Thursday, August 28, 2014

Streaming Gravel Road Detected in the Orion Molecular Cloud Refutes Gravity Theory

Gravel sized rocks up to 1 cm in size are likely streaming by electric fields, inside 10 light year long filaments, that will form new planets more rapidly then the old theory.

Streamers of gravel forming a vast cosmic sized structure resembling a winding road in space, has been detected by NRAO in the nearby Orion molecular cloud. 

Sand and gravel particles streaming by electric fields, like how dust devils form, represents the perfect observational model of the Orion molecular cloud star filament OMC-2/3 :

Thunderbolts: "Electric Dust Devils in Arizona"

Electric Sand Findings in Arizona Dust Devils

The rubbing together of cosmic dust produces enormous electric and magnetic fields that shapes the universe. The strong blowing supernova winds produce electric fields in the same way.

Dusty filament in outer space with black colored methanol molecules that are involved in forming new stars. 3 stars are seen as bright dots.

Pebble sized Rocky Fragments Comprise a New Class of Objects in Outer Space

Gravel detection up to 1cm in size, is being called a new class of rocky particles. This observationally defies and refutes quantum gravity theories and cosmic gravity. Electromagnetic forces shape and form everything. Magnetic levitation may also be involved.
The filaments helped the dust grains grow to such unusual proportions.
Map of the gravel detection in Orion in an otherwise boring paper. The theory seems likely that these grains rapidly grow to gravel sizes by being near to or inside filaments.

 Magnetic levitating rocks
These streaming rubble pile paved highways are a fast way to travel, if you're not using an outdated vehicle technology.

Only one asteroid over 150 miles in size is known to not be a rubble pile held together by electromagnetic vander walls forces. Now, we find evidence of large cosmic structures held together by long range forces that defy gravity theory.

Friday, August 22, 2014

Whirlpool Galaxy M51 Studied by LOFAR for a Magnetic Connection to Intergalactic Space

Magnetic monopole animation
Electric Universe Thunderbolts Feature Story: "Galactic Magnetic Fields and LOFAR

For charged particles to move there must be circuits, said Haanes Alfven. Moving electric charges are electric currents, and moving magnetic charges are magnetic currents. Both are associated together and always found in equal ratios.
In labs, the quantized spin rate of a resonant helium superfluid spins friction free with zero viscosity, near absolute zero. Quantized vortices carry angular momentum by electric currents inside filaments with associated magnetic fields, bubbles, and jets.

The cosmic ray supernova driven dynamo of electricity, magnetism, plasmas, and superfluids, replaces the gravity dynamo of bow shocks, neutral gas turbulence, and neutral superfluid neutron stars and black holes. Clearly obvious is that the universe is far from being overall neutral as required for the big-bang.

LOFAR team leader Rainer Beck says "Maybe we will see how galaxies are magnetically connected to intergalactic space." This would be proof that magnetic fields are forming stars and shaping galaxies, instead of gravity. Galaxies are connected together like electric and magnetic circuits, and not to intergalactic space.

Whirlpool Galaxy M51

Lab used to study astrophysical jets produces a magnetic bubble with a nested cavity by a central electric current jet and an associated magnetic field. Stars form and stream inside electrical filaments on magnetized spinning bubbles.

New Outer Space Stories - RSS Feeds

Cheap handheld Holographic microscope

Build your own CLOAKING DEVICE from magnetic tape and off-the-shelf superconductors

EM Black Hole Device without Gravity

Type II SUPERCONDUCTORS constrain the magnetic field in FILAMENTS surrounded by vortex currents.

Type II SUPERCONDUCTORS constrain the magnetic field in FILAMENTS surrounded by vortex currents.
Superfluid helium is a type II superconductor that carries angular momentum by electric currents in quantized vortices