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SOLAR DYNAMICS

Deep space is electrified by jets from wormholes and UV starlight ionizes atoms, freeing electrons, and attraction between electrons and solar wind ions induces a voltage potential between stars and deep space powering solar electric currents which transform the voltage potential into kinetic energy until the electrical resistance of solar coronas transform kinetic energy into photons.

The corona radiates photons outward as starlight and downward, heating the ferrite core surface below the mantle where photons transform into electron positron pairs and electrons transform into solar field lines, resulting in residual positrons which merge in trios, trios are trapped by electrons, and transform into protons and de-ionize into liquid hydrogen composing the solar mantle.

The Solid Solar Surface Model is based upon observations from the YOHKOH, SOHO and TRACE satellite programs, from spectral analysis data compiled by the SERTS program. This “running Difference” image of the sun’s surface was captured by SOHO. This NASA image was taken on May 27th 2005 at 19:13 using the 195A filter that is sensitive to iron ion emissions.

Transformation of photons into protons cools the core surface and the surface of the mantle is cooled by endothermic change of state from liquid to ionized gas solar wind which escapes through coronal holes and sunspots.

Temperatures in the corona are upwards of 2 million degrees Fahrenheit, while just 1,000 miles below, the underlying surface simmers at a balmy 10,000 F. How the Sun manages this feat remains one of the greatest unanswered questions in astrophysics; scientists call it the coronal heating problem.

The cores of the sun and the gas giants, Jupiter and Saturn, are rotating arrays of equal radius ionized spheres draped in ferrite boundary layers and embedded in fields which capture the repelling force between core ions, and dipole moments induced by rotation of moving charges which induces a field electrically attracting orbiting ions in the direction of core rotation.

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Accretion disks around black holes powered by momentum of infalling matter transform the angular momentum of moving charges into moments and sum of moments as a field along the disk rotation axis with like pole to disk ions along the rotation axis away from the anticlockwise ring current face.

An accretion disk is a swirling structure of hot gas and dust that forms around a black hole as matter falls towards it. This process is called accretion, and it’s how black holes grow by consuming material. The disk becomes extremely hot due to friction between the swirling particles, and the resulting energy is emitted as radiation, including X-rays.