IBEX, NASA's Interstellar Boundary Explorer, Creates Sky Map Of Our Galaxy And Measures Flux Magnetic Fields That Effects Climate Changes On Earth.
(This article is the first in a series.)
Credit: Adler Planetarium/Southwest Research Institute
Picture From "Windows To The Universe"
http://www.windows.ucar.edu/
What is IBEX, the Interstellar Boundary Explorer? The following video describes IBEX and its' mission.
What! Subquantum Kinetics? IBEX? Flux Magnetic Fields? Unless you have taken college physics or astronomy you might not be familiar with these terms. Subquantum Kinetics is most certainly one of the least known terms in conventional physics classrooms. So, before I go into too much detail I'll show you a video clip of some of the most beautiful images taken by the human species. Yes, while some people conspire to kill or destroy, there are others who develop instruments that peer into the depths of the universe. The following video created by Tony Darnell of the "Infinite Minute" is one example.
What is IBEX, the Interstellar Boundary Explorer? The following video describes IBEX and its' mission.
So, how does interstellar dust or flux magnetic fields or subquantum kinetics effect our weather? First I'll discuss briefly how scientists came to discover stellar magnetic fields and how scientists can verify their new discoveries or should I say rediscoveries with ancient cosmological knowledge.
The year was 1932 when Bell Telephone Laboratories engineer Karl Jansky, was investigating sources of interference to the recently opened trans-Atlantic short wave radiotelephone circuits. Jansky designed what appeared to look like a large rod-like antenna receiver resembling a box kite laying on its side. Later these antennas would be called horn antennas. Jansky then set the antenna on circular tracks supported by Ford Model-T tires. Listening through the antenna, Jansky heard identifiable noises coming from urban locations near his laboratory but the interference always increased when he pointed the antenna upward toward the stars. Using a star map he discovered the interference coming from the center of our Milky Way galaxy at 26 degrees of Sagittarius. Jansky had discovered not only the center of our galaxy, he also discovered a new tool, the first modern day radio telescope. He died in 1950 at the age of 44 never receiving formal recognition from the academic scientific community of his discovery. His notebooks, including raw data on exact locations where his antenna made the historic contact with our Galactic Core, were lost for decades until a summer student majoring in archeology found them at Bell Labs in an old box.
It wouldn't be until the 1960s that astronomers began to realize the massive object that forms the core of our Milky Way Galaxy periodically becomes active. Today radio astronomers monitor the activity of the Galactic Core on a daily basis. They also study explosions from the cores of neighboring galaxies. According to Dr. Paul LaViolette, these superwave frequencies coming from our Galactic Core are simultaneously mind-expanding and pulse-quickening. His term for this new physics principal is Subquantum Kinetics. Galactic Core outbursts are the most energetic phenomenon taking place in the universe. The active, quasar-like core of spiral galaxy PG 0052+251, for example, is seen to radiate 7 times as much energy as comes from all of the galaxy’s stars. Most of this energy is emitted in the form of high energy cosmic ray electrons accompanied by electromagnetic radiation ranging from radio wave frequencies to X ray and gamma ray frequencies. LaViolette warns these explosions may have spelled immense changes in climate on earth for past civilizations, and most surely will again.
Contributor: Wesley F Revels
Contributor: Wesley F Revels
