust, many new faint stars and objects are seen.

5) Inside the ring we see two parallel bands of star dust and matter apparently residing inside the cylinder walls, appearing to have some connection with the matter curvature of the Ring's cylindrical shape.

6) Beyond the BCS boundary, there are many rifts, voids, stars, galaxies, nebula, and objects in space.

A star map, showing the plot of more stars and objects, can be created using the telescope’s Paradigmic Light Processor and this image.

Power Dynamic Telescope PDT Sees Super Giant Star

POWER DYNAMIC TELESCOPE FINDS SUPER GIANT STAR DISK!

EXPLORER CLASS TELESCOPE: Spectacular new view of a giant sun located across the galaxy..

THIS IS JUST CRAZY TELESCOPIC VIEWING — SEEING This Giant Bubbling Star Image Close Up!

A giant red super sun is living across the galaxy. It's so large, we decided to try pointing the PDT telescope there to see what could materialize. Stars are generally only tiny pinpoints, unresolved pin-tip dots in the largest telescopes. However, through the giant PDT Telescope, a giant full disk bubbling sun is resolved, showing the enigmatic face of Betelgeuse, a bright super red giant star in the constellation Orion.

Gazing upon the starry heavens we've seen the orange reddish hew of the Star Betelgeuse on countless clear nights and wondered what it looks like close up. Telescopes of moderate to large size simply do not show the tiny stars as anything more than a pinpoint of featureless light. It takes very large telescopes and special techniques of interferometry to bring forth a disk and not much more is discerned. The PDT however, is so large in aperture, and with techniques of supercomputer molecular envisioning and processing with Adjuncts, that optically it can see an image with a large amount of unprecedented detail. This giant star is amazing with a massive bubbling boiling surface!

NINE NEW DISCOVERIES!
With just one observation of one star, the Explorer Class telescope has made more discoveries at a rate higher than any previous Big Brain Initiative telescope.

1) Resolving the disk is remarkable and unexpected.

2) Seeing topical features extending out from the solar perimeter is remarkable.

3) The detail in the photosphere is unprecedented.

4) At the left side, the disk appears to have a giant solar storm raging. The star itself is 700 million miles in diameter according to estimates.

5) This fierce storm reaches about 233 million miles out into space, and is perhaps the largest solar storm ever observed.

6) It also effects 1/7th of the star's side facing the Earth, as the largest sunspot ever discovered, covering about 100 million miles of the star's surface diameter.

7) The star also has continuous extremely large solar storms covering the entire perimeter.

8) It appears the red giant has eight super storms going on at the same time, the highest number of super storms ever discovered at one time on any sun.

9) The main stellar disk of this sun appears to show extrapolated giant sections and regions of massive bubbling and boiling effects.

Telescope Control System Bridge

Large bridge command center from JJ Abrams Star Trek film

TELESCOPE CONTROL SYSTEMS BRIDGE
Examples for the Power Dynamic Telescope
We're designing and building a telescope command and control center, and examining bridge console command systems from various sources for ideas. 

FIRST SOURCE
Telescope Control System Wrap Around

WHERE TO FIND BRIDGE EXAMPLES
The best examples of bridge control systems are found at the NASA command centers and various versions of Star Trek ships and vessels. These are larger control centers that take up more space, often occupying a room or a section of a wall. Operations may have designs for standing or seated occupancy.

JJ Abrams design

Floor to ceiling Vertical Bridge controls

VERTICAL PANELS
Vertical control panels are also popular. These displays are also adapted to virtual instruments with pieced together large touch screens. They often run floor to ceiling to take advantage of space.

NASA

NASA space station support operations

One example of a table and room command center is at NASA. The photo shows the NASA Flight Control System for the ISS International Space Station in 2006. It includes a series of tables, each with a computer control console for seated operations.

STAR SHIPS
Star ships, such as the Enterprise on Star Trek and many ship variations, have very well thought out and designed instrumentation control and command centers. Many of these bridges are designed for team operations and have multiple work stations. Some examples are for a science center, navigation, weapons console, stellar cartography, and sensors.

ADAPTABILITY

KELVIN Bridge (Star Trek)

These systems are very adaptable. For example, they include desk consoles for one or more work stations, vertical control panels for standing operations, and long strip control panels fit to walls in halls. Any of these may be telescope adapted, depending on the level of complexity and available space.

TOYS
Another place to look for various bridge designs is with toys. These often have compressed space

Bridge graphic

bridge designs which are especially useful when designing a command and control console with limited space in a small room.

GRAPHICS

Hallway control - Galaxy class Starship

There are many great visionaries drawing the graphics for space cartoons, space games, comic books and these hold fantastic designs. These are great sources for instrumentation control center designs and ideas.

EXTENDED RESOURCES
Also check other Star Trek movies, TV series, NASA sources for Skylab, Space Station, various Enterprise designs, science fiction, comics, toys, artwork, games, and galleries.

LINKS
Star Trek Blueprints
http://www.cygnus-x1.net/links/lcars/uss-enterprise-bridge.php

Federation Bridges
http://www.flickr.com/photos/fadmvulcan/sets/72157604354548317/detail/

Hi Res Control Panel & Bridge Images
http://www.gadgetreview.com/2013/04/hi-rez-pics-of-jj-abrams-star-trek-bridge.html

Telescope Control System Wrap Around

Space Shuttle Control Panels, by comparison, will help reference the design and construction of new telescope control instrumentation. These systems also can give a preview into the appearance of the new PDT Power Dynamic Telescope control center. The PDT may look different, as currently it does not have an extra seat for the copilot. In the case of the telescope, the copilot is the Big Brain Machine which does not require human seating.
................................................................................
CONTROL PANEL DESIGN
FOR TELESCOPE FLIGHT CONTROL
PART 1: A look at "wrap around" designs
Designing a new control panel for Big Brain's largest and most powerful Adjunctive and Molecular PDT Telescope, that can be in two places at the same time, is a fun challenge. This blog opens up the possibilities for such a design, gives construction ideas, and is the proponent postulate of many possibilities. 

TELENAUTS WILL CONTROL THE GIANT TELESCOPE just as astronauts control the space shuttle and space station

MiG29 Fighter Aircraft Control Panel

 There are several types of control panels to consider. One type is the desk. A single desk or series of desks hold computers and/or instrument panels. The other style, considered here, is the Wrap Around control panel of the type used in early spacecraft like Mercury, Gemini, Apollo, and the Space Shuttle. It's also the choice of instrumentation for jet aircraft fighters like the MiG29. The Power Dynamic Telescope PDT is similar in respects of complexity, flight control, positioning, imaging, and various processing etc. A comparison of these instrument control panels will help with the design of the PDT control panel.

USA Apollo Command Module control center blueprint

Aircraft fighter jet and commercial airline pilots also adapt to these cozy space restrictive-space and size instrument flight configurations. They work well in tight enclosures where space is at a premium. This could be a possible design for the Power Dynamic Telescope's control configuration for smaller Labs. Lab space may be minimal at some locations and the Wrap Around design would be ideal. The photos show some examples to consider.

It's highly interesting and useful to examine the types of instrumentation found on jet aircraft and see the patterns and ratios of various lights, controls and instruments as it's undoubtedly beneficial in the analysis for the Power Dynamic Telescope's control panel.

Take a look at the Dassault Alpha Jet instrument panel for an example. Here's a list of all 36 controls.
1) Weapons master switch, 2) Weapons authorization indicator, 3) Clock, 4) Red caution light, 5) Configuration indicator, 6) Mach/airspeed indicator, 7) Course indicator, 8) Eject light, 9) Ejection command switch, 10) UHF control box, 11) Attitude indicator, 12) Standby horizon, 13) Navigation indicator, 14) Voltmeter, 15) Cockpit altimeter, 16) Heading deviation annunciator, 17) Battery test connector, 18) Standby compass, 19) Sight (with camera), 20) Accelerometer, 21) Hydraulic pressure indicator, 22) Amber fail light, 23) Hydraulic pressure selector switch, 24) 250L fuel warning light, 25) Wing tank end of transfer lights, 26) Fuel quantity indicator, 27) Pylon tank end of transfer lights, 28) Engine fire warning lights, 29) Engine tachometers, 30) Engine bleed valve lights, 31) Engine tailpipe temp indicators, 32) Engine flowmeter indicators, 33) Encoding altimeter, 34) Rate of climb indicator, 35) Com/nav control transfer annunciator buttons, 36) Intercom control box

The North American F100 (see left) also has 36 flight related controls. Reviewing the list of these controls will help understand not only the layout design but the most efficient operation.
1) Drag chute handle 2) Airspeed mach indicator 3) Heading indicator fast slave button 4) Missile indicator lights 5) Heading indicator slave cutout switch 6) Heading indicator 7) Fire and overheat warning lights
8) Fire overheat warning sys test button 9) Altitude indicator 10) Altitude indicator fast ejection button 11) Accelerometer 12) Trigger safety switch 13) Hydraulic pressure gage selector switch 14) Flight control hydraulic system pressure failure caution light 15) Loadmeter 16) Hydraulic pressure gage 17) Oil pressure gage 18) Tachometer 19) Engine Differential Pressure gage 20) Fuel flow indicator 21) Exhaust temperature gage 22) Landing gear emergency lowering handle 23) Fuel quantity gage test button 24) Cockpit pressure altitude indicator 25) Bomb target wind control 26) Fuel quantity gage 27) Drop tank emergency jettison handle 28) Vertical velocity indicator 29) Clock 30) Radio magnetic indicator 31) Tacan range indicator 32) Course indicator 33) Turn and slip indicator 34) Altimeter 35) Light 36) Command radio remote channel indicator.

Notice the large number of gages in the F100, more exists for visual feedback than actual switches for input. Now compare to the Space Shuttle. There are many more configuration switches. According to NASA, these are also for redundancy - in the event of a failure of one system, another can be brought online. The Shuttle has many flight control configurations for flight control modes. This is similar to the PDT Telescope with its requirement for various modes with each observation and flight control project mission. PDT Mission Control will have the ability to pre-config the telescope, modify the instrumentation while in the fly zone, and heavily use instrumentation upon target acquisition. Post process again will rely on instrumentation.

NASA Space Shuttle Endeavor's Command Deck has flight controls at the front, back, sides and top. These instruments include a large number of both input and output style panels, displays, switches, and indicator lights. A joystick sets attitude control for yaw, pitch and roll, and turn knobs set analog-like settings. Controls are divided into several areas. For example, there are two communications systems, intercom, external camera control, flight control, navigation, steering, re-entry, reaction control system, rendezvous, docking maneuvers for orbit, gyroscopes, and other controls.

TYPES OF CONTROLS
OUTPUTS Controls can have output indicator functions for viewing, like gauges and lights.
INPUTS These are typically toggle switches, setting switches that turn to specific positions, and pushbuttons to initiate specific real time actions. Other inputs include joysticks, keyboards, and sensor devices involving temperature, acceleration, etc. Controls also include virtual controls on a computer screen.

CONTROL POSITION
It becomes apparent, the most frequent-used controls should have easy and close access. Instruments can be arranged in front and at the sides, depending on complexity. In the case of the USA Space Shuttle, controls are also behind and above the astronaut. With the PDT Telescope, the "Telenaut" could likewise have controls surrounding his or her location. The vision for this arrangement is a small size room with instrumentation surrounding the Telenaut.

List of Power Dynamic Telescope Controls
http://humanoidolabs.blogspot.tw/2013/04/power-dynamic-telescope-updated-controls.html

Marc Arys web site has details about the Alpha Jet.
http://yellowairplane.com/Book_Reviews/Alpha_Jet/Alpha_Jet_5.html

Power Dynamic Telescope PDT First Light

POWER DYNAMIC TELESCOPE FIRST LIGHT - blazing, intense & shocking!
Images show fantastic effects of a super massive black hole powerfully controlling this section of space and time.

POWER DYNAMIC TELESCOPE
TEST RESULTS ARE ABOVE!
ABOVE: This is the first test image returned from the new Power Dynamic Telescope (PDT) and it looks fantastic, more than what was expected. LEFT: Compare the above results to a typical small telescope view seen at left.

— Twenty two million light years away, one of the largest super massive and time altering black holes is eating a section of the Universe —

ABOUT THE PDT
The PDT is in many ways is more powerful than the PGT-ET and exceeds and replaces all previous Adjunctive Telescopes. The PDT is the sum of all previous Adjunctive Telescopes and the Molecular Microscope GMM plus it has many new features and technology. It has special capability with a new Focalization Reductor FORE for large and wide FOV as seen in the test image. PDT is ideal for studying and observing black holes, gravitational effects, and variances in time with relativistic and causality effects.

TEST IMAGE RESULTS
The test image is centered and focused on a powerful black hole in one part of the Universe. As one can see, the black hole is controlling a vast section of galactic space and time being forced to rotate around it. All the matter in this section of the Universe in under the control of the spinning black hole, which is buried in the center white radiation region where all regional matter is being sucked in and mashed. In this image, we can study the causal effects of the super massive black hole on its surroundings and immediate vicinity. In other projects, the PDT Telescope will seek out the heart of the black hole and additionally look at structures surrounding it.

LOCATION
For coordinates and more information:
http://humanoidolabs.blogspot.tw/2013/04/power-dynamic-telescope-pdt-test.html

GRAVITY & SPIN
Apparently, the dark hole has so much spinning gravitation, it’s causing all surrounding stars, clouds and celestial matter to spin rotate around it like a flaming fireworks pinwheel.

TRILLIONS OF STARS
The image has billions of stars, too many to count, as the galaxy and region owns upwards of a trillion stars.

BLACK HOLE CONTROL
The black hole has control over a section of space and time which is at least 135,000 light years in diameter, the width of the Seyfert galaxy it controls. However, its dominion is greater than just the galaxy.

— Objects, space, and time are vanishing into the super massive black hole — 

WHITE BLACK HOLE?
Ironically, the black hole appears white, as the rush of stars and matter aggregate towards the intense gravitational forces in the center, where objects are being consumed in a resulting mix of bright light radiation and immense force of particles, molecules and matter being ripped apart and eaten.

TELESCOPE COLOR
The PDT is a full color sensor capable Adjunctive Telescope and shows fantastic ranges of color throughout the galactic vastness across distributed eons of space and time.

PDT TELESCOPE INSTALLATIONS
The PDT is now run by the PDT Telescope Control Center, an upgrade to the PGT-ET Control Center. This installs new feature support for the Power Dynamic Telescope. Expect more great discoveries through our continuing exploration of the Cosmos.

NEXT IMAGING PROJECTS
Some areas we’d like to see through the new telescope are new stars appearing, actual disc resolution of a super giant red star, and to go exploring the amazing Horsehead Nebula to look for unusual anomalies and surprises.

Power Dynamic Telescope PDT Press Release

OVERVIEW,
PRESS RELEASE
POWER DYNAMIC TELESCOPE PDT
http://humanoidolabs.blogspot.tw/2013/04/new-telescope-announcement.html To date, the Power Dynamic Telescope is the most powerful Adjunctive telescope ever designed and constructed by the Big Brain Initiative.

Rated as an Explorer Class telescope, it has the largest budget, the most agency support on board, and over 140 specialized controls, setting new records and discoveries during First Light. Designed to investigate black holes, the time continuum, and relativistic causal effects leading to a journey beyond the edge of the Universe' singularity.

With thousands of miles aperture using various adjunctive configurations, it can exist in two places at the same time with management of Enhanced Entanglement.

Key conceptions include 01)Paradigmic, 02) Adjunctive , 03) Molecular, 04) Quantum, 05) Analyzer Head, 06) New Control Panel , 07) Wavelength Variablizer, 08) Power Dynamic, 09) Supercomputer Driven, 10) Morphable , 11) Entanglement Enabled, 12) Focalization Reductive.

The Power Dynamic Telescope PDT is managed by Humanoido and Humanoido Laboratories, Big Brain Initiative and the Propeller Powered Big Brain Supercomputer Center, Deep Space Center DSC, Ultra Space Administration USA, Power Dynamic Telescope Control Center, and NASA with additional on-board NASA agencies.

 

Telescope Class

TELESCOPE CLASS
A number of telescope classifications (ten) are now established to delineate the full line of telescopes and their unique purposes and variations. The current Power Dynamic Telescope PDT is being termed Power Class.

This class is capable of making powerful discoveries, in terms of exploring the Universe and its components and effects, more than any other telescope in the line. This is attributed to the more sophisticated control modules and the greatest number of units providing wide variety capability. More information about the classes of telescopes will be released the the future. 

Telescope Class
Recycler (SRT)
Explorer (NULT)
Adventure (ULT)
Genius (GT)
Paradigmic (PGT)
Molecular (MGT)
Enhanced Technology (PGT-ET) 
Power (PDT)
Gravatomic (GGT)
Super

Telescopes for Classification
ULT (Adventure Class)
http://humanoidolabs.blogspot.com/2012/03/nult-new-ultra-large-telescope-home.html
NULT (Explorer Class)
http://humanoidolabs.blogspot.com/2012/02/new-ultra-large-telescope-nult.html
GT (Genius Class)
http://humanoidolabs.blogspot.com/2012/06/gt-genius-telescope.html
PGT (Paradigmic Class)
http://humanoidolabs.blogspot.com/2012/09/paradigmic-gt-telescope.html
MGT (Molecular Class)
http://humanoidolabs.blogspot.tw/2012/10/big-brains-new-paradigmic-molecular.html
PGT-ET (Enhanced Technology Class)
http://humanoidolabs.blogspot.com/2013/03/pgt-telescope-new-look.html
PDT (Power Class)
http://humanoidolabs.blogspot.com/2013/04/new-telescope-announcement.html
GGT (Gravatomic Class)
http://humanoidolabs.blogspot.tw/2013/05/next-telescope.html
SRT (Recycler Class)
http://humanoidolabs.blogspot.tw/2013/05/novel-space-junk-telescope.html

First Scientific PDT Telescope Conference

Telescope is film, image, & data capable

FIRST SCIENTIFIC PDT CONFERENCE
The first worldwide scientific Power Dynamic Telescope conference was held regarding the first results from the New Power Dynamic Telescope.

One hundred and six people registered yesterday and joined the international event. Based on first results, investors and the administration agreed this telescope is the most powerful ever designed and constructed in the ADJ series. It's possible this telescope will make more discoveries than all other previous Big Brain Machine telescopes and it's worthwhile existence is expected to accomplish some of the greatest goals listed on the Prime Directive. As a result, the highest level of funding for this most massive telescope will be put forth and will continue for the duration of the term. It's agreed that long range and long term funding will be based on the telescope's contributions to the Big Brain's goals, the Prime Directive and telescope's longevity.