moments

DIPOLE MOMENTS
The fields of stars, planets, and black holes capture dipole moments induced by rotation of their ionized cores, transforming the momentum of moving charges into moments, a vector force which increases momentum of orbiting ions in the direction of core rotation powering super-rotation of solar and planetary atmospheres and high velocity ring currents around stars, planets and black holes at galaxy centers.

Atmospheric super-rotation is a phenomenon where a planet’s atmosphere rotates faster than the planet’s rotation. This is observed in the atmosphere of Venus, Titan, Jupiter, and Saturn. Venus exhibits the most extreme super-rotation, with its atmosphere circling the planet in 4 Earth days, much faster than its planet’s own rotation in 243 earth days.

The Sun exhibits differential rotation, meaning different latitudes rotate at different speeds. The equator rotates faster than the polar regions. Specifically, the Sun’s equator completes a rotation in 25 Earth days, while the polar regions take 36 days or more.

BLACK HOLES

Black holes can spin extremely fast, approaching the theoretical maximum which is 84% of the speed of light. Some black holes, like GRS 1915+105, have been observed to rotate over 1,000 times per second, close to the theoretical limit.

Black hole fields capture moments induced by rotation of their ionized cores which powers ring currents which transform the momentum of moving charges into dipole moments and sum of moments into a field along the rotation axis with like pole to ions away from the anticlockwise face, and away from the clockwise face in antimatter universes.

Black hole accretion disk frictional forces denature infalling stellar objects into photons ions and electrons, ionized ferrite fragments, which cross the event horizon and increase the mass and momentum of core rotation, lighter elements which denature into ionized gas and stardust, electrically attracted in high velocity plumes to the like pole of the field induced by ring current rotation to electrons

ORBITAL MOMENTUM

The angular momentum of an orbiting body is the product of the mass, orbital velocity and radius of an orbiting body, a vector force pointing away from the center of mass of the orbited body, balancing gravity between the orbiting and orbited body. and increasing the mass or velocity of an orbiting body has a multiplier effect on the orbital momentum,

Scientists thought they knew the rate at which the giant moon Titan is moving away from Saturn, but they recently made a surprising discovery: Using data from NASA’s Cassini spacecraft, they found Titan drifting a hundred times faster than previously understood — about 4 inches/year.

Saturns rings, ionized by sunlight, attract electrons from deep space and Titan captured electrons from the rings on field lines propagated around the orbital path, capturing electrons from the rings, and moments induces by Saturn’s core power currents of trapped electrons whiuch electrifies Titan’s surface.

Electrification of Io’s surface induces a voltage potential between Io’s surface and core where electrons transform into field lines and photons induced by mantle heating transform into electron positron positron pairs, electrons are captured by the field, resulting in residual positrons which merge in trios.

Trios transform in exothermic reactions into mantle elements which increases Titan’s mass and orbital momentum, product of Titan’s mass, velocity and orbital momentum. The increase in Titan’s mass increases Titan’s orbital momentum and orbital radius by 4 inches per year

Southwest Research Institute Scientists identify incredibly powerful winds in Jupiter’s atmosphere for the first time. The team used molecules exhumed by the 1994 impact of comet Shoemaker–Levy 9 to trace winds in excess of 900 miles per hour near Jupiter’s poles.

The high velocity ring current of heavy ions around Io’s orbital path, is powered by moments captured by Jupiter’s field and blocked by Io’s mass which slows the current and increases Io’s velocity and orbital momentum.

Io orbits Jupiter with a velocity of 17 km/sec. The Io plasma torus rotates with a velocity of about 74 km/sec. Since Io is embedded in the Io plasma torus, the torus plasma flows past Io with a relative velocity of 57 km/sec.

Io’s plasma torus attracts electrons from deep space and Io and Europa capture electrons from the plasma torus on field lines, propogated around their orbital paths, grounded on their surface, which conduct high velocity counterflowing currents, powered by moments captured by Jupiter’s field which electrifies the surface of the moons.

The electrified moons induce a voltage potential between the moons and Jupiter which powers high amperage currents along field lines grounded in Jupiter’s atmosphere inside the auroral ovals and the electrified surface induces a voltage potential between the surface and core where electrons transform into field lines, powering core electric currents.

The magnetosphere of Jupiter sweeps up gases and dust from Io’s thin atmosphere at a rate of 1 tonne per second. This material is mostly ionized sulfur, oxygen and chlorine; atomic sodium and potassium; molecular sulfur dioxide and sulfur, and sodium chloride dust.

Io’s volcanism has led to the formation of hundreds of volcanic centers and extensive lava formations, Lava flows tens or hundreds of kilometers long have primarily basaltic composition, similar to lavas seen on Earth at shield volcanoes such as Kilauea in Hawaii.

Jan 29, 2025 – JUNEAU DETECTS MASSIVE MAGMA LAKE near Io’s South Pole larger than Earth’s Lake Superior, and belches out eruptions six times the total energy of all the world’s power plants.