Friday, March 30, 2012

ULT Sun Flare

PROPELLER POWERED BIG BRAIN
ULT BRAIN PERIPHERAL FINDS A GIANT SUN FLARE
This event marks the ULT Telescope's first ability to analyze the Sun. The Telescope can now study sunspots, corona, flares, results from the photosphere, chromosphere, spicules, granular motions, and other elemental effects.
FIRST ULT SOLAR IMAGE SHOWING A SUN FLARE
You better head indoors when these gargantuan solar flares start cropping up! Xrays and Gamma Rays can reach the Earth in eight minutes at the speed of light.
The Big Brain's peripheral ULT Telescope engaged one Adjunct in solar orbit to find this potentially dangerous solar flare at a moment in time when it was nearing the break off point from the sun's surface. The ULT could potentially begin a program watch of the sun looking for flares, however, flares are relatively known and already watched by satellites in space. The ULT's mission is more of one of new discovery and exploration, so it's important to add solar capability but a 24/7 watch is currently out of its domain. For a view objects engaged by the ULT thus far, view the complete ULT Photo Album.

NASA Resources Past & Future

PROPELLER POWERED BIG BRAIN
BIG BRAIN'S RESOURCES TO NASA MISSIONS PAST AND FUTURE

This is a supplement to NASA Resources currently active:
http://humanoidolabs.blogspot.com/2012/02/nasa-resources-available.html

Working from this list
http://www.nasa.gov/missions/index.html



Other NASA Resources
http://science.nasa.gov/about-us/smd-programs/


Consult this list for more nasa missions
http://science.nasa.gov/missions/

PAST MISSION RESOURCES

Apollo
http://www.nasa.gov/mission_pages/apollo/index.html

Apollo-Soyuz
http://www.nasa.gov/mission_pages/apollo-soyuz/index.html

Astro-1
http://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=ASTRO-1

Astro-2
http://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=ASTRO-2

CHAMP

CLEMENTINE
http://nssdc.gsfc.nasa.gov/planetary/clementine.html

CGRO Compton Gamma Ray Observatory
http://heasarc.gsfc.nasa.gov/docs/cgro/cossc/

Cosmic Background Explorer (COBE)
http://nssdc.gsfc.nasa.gov/nmc/masterCatalog.do?sc=1989-089A

Deep Impact
http://www.nasa.gov/mission_pages/deepimpact/main/index.html

ERBS Earth Radiation Budget Satellite
http://science.nasa.gov/missions/erbs/

Explorer (America’s 1st Spacecraft)
http://www.nasa.gov/mission_pages/explorer/index.html

Extreme Ultraviolet Explorer
http://www.ssl.berkeley.edu/euve/

FAST Fast Auroral Snapshot Explorer
http://sprg.ssl.berkeley.edu/fast/

FUSE
http://archive.stsci.edu/fuse/
http://fuse.pha.jhu.edu/

Galileo
http://solarsystem.nasa.gov/galileo/

Gemini
http://www.nasa.gov/mission_pages/gemini/index.html

Genesis
http://www.nasa.gov/mission_pages/genesis/main/index.html

GLAST
FERMI Fermi Gamma-ray Space Telescope
http://www.nasa.gov/mission_pages/GLAST/main/index.html

Global Precipitation Measurement (GPM)
http://www.nasa.gov/mission_pages/GPM/main/index.html

GLORY
http://www.nasa.gov/mission_pages/Glory/main/index.html

HETE-2 High Energy Transient Explorer Satellite
http://space.mit.edu/HETE/

LAGEOS-1, -2
http://ilrs.gsfc.nasa.gov/satellite_missions/list_of_satellites/lag1_general.html
LAser GEOdynamics Satellite-1 (LAGEOS) was designed by NASA and launched in 1976. It was the first spacecraft dedicated exclusively to high-precision laser ranging and provided the first opportunity to acquire laser-ranging data that were not degraded by errors originating in the satellite orbit or satellite array. LAGEOS-2, based on the LAGEOS-1 design, was built by the Italian Space Agency and was launched in 1992. There are plans for the launch of LAGEOS-3, which is a joint multinational program with collaboration from France, Germany, Great Britain, Italy, Spain and the United States. Data from LAGEOS-3 would be used to measure, for the first time, a quasi-stationary property of the Earth - its gravitational magnetic dipole moment as predicted by Einstein's theory of general relativity.

FUTURE MISSIONS



James Webb Space Telescope
under construction2018 launch
http://www.jwst.nasa.gov/

LADEE Lunar Atmosphere and Dust Environment Explorer
2013 mission to the moon, under construction
http://www.nasa.gov/mission_pages/LADEE/main/

LCDM Landsat Data Continuity Mission
http://www.nasa.gov/mission_pages/landsat/main/index.html



MAVEN: Mars Atmosphere and Volatile EvolutioN (future, for 2013)
http://www.nasa.gov/mission_pages/maven/main/index.html


OCO Orbiting Carbon Observatory (future)
http://www.nasa.gov/mission_pages/oco/main/index.html



Radiation Belt Storm Probes (RBSP) future
http://www.nasa.gov/mission_pages/rbsp/main/index.html


--------------

Magellan
http://www.jpl.nasa.gov/missions/missiondetails.cfm?mission=Magellan
Carried into Earth orbit in the cargo bay of Space Shuttle Atlantis in a launch from Kennedy Space Center, Florida, on May 4, 1989, Magellan was propelled toward Venus by a solid-fuel motor called an Inertial Upper Stage. After a 15-month trip, Magellan went into orbit around Venus on August 10, 1990. Over the next four years it mapped 99 percent of the surface of Venus.

MGS Mars Global Surveyor
http://www.nasa.gov/mission_pages/mgs/index.html
NASA's Mars Global Surveyor operated in orbit around Mars for nine years, longer than any other spacecraft to Mars and long enough to complete three extensions of its original two-year mission. The spacecraft last communicated with Earth on Nov. 2, 2006.

Mars Pathfinder
http://www.nasa.gov/mission_pages/mars-pathfinder/index.html
designed to be a demonstration of the technology necessary to deliver a lander and a free-ranging robotic rover to the surface of Mars in a cost-effective and efficient manner. Pathfinder not only accomplished this goal but also returned an unprecedented amount of data and outlived its primary design life.

Mercury program
http://www.nasa.gov/mission_pages/mercury/index.html

Near Earth Asteroid Rendezvous (NEAR)
http://near.jhuapl.edu/
On Monday, 12 February 2001, the NEAR spacecraft touched down on asteroid Eros, after transmitting 69 close-up images of the surface during its final descent.

NMP EO-1

Phoenix Mars Lander
http://www.nasa.gov/mission_pages/phoenix/main/index.html
After a picture-perfect landing, the Phoenix Mars Lander returned unprecedented views and new findings from Mars’ north polar region.

Pioneer
http://space.jpl.nasa.gov/msl/Programs/pioneer.html
The Pioneer series of spacecraft performed first-of-their-kind explorations of the Sun, Jupiter, Saturn and Venus. The different missions had little in common except that they all paved the way for later in-depth investigations, and were all spin stabilized. Pioneer 0, 1, and 2 were the United States' first lunar attempts. These identical spacecraft, which all failed to meet their lunar objectives, were followed by Pioneer 3 and 4, which succeeded in becoming America's first successful lunar missions. Pioneer 5 provided the first maps of the interplanetary magnetic field. Pioneers 6,7,8, and 9 were the world's first solar monitoring network and provided warnings of increased solar activity which could affect Earth orbiting satellites and ground systems. The twin Pioneer 10 and 11 vehicles were the first spacecraft to ever visit Jupiter and Saturn. The craft performed a wide variety of scientific observations of the two planets and returned environmental data that was used during the design of the more sophisticated Voyager probes. The Pioneer Venus mission, consisting of the Pioneer Venus Orbiter (Pioneer 12) and Pioneer Venus Multiprobe (Pioneer 13), was the United States' first long-term mission to observe Venus and studied the structure and composition of the Venusian atmosphere. The mission also provided the first radar map of the planet's surface.

POLAR
http://pwg.gsfc.nasa.gov/polar/
Unlocking the Secrets of Earth's Magnetosphere. The Polar satellite, launched on February 24, 1996, is in a highly elliptical, 86 deg inclination orbit with a period of about 17.5 hours. Within the Sun-Earth Connections fleet, Polar has the responsibility for multi-wavelength imaging of the aurora, measuring the entry of plasma into the polar magentosphere and the geomagnetic tail, the flow of plasma to and from the ionosphere, and the deposition of particle energy in the ionosphere and upper atmosphere. Polar was launched to observe the polar magnetosphere and, as its orbit has precessed with time, has observed the equatorial inner magnetosphere and is now progressing toward an extended southern hemisphere campaign.

Ranger

Roentgen Satellite (ROSAT)
http://heasarc.gsfc.nasa.gov/docs/rosat/rosgof.html
ROSAT, the Röntgen Satellite, was an X-ray observatory developed through a cooperative program between Germany, the United States, and the United Kingdom. The satellite was proposed by the Max-Planck-Institut für extraterrestrische Physik (MPE) and designed, built and operated in Germany. It was launched by the United States on June 1, 1990. The mission ended after almost nine years, on February 12, 1999. 

Solar Flare Watch

PROPELLER POWERED BIG BRAIN
SAVE YOURSELF WITH A SOLAR FLARE WATCH!

Don't ignorantly  fry your own brain outside during this dangerous solar flare! 

BIG BRAIN wants to know the reason people go outside during the time of large solar flare activity when the solar flare punches a hole and penetrates the protective layer of the Earths geomagnetic field and causes significant damage to the physiology of a human. THE BIG BRAIN is just as susceptible to the effects of harmful solar flares as are humans. Taking a hit of a substantial EMP Electromagnetic Pulse can immediately incapacitate the Big Brain and other processor based machines, robots, power plants, cell phones, televisions, and electronic equipment. What is the solution?

The idea proposed by the Big Brain is that everyone should follow a solar space watch that can look for damaging rays incoming from the sun and solar flares, and other part of the universe that radiate high energetic cosmic rays from supernova and other potentially harmful sources.
http://sohowww.nascom.nasa.gov/data/realtime/c2/512/latest.jpg 
Already the Big Brain has initiated the Jet Stream Watch, a program to ascertain the degree of atmospheric clarity and seeing conditions for Earth based telescopes based on the changing high speed wind conditions. In a similar manner, a pre warning system and solar flare watch would alert people in advance to incoming eminent danger. The Big Brain accesses the NASA web site with up to date image of the sun, inclusive of solar flares at
http://sohowww.nascom.nasa.gov/data/realtime-images.html
As one can see, it is not going well for humans or machines on March 30th Friday as a massive magnetic charged solar flare bubbled up to the Suns surface and was released. There is a limited amount to prepare and seek shelter, as the flare is traveling a the speed of light, and will reach the Earth and penetrate Earth based geomagnetic defenses in a short matter of time.
The speed of light in a vacuum is 300,000 km/s and the distance of the Sun averages 150,000,000 km. Therefore it takes 500 seconds for the Solar Flare to reach the Earth, which is only 8 minutes.
NASA has a Soar Wind Spedometer that gives the speed of the solar wind at a given date and time. At 15:26 UT, the speed was 368 km/s at a density of 4.90 p/cm^3.
Sources & Credits
Photos of the Sun provided by NASA at the SOHO Site
http://sohowww.nascom.nasa.gov/data/realtime/c2/512/
NASA Solar System Exploration
http://solarsystem.nasa.gov/planets/profile.cfm?Object=Sun
SOHO Mission Home Page (Solar & Heliospheric Observatory)
http://sohowww.nascom.nasa.gov/home.html
Solar Jheioviewer
http://sohowww.nascom.nasa.gov/hotshots/2010_12_14/
NASA SOHO Mission
http://www.nasa.gov/mission_pages/soho/index.htmL
Space Weather
http://spaceweather.com/

Thursday, March 29, 2012

ULT Deep Stellar Abyss Reveal

PROPELLER POWERED BIG BRAIN
THE GREAT STELLAR ABYSS

Big Brain's ULT Space Administration
"Expanding the Frontiers of Scientific Research & Discovery"

THE MOST SPECTACULAR MISSION INTO THE ABYSS
In this spectacular journey through space and time, the ULT Ultra Large Telescope journeys to the deepest stellar abyss, at the center and heart of the M9 globular system. This remarkable transformation of light, color, scale and magnitude is made possible with the ULT 24-meter aperture primary.

The ULT Mission Object: travel deep into the center and  heart of a globular star cluster, for the first time, going deep, to see what emerges from its space and time. Engage the 276,700 year journey by light speed employing the Telescope's Obverse Travel Mode. Go max on the Universe Penetrator setting to gain a full 10X enhancement and create a 24-Meter aperture. Engage the Multi Mag Slider with multiple passes to zoom deep into the abyss. View the full colors of the deep space objects. View the complete ULT Photo Album.

Before & Beyond the ULT

Propeller Powered Big Brain
GOING BEYOND THE ULT IS NOW REALITY
TELESCOPE REVIEW BEFORE AND DURING BIG BRAIN ERA
Astronomers, both amateurs and professionals call it aperture fever. It takes only one time of looking through a telescope to come down with a fever of wanting larger telescopes to see more and more. AND when you get that larger telescope and view what can be viewed, you'll want a larger sized telescope to view more! It's a never ending story.

With the introduction of new inventions and new thinking with advanced designs, the ULT has the option of numerous upgrades, several of which were tested recently. The next option is to create new telescopes that are a quantum leap larger in diameter by factors such as 100X, 1,000X and 10,000X. Because these will have their own calculations, design and persona, they will also have unique names and science. The following categories are defined:

Historical Telescopes - Used, Designed and Built by Humanoido
Glass Optics Telescopes

1-inch Refractor FT First Telescope
This was the first telescope, a 30mm used to observe the Moon and Saturn, plus solar projections, first study was regarding red and blue fringing of achromatic aberration

2.4-inch Refractor GOTO Telescope
Computer controlled GOTO

3-inch Reflector F11
This reflector provided the first views of M42, M31, Saturn, and Titan

3-inch Reflector F3.95
Experiments in automation, robot control, machine brain interfacing

4.25-inch F11 PT Powerful Telescope
First studies of the Moon, Jupiter and Mars, Lunar Mapping. Imaged detail on Ganymede. Strong Jupiter studies and focus on Jupiter moons. Used for determining the speed of light and various astrophysics studies, film development and hypering

4.25-inch F2.9 Space Telescope
Used as the primary objective in creating an amateur space telescope for launching on the Shuttle's Getaway Special program

8-inch F3 Schmidt Camera
A Schmidt camera, study of spherical mirrors, curving film, wide FOV astrophotography, mounting, techniques

8-inch F6.3
Primary work horse telescope leading to many studies (see the 10X 80-inch MT Massive Telescope), dry ice camera, super cooled imaging, planetary cartography, cometary studies

12.5-inch F6 OT Observatory Telescope
Entered the CCD era with imaging, automation and computer control, discovered a new star, worked with Hubble Space Telescope et. al., accomplished many studies

40-inch Diameter Very Large Telescope VLT
Designed with a COSMAC ELF 1802 Computer, 144 Servo Mechanism, Real Time Figurable, Electric Filters, Vitual Cooling, Mirror Matrix Mounting, Computer Designed, 10 Year Project

Specialty Telescopes by Humanoido's Propeller Powered Big Brain Machine

Water Drop Telescope
The Micron Telescope
The Multiple Lens Telescope
The Camera Telescope
The Cam Telescope 
The Pinhole Telescope 
The Crater Telescope

Historical Telescopes with Resin Optics Designed and Built by Humanoido

52-Inch GT Giant Telescope
Innovative Resin Primary, Remote Ocular, Electric Focus, Auto
Figuring, Styrofoam Mirror Mounting, Ultra Light Telescope, Gravity
Systems

52-Inch GTT Giant Telescope Twin
Explored the Limits of Primary Extreme Mounting, Storage,
Handling, Surfacing Study, Weight Study, Experiments

Synthetic Aperture Telescopes Built by Humanoido

10X 30-inch Synthetic MB Made Big Telescope
Amplified performance 10X

10X 42.5-inch NT New Technique Telescope
Imaged detail on Ganymede, developed first enhancements in film hypering, cooling, sensitizing, flashing, summation

10X 80-inch MT Massive Telescope
A synthetic professionally acclaimed telescope with winning results - Mars Map, Mars Weather, Cometary Calculus, Occultation, Rings of
Saturn, Martian Polar Cap, Mars Dust Storms, Jupiter Storms, Digital
Image Processing, Star of Bethlehem, Venus Conjunctions, Moons of
Jupiter eclipse & Occultation, Determining the Speed of Light

10X 125-inch EOT Enhanced Observatory Telescope
Stellar Mapping, Discovered New Star, CCD, VIP Video Image
Processor, OPTICS Language Written, Thermodynamic Equalizer
Observatory with a Voice, Observatory Droid System

10X 400-inch AET Amplified Electric Telescope
Study in Massive Light Bucketing, Amplification, Enhancement

10X 520-inch MET Monster Eye Telescope
Experimental, Secondary Experiments 

New Hybrid Synthetics - Telescopes with Singular Linear Adjunctive Universe Penetrator Design

10X 945-Inch, 24-Meter, ULT Ultra Large Telescope
Discovered Saturnian Rocks, Discovered Multi Storms inside the
GRS, Ultra Deep Imaging, Penetration to over 13 Billion Light Years
Near the Edge of the Universe Boundary (EOU), Penetrated the
Globular Stellar Abyss, the Farthest Two Galaxies at the Edge of the
Universe, Deepest Galactic Penetration into 2.6 Million LY Zone,
Planet Outside Our Solar System, Pluto Detail Imaging, Multi-Meter
Lunar Res with Lunar Adjunctive, Experimental, Inventive,
Exploratory, Breaking New Technology, Relatively Easy to Use,
Big Brain Enabled

New Hybrid Synthetics - Telescopes with New Multi Selective Dimensional Adjunctive Universe Penetrator Designs Completed

100X 9,450-inch, 240-meter ET Extreme Telescope
This telescope is the first with multiple Adjuncts - a synthetic aperture of Multi Adjunctive design and heralds in a new era of telescopes, size is .15-mile diameter or 787-feet wide. This is equal to about twenty 40-foot wide skyscrapers placed end to end.

1,000X 94,500-inch, 2,400-meter HT Hercules Telescope
This telescope has a synthetic aperture of 1.5 miles

New Hybrid Synthetics - Telescopes with New Multiple Additive Dimensional Adjunctive Universe Penetrator Designs Completed

10,000X 945,000-inch, 24,000-meter ST Super Telescope
This telescope has a synthetic aperture of 15 miles

100,000X 9,450,000-inch 240,000-meter CT Colossus Telescope
This telescope is 150 miles wide

NWT New World Telescope
Estimating an extremely powerful synthetic aperture of 1,500-miles in diameter, linked in space to Earth, this new world telescope will puncture holes through gravity, space, time, and dimension, with phase cutting through nebula and interstellar dust & matter like a hot butter knife, reaching the farthest places throughout the Universe. Along with new technology, this telescope will be the next design building upon the 150-mile synthetic aperture telescope and previous technology.

Going Beyond ET - How It Was Accomplished

The New Multi Selective Adjunctive design was the next step in making massive gains in resolution and increasing the aperture by a quantum leap. The ULT uses a singular Adjunctive and now with use of multiple Adjunctives ushers in the age of the ET Extreme Telescope and beyond. What's beyond ET?

These new large telescope are made possible with the use of the new Accumulator invention. The new Accumulator invention for the ULT Telescope is simply revolutionary because it enables a quantum jump increase in apparent resolution and telescope size. It accomplishes this by combining the data from two or more, or many Adjuncts. The Accumulator can also sum the accumulated data from a single Adjunct, making the entire Telescope perform with significant enhancement. No longer is the Universe Penetrator (UP) the only device that can increase and amplify telescope resolution and apparent size (by 10X). The Accumulator has brought about enhancements of 100X and 1000X on top of the UP's capabilities. Along with the UP, this converts to 1000X and 10,000X. This is not an empty magnification reference at all, but rather references resolutions that determine functional aperture of the Telescope. It puts the telescope aperture into the range (from 24 meters) of 1.5, 15, and 150 miles wide. The accumulator also increase the clarity and field penetration yielding new powerful data about places in space and time.

The GT Genius Telescope
Note: As of July 2012, a new behemoth telescope is complete - the GT Genius Telescope, with three aperture modes (the 1.5-mile, a 15-mile, and the 150-mile)


Telescope Naming Conventions
The choice of telescope names is from the following pool (Bolded names are taken, the remainder are taken for development names) New World, Mammoth, Amplified, Monstrous, Monster, Far Reaching Penetrator, Massive, Far Reaching Arm, Eye, Behemoth, Herculean, Enhanced, Enormous, Extreme, Giant, Gargantuan, Massive, Colossal, Huge, Electric, Humongous, EE Elucidating Eye, Very Large, Ultra Large, Immense, New World, Vast, Twin, Hulk, Super, New Technique, GT Genius Telescope

ULT Stellar Abyss Mission

Propeller Powered Big Brain
THE SPECTACULAR ULT STELLAR ABYSS MISSION
All resources are now placed on the current ULT Deep Space Stellar Abyss Mission. Were traveling at the speed of light beyond the Solar System in ULT Obverse Voyaging Mode bringing in light from the 276,700 year mark located in a deep and vast stellar abyss. What we find inside is completely unspeakable! Please wait! We'll post results shortly from this mission..

The ULT Deep Space Stellar Abyss Mission is the first to use the upgraded Voyaging Craft Window specifying the PIP Parametric Identity Pool. The results go so deep and the reveal is so incredible - this is one journey not to miss! This accomplishment represents the combined efforts of Humanoido, the Propeller Powered Big Brain, the DSC Deep Space Center, the ULT Space Administration and NASA.

ULT March Upgrades

PROPELLERED POWERED BIG BRAIN
ULT ULTRA LARGE TELESCOPE UPGRADES & CHANGES
Centaur rocket Engine - NASA
NEWS - from the ULT Space Administration

This week has seen numerous project changes in the rapidly growing ULT Ultra Large Telescope Project, a project spun off by the Propeller Powered Big Brain.

The Big Brain project is all about thinking in new ways, re-purposing existing technology so that it can be readily expanded with new ideas that extrapolate beyond what is commonly known. It leads to new capabilities, advancements in science, and new discovery. If we stood on one plane of existence on the ladder of life, it's now time to move up to the next plane. We are not throwing away the old technology but rather expanding it in new ways.

For example, we know the Chinese invented the black powder rocket in 300 BC . But in today's modern technological world, how could this relate to our rockets 2,312 years later? In touring the museum in China, on display was a style of ancient rocket that looked almost exactly like the Space Shuttles arrangement of Solid Rocket Boosters. Building new upon old. As the 12th century theologian and author John of Salisbury said, "We are like dwarfs sitting on the shoulders of giants. We see more, and things that are more distant, than they did, not because our sight is superior or because we are taller than they, but because they raise us up, and by their great stature add to ours." (a treatise on logic called Metalogicon, written in Latin in 1159)

Powerful Devices & Techniques
THE ULT now has extra equipment and instrumentation which gives add on capabilities. Recapping the end results, the Telescope has the following added features and upgrades:

* a larger telescope diameter
* ability to function in multiple Adjunctive Mode
* a new Accumulator
* higher resolution
* greater ability to make new discoveries
* a new front end display window
* Repeatability - tracking of additional parametric identities
* ability to save, store for long periods, compress, and recall time
* new ability to be in multiple places at the same time

Front End Display Window
The  new Front End Display Window now includes XY scaling for image object identification and location. The four pins holding the image points of reference are improved. Contrasting color now identifies new added iconic representations for additional parametric identities. A larger viewing window is created which can show more observational data per unit area. The window now reports the current mission, location of the Adjunct, modes for telescope and obverse travel, the Multi Mag Slider is reported as engaged as Multi Pass with icon, a journey time in years units based on light speed is given, the type of system engaged is noted, and credits are established. The window supports either color, black & white, or variations and is stored and transferable by jpg files. The first trial window incorporating these features is seen with the deep stellar abyss. In the future, the window may also report the type of Adjunct and the number of Adjuncts and a more advanced version could include Accumulator information and settings. There's a limitation to the current window size and Portrait shape, which may change to Landscape Mode for side by side Instrumentation Control Panels.

Ability to Make New Discoveries
The ULT began off the bat with discovery in its first Jupiter image, showing a remarkably detailed image of the GRS Great Red Spot that not only filled the entire Telescope Viewer Screen but showed hundreds if not thousands of smaller storms raging inside the spot, leading to new knowledge about the centuries old feature. In the first Saturnian Ring System image, using a new Adjunct tested for higher resolution and technique, the clear visible indication of rocks and boulders appeared in many of the twenty rings that were examined, heralding in a new era of Big Brain Telescope based planetary exploration. The ULT Space Administration is going on about the business of science and research and does not want to get into a decades old controversy like the microbes found in the Mars rock. So information and discoveries will be presented in the form of blogs with a disclaimer that it's left up to the reader to determine suitability of information. It's possible, in the future, a book will be written and released detailing the ULT.

New Thinking About Time
It's entirely new thinking about time and the management of time based systems that leads to new ULT power and capabilities. The historical technology allows us to take a time span of images and modify their time structure. Modifications allow us to manipulate time and control it. With existing space adjuncts, this concept is greatly expanded. The ULT is built upon data based on the dimension of time. Images in the Solar System and from Deep Space are from different times. Managing the time properly and developing new time managers allows the data to be recorded, played back, intensified, amplified, enhanced, added, and manipulated in ways to increase ULT performance. Time managers must take into account the variables of Adjuncts, Positions of Nodes, Acquisition time, Trip Time, Manager Technique Time, Operation Duration Time, and Event Time.

Multiple Places at the Same Time
This new feature of the ULT indicates that the telescope can reside in several locations at the same time. This upgrade is made possible by new thinking which is no longer linear, but rather incorporates not one but many prime spaced Adjuncts in a three dimensional Solar System Array (with some exception applying to distances outside of the Solar System). This requires some calculations to make it functional and it's hoped the Big Brain will take care of this in future built instrumentation.

Accumulator
The new Accumulator invention for the ULT Telescope is simply revolutionary because it enables a quantum jump increase in apparent resolution and telescope size. It accomplishes this by combining the data from two or more, or many Adjuncts. The Accumulator can also sum the accumulated data from a single Adjunct, making the entire Telescope perform with significant enhancements. No longer is the Universe Penetrator (UP) the only device that can increase telescope resolution and apparent size (by 10X). It is believed the Accumulator will bring about enhancements of 100X and 1000X on top of the UP. Along with the UP, this converts to 1000X and 10,000X. This is not an empty magnification reference at all, but rather references resolutions that determine functional aperture of the Telescope. It puts the telescope aperture into the range (from 24 meters) of 1.5, 15, and 150 miles wide. The accumulator also increase the clarity and field penetration yielding new powerful data about places in space and time.

Multiple Adjunctive Gold
Thanks to NASA, the ULT Telescope moved up with access to over 90 currently operating spacecraft and space telescopes. This space network number is increasing steadily and leads to a database so large that we're scrambling to find more office space at the newly formed ULT Space Administration. (another TeraByte drive was recently added) Currently this is a national effort with the USA leading the available Space Network in resources, tools and data. However, if the U.K., Japan, and France come on board, the Telescope's performance could be fine tuned to include more objects and more capabilities. An increasingly larger database is required to formulate and track parameters and the project is currently looking towards (and now utilizing) NASA for real time storage solutions similar to Cloud Computing. Cloud Computing is the delivery of computing as a service rather than a product, whereby shared resources, software, and information are provided to computers and other devices as a utility (like the electricity grid) over a network (typically the Internet). As previously blogged, we've utilized new methods that can, for example, use one satellite in Earth orbit and combine it with another beyond the Moon for incredible gains in data, light gathering power, resolution and aperture. This technique is now expanded beyond the Two Factor, i.e. can handle Multiple Adjunctive Systems for arrays that possibly and most likely go beyond capabilities of any telescope previously conceived.

Higher Resolution for Better Vision
The key issue of the telescope has always focused on aperture (telescope diameter) which is directly dependent on resolution. As the aperture increases, whether mechanically and optically constructed or synthesized, the resolution increases. With the advent of the UP Universe Penetrator, Adjunctive resolution increased up to a factor of ten. Now with the add on invention of the Accumulator, the factor of increase is vastly larger. Next came the upgrade to two Adjuncts for an incredible jump in resolution. Then multiple adjuncts in three dimensional space (no longer linear) were added for another great quantum jump in resolution. It is always believed that the previous upgrade is the final one, then something new is discovered. It's currently challenging to think of exceeding a telescope 150 miles in aperture, but given the vastness of space to work with, and NASA as a friend, anything goes.

Larger Telescope Diameter
See discussion regarding "Higher Resolution for Better Vision" and Accumulator.

Repeatability
One area being added to the Telescope's operations is that of Repeatability. The goal is to provide enough data regarding the Parametric Identity Pool (PIP) so that one could repeat the observations and settings on the same or another object at a future time. The first indication of increasing the PIP is the new ULT Voyaging Craft Window
put into effect with the Deep Stellar Abyss Mission.

ULT Accumulator Invented

PROPELLER POWERED BIG BRAIN
THIS SPECTACULAR ULT ACCUMULATOR INVENTION ENABLES A VAST TELESCOPE EXPANSION!
The ULT Accumulator stores the energy of the potential image at one focal point. This potential is a latent image accumulated or collected and can be summed, saved, released, engaged, and/or utilized at a current or future time.


Historical Gemini Control included an Accumulator
ULT's First Accumulator
The first Accumulator works well for minimal time dependent objects and is designed primarily for objects in the Universe with slower rates of calculus. The calculus rate of change must approach a minimum time from one accumulated data point to the next. Though, the calculus is based on the speed of the Telescope.

Conceptual Design
The ULT Accumulator is unlike the historical Gemini Spacecraft which contained an Accumulator in its design. The ULT's device does employ the processing power of computers but its different by design. The idea adds time to the equation of space.

Telescope Speed
As the Telescope speed increases, the accumulator can work with increasing faster objects, so there is great advantage into having a very fast telescope, fast in terms of processing power. This is one area where the Propeller Powered Big Brain excels and can be more incorporated into the process. In this reference the speed of a telescope does not refer to light gathering power or focal ratio or F# but rather an actual speed or passage of events time parameter. The equation R*T = D (R = Rate, T = time, D = Distance) is in effect for some parameters while others are strictly event based.

Collecting Time
The ULT Accumulator can function as a device that collects time. Each object in space is collected by a span of time. Singular objects can have multiple time collected in its interest.

Saving Time on a Hard Drive
Collected object time can be stored on TB drives for later use by the Accumulator.

Compressing Time for Later Time Expansion
Drive routines can compress the collected time and store time in less space. Later when needed, the time can be expanded to normal space.

Time Blur & Changing Events
As an event changes, its rate of change is applied to the ruler of time. The time frame of the ULT Accumulator must not exceed the resolution of time in a single accumulation point or a time blur will result.

Affecting Multiple Adjuncts
Part of the ULT Accumulator is software driven and involves the use of TB data storage devices. It’s an instrumental key to developing and finalizing data for one or more Adjuncts. In particular, it enables the combining of multiple Adjuncts, enabling a revolutionary way to enhance and increase telescope size and capabilities. It makes possible vast increases in ULT Telescope resolution and diameter never before possible.

New Terms
ULT Accumulator
Collected Time
Time Blur
Saved Time 
Object Calculus
TB Data Storage Device
Expanding Time
Object Time
Fast Telescope
Latent Image

Credits
NASA image
http://www.ibiblio.org/apollo/Gemini.html

Wednesday, March 28, 2012

Big Brain Increases ULT Resolution

PROPELLER POWERED BIG BRAIN
BIG BRAIN INCREASES ULT ULTRA LARGE TELESCOPE RESOLVING POWER BY A QUANTUM LEAP
ULT Stars: 1st Test @ New Larger Diameter
MY GOD! IT'S FULL OF STARS!
The first star field and planetary tests run at this new highly powerful leap in resolution setting, technique, hardware redesign and instrumentation build has led to discovery within the rings orbiting the globe of planet Saturn. Preliminary pointing the ULT into the stellar abyss has revealed a mind boggling and spectacular number of stars! (see shown image of 1st stellar light at the new increase in telescope size) What's happening here? The ULT has become larger by a quantum leap!

Previously, the ULT was defined by the following equation:

Initial Formula Governing ULT Resolution

R ~ {[1.22 (Lambda)]/[(D1)+(D2subn1,n2,n3...)]}/~P

in the mathematical proportional expression where P is the Penetrator setting (1-10), Lambda is the wavelength of observable light, R is the resolution, D1 is the ULT aperture, D2 is the Adjunct setting, and n is the node. As the Adjunct setting increases, or the wavelength of light decreases, or the aperture increases, or a combination of the above, the resolution of the ULT increases.


The new formula introduces the distance of the Adjunct from the Earth and the distance of the Adjunct from the observational destination. As the distance of the Adjunct decreases to the observational destination, the resolution increases. To calculate the diameter of the ULT, which is based on resolution of the Observational Destination, a comparison is made of the distance to the object. This reworks the proportion as given.

It's recommended to establish a baseline with each Adjunct relative to the Observational Destination. The final analysis determines resolution based on the distance to the Earth which in turn is used to calculate the full aperture. Remember the formula is typically using Arc Radians and may require conversion.

What is the conclusion? This indicates the ULT can be much larger in aperture compared to its original 945-inch design which used only one Adjunct. How much larger? The actual numerical indication is shocking. By adjusting Adjunctive arrays, the telescope can alter and reconfig its full aperture diameter by increasing with a factor of a hundred times. The original 24 meter telescope becomes a 2,400 meter telescope which comes out to about 1.5-mile wide. This is a preliminary estimation and the actual diameter may go into a thousand times larger, thus creating a 24,ooo meter telescope at 15 miles wide, though incredulous at it may seem, the prelim results are indicative of a confirmation of these numbers.

Keep in mind the Universe Penetrator places a (up to) 10X factor on top of this aperture. So the 1.5 mile wide telescope with a 100X Adjunctive becomes 15 miles in diameter, and the 15 mile wide telescope with a 1,oooX Adjunctive becomes 150 miles in diameter. These telescopes can make serious discoveries and perform cutting edge research. The straight resolution of these apertures can be calculated directly with 1.22Lambda/D. 

New Terms
Observational Destination

ULT Saturn Rings Journey

Remarkable Discovery Image
A SPECTACULAR JOURNEY TO THE ROCKS OF SATURN!

THE ULT IN OBVERSE INTERPLANETARY SPACECRAFT JOURNEY MODE

MISSION OBJECTIVE: To see individual rocks and boulders within Saturn's rings for the 1st time and to show the ring system is composed of many lesser homogenous rings of varying nature.

With the ULT Telescope configured in Obverse Spacecraft Mode, a fantastic journey beyond Earth, Mars, and Jupiter unfolds. For hundreds of years, man has wondered about the structure and arrangement of the rings around Saturn. As probes imaged the rings, and even flew through the ring system, one with consequences, some scientists were disappointed to see the rings as homogenous systems without resolving the individual rocks and giant boulders thought to make up the rings. Now flash forward to the year 2,012 when technology is able to reimage the Saturnian Ring System with striking clarity and resolution unlike any decade before. The ULT Ultra Large Telescope and the ULT Space Administration has the tools necessary to achieve this feat. Like the Martian rock that produced microbes embedded within its contents, the controversial imaging of rocks and boulders withing the rings will continue. Seeing is believing and examining the evidence shows a pixel size less than the diameter of a measured large rock or boulder, which is supporting evidence for the feat accomplished by the ULT. But wait, there is more to the ULT than meets the eye. The special config makes the ULT much larger in apparent diameter than the 24-meter quoted. This is because the Telescope has employed Telescope and Spacecraft Adjuncts within the Saturnian System.

In Obverse Voyaging Mode, the viewing window shows arrival at the Saturn Ring System and reveals a total of 20 rings systems. Intrinsically the rings are fantastic. For close exams, enlargements of this image show pixel size which is smaller than the debris field particle size. Also visible are irregularities in the ring structure that do not pattern repeat. In several places in the image, there are much larger clumpings of material. In some ring positions, the ring appears to interrupt and not exactly match up, a result of lower albedo material, smaller material, or both. To achieve this high resolution, the ULT was place in Obverse Mode and a nearby planetary Adjunction was put into operation. Parameters are inclusive of a 10X Universe Penetrator, Adjunctive at Saturn, Multi Mag Slider, Obverse Spacecraft, and additional parametric identities. The ULT Space Administration is moving so quickly forward with evolving the ULT Machine that a formula to define the Telescope's diameter based on the position and number of the Adjuncts in space is yet to be determined. View the complete ULT Photo Album.


Tuesday, March 27, 2012

How to Avoid Dangerous Aliens

A first contact meal menu?
PROPELLER POWERED BIG BRAIN
HOW TO AVOID BEING EATEN BY DANGEROUS ALIENS
Going Stealth with the ULT
Although this is a controversial topic, at one time we believed that with great intelligence would come great understanding and the compassion for all living creatures. This is no longer the case.

We see people eating higher life forms like Whales and Dolphins, Monkeys and not too long ago there existed human cannibalism in the regions of the Amazon. One only needs to watch Nat Geo to see jungle native elders explaining the taste of humans. Even those Westerners thought cultured, in survival times of crisis such as a plane crash, have eaten their comrades. Perhaps the human race is a fluke or has not yet attained the intellectual compassion that comes with greater technological advancement, evolution and star travel, or not! When Pioneer spacecraft was sent out, it carried a Plaque telling aliens exactly where to find us. Any aliens with faster than light traveling spaceships and a hunger for humans now have a map to their next meal.

Commander Dan Burbank, Engineer Don Pettit, Robonaut
Stay Safe
Why do you think Project SETI has searched the skies for decades, looking for intelligent life and found nothing? Aliens know better than to foolishly send out their calling cards.

Safely Traveling the Stars
A much better, more safe and benign way to travel the stars and circumnavigate right ascension declination of this great universe and stay safe is by using the ULT Ultra Large Telescope as an Obversing Star Ship, one that is aligned to see and observe material that travels to us, from there to here, without leaving any traces of our presence. Observational Travel with the ULT is the latest trend in safe intergalactic travel. Someday we can send out robots like Robonaut to do the journey for us and endure the hazards of space travel.

Five Maps for Aliens to Find Earth
Two Voyager Spacecraft sent out maps
http://en.wikipedia.org/wiki/Voyager_Golden_Record 

Pioneer 10 carried a map
http://en.wikipedia.org/wiki/Pioneer_plaque

Radio Telescope Arecibo transmitted a map to M13
http://en.wikipedia.org/wiki/Arecibo_message 

The Apollo Moon Plaque was placed on the Moon in 1969
http://www.thespaceshop.com/rolledplaque.html

Ways to More Safely Explore the Universe
Observational Telescope
Obverse Space Craft
Robot Explorers
Gravity Well - Material Finding Earth (like the Mars rock)

References
NASA Space Science Data Center
http://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1972-012A 
Image Credit - NASA

ULT Advancements

PROPELLER POWERED BIG BRAIN
THE VAST ULT ADVANCES IN DESIGN AND FUNCTION!
Big Brain ULT Adjunctive Swarming illustration
There is no question the ULT is the most expensive, sophisticated and advanced project ever conceived and undertaken through the auspices of the Propeller Powered Big Brain. It has become the fulfilling element of higher purposes and destiny of the Big Brain.

A number of new advancements are now in effect to increase the conceptual thinking and real time abilities of the Big Brain's ULT, Ultra Large Telescope and Spacecraft. The formulation, function and definition of the ULT is more defined as time progresses. This is a review and interpolation of those effects and some extrapolation into the future.
 
The ULT functions as a Symbiotic Earth-Space Telescope
and as an obversing interstellar spacecraft and intergalactic star ship. With its Multi-Concept, NASA resources and the Big Brain, the ULT is configured to become a mobile device that can change positions within the solar system and go beyond. There is no other device like the ULT in current existence.

THE ULT has the Following Components & Tools
94 Active Swarming Adjunctive Arrays (see here and here)
Character Selection Filter Ranger

The ULT follows Paradigm Shifts

The ULT as a Both a Conceptual
and Actual Spacecraft / Starship
* Interstellar Travel between the Stars
* Interplanetary & Solar System Space Travel
* Galactic Travel Between and Within Galaxies
* Orbital Spacecraft for Earth Missions
* Probe Missions to the EOU Boundaries (Edge of Universe)

The ULT is working with these parameters
Time Travel

Time Travel Coefficient Based On Distance

Light Speed

Faster Than Light Speed - Super Luminal Velocity
Resolution
Orbital Positions
Space Travel
EOU Boundaries
Coexistor (Being in Two Places at the Same Time)

The ULT Philosophy

The ULT Management
Humanoido

Future
We see the ULT becoming multi-purposed (Telescope, Spacecraft, tool of scientific investigation and discovery, new paradigm shifts) and more refined in its potentials and capabilities. It will function today as a telescope and as an obversing Space Craft, but tomorrow expect more from this massive project. 

References
Image source - Gizmodo

Monday, March 26, 2012

ULT Voyaging Craft Window

THE ULT TELESCOPE IS BEING CONVERTED TO A VOYAGING CRAFT
Taking the Obverse Voyaging Craft to the Next Level

What is this Voyage Stuff?
The telescope is being handled as an obverse voyage craft, i.e if you cannot physically travel to the edge of the Universe (because it would take 13.7 billion years to arrive there traveling at the speed of light) then the ULT Craft will move the edge (or more accurately, some portion of it) to you by providing a Craft Window. The Craft Window allows the visible aspect to the design of the journey.

Trip to Mars
For example, a trip to Mars would employ the special effects of character wavelength selection to reach Mars, fly above the clouds, enter the mid cloud stream, and finally approach the surface, the results of which appear in the ULT Craft Window. At first we see the disk grow from small to large, then fill the view, as the polar cap and morning frost along with high elevation cloud tops are seen through the Craft Window. The CW also allows seeing the most remote objects in the Universe for set journeys. Next, the ULT Craft goes mid atmosphere, visible through the CW, inclusive of any dust storms. Finally the CW usually shows surface detail provided there are no major dust storms going on.

Craft Window & Time Travel
The Craft Window, for large distances, will undergo time travel. The amount of time travel is dependent on distance. In the remote part of the solar system, this can accumulate to a couple hours. At the beginning of time, the value increases to the 13.7 billion year mark. One can calculate or look up the time travel coefficient when traveling large distances. For the Solar System, calculating the time travel coefficient is usually not necessary.


New Craft Window
The ULT Administration is designing a new ULT Craft Window that will include the parameters discussed. This can show the amount of time travel as you look out the CW and the distance departed in the journey. Other parameters are possible based on settings of the Multi Mag Slider, Universe Penetrator, Adjunctive Array, and other devices.


New Terms
CW Craft Window
ULT Craft
Obverse Voyage Craft
Time Travel
Time Travel Coefficient Based On Distance
Light Speed
Super Luminal Velocity

ULT Recombinator

SPECTACULAR ULT RECOMBINATOR INVENTION!
The newest machine driving the ULT Ultra Large Telescope is the ULT Recombinator. The Recombinator is a much more complex machine that links two or more Adjunctives using hardware and software and a good control over the parametric identities of each.

Big Brain's ULT has access to NASA Adjunctives such as the ISS International Space Station and its data.
 
The more Adjunctives processed with the Recombinator, the greater the complexity. This makes several events possible - one, increases of resolution, two, gains of light gathering power, three, equivalency of a larger and larger telescope, and four, increase in the slope of massive discovery per unit voyage. The Recombinator requires special software, unique research, a multiplicity of hardware nodes, and a preparation phase. The Recombinator is the driving force taking the ULT from a 10X Universe Penetrator enhancement to 20X. Coming down the pipeline is a wider diameter telescope, next generation. Since the enhancement is along the linear diameter of the existing scope, the 24M would escalate to 48M or going from 945" to 1,890". The Recombinator is the latest key to driving the telescope machine to produce greater results.


Machines Driving the Ultra Large Telescope

1) Big Brain
2) Universe Penetrator
3) Adjunctive Array
4) Multi Mag Slider
5) Recombinator