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Mind Map - Nebular theory - Coggle Diagram
Mind Map - Nebular theory
Nebular hypothesis
Emanuel Swedenborg
Turbulence
gas drifting outwards
Growth of both the protostar
mixing of materials
gravitational instability
move to other orbit
stochastic growth
1 more item...
Some problems of the nebular Theory
A disk of dust doesn’t become turbulent
just like that.
How such heat?
The accretion disk is radially symmetrical.
No reason to get small and iron-rich planets
close to the Sun and large rocky gas-planets far from the Sun.
No reason why there is dust
"Sweep up" of planetesimals
by gravity doesn’t make any sense
A solar explosion?
Magnetic environment
susnpots are found to be involved
will follow the magnetic lines and screw
scenario
sun's temperature should comply
neutral sum
distances of planets should comply
the chemical composition should comply
the planet sizes should comply
The scenario
a sunspot and its surroundings erupted from the Sun
the eruption followed a magnetic line
It screwed around the magnetic line
positive helix- negative helix=0
Testing the scenario
solar temperature vs planetary dynamics
the planetary system was created 4.5 billion years ago, allowing a slightly slower rotation velocity of Jupiter
Brio
the relative orbit radii of the gas planets
The orbit swivels towards the poles, then swivels beyond the poles and arrives to the other side of the poles, where the formerly retrograde orbit becomes prograde by definition.
Brio
mass to electric charge ratios for the planets
When considering all the electrons being ionized, I findthat the mass of the ejected sunspot equals about 12 x 1024 kg, which is nearly exactly the mass of the core planets!
brio
The totality of the ionized electrons is related to the creation of the core planets through a balance of impulsion moments that perfectly fits.
the relative orbit radii of the gas planets
same test with the core planets
again come to a fit probability of 98,8% between the initial accelerations of the proto-planets and their actual orbit radii.