Dark matter phase transitions could be a primary climate driver. If the solar system passes through an area of higher liquid dark matter content the planets cores would all receive more heat due to increased phase transitions thus heating the earth from the inside out.
Heating of the planet from the inside out would result in :
Increased ground temperatures
Increased sea temperatures
Increased nighttime temperatures
Increased seismic activity
Increased earthquakes
We are currently passing through the S1 dark Matter stream
June 3 2020 Venus Earth conjunction
July 2020 Siberian heatwave and Antarctica temperature spike
Aug 2 2021 Saturn opposition
Aug 19 2021 Jupiter opposition
Jan 9 2022 Venus Earth conjunction
March 18 2022 Concordia Station spiked 39 C degrees due to unusual air patterns near Australia
North Pole regions hit 30C above normal
Aug 14 2022 Saturn opposition
Sept 16 2022 Jupiter opposition
Aug 13 2023 Venus Earth conjunction
Aug 25 2023 Saturn opposition
Oct 28 predict a major heat release in the Arctic and Antarctic due to combined tidal affects on the dark matter sphere around the sun in combination with the movement of the barycentre of the Earths location
Nov 2 2023 Jupiter opposition
Venus atmospheric temperatures from 2009-2017 also were higher after conjunctions
NASA issued a climate change warning for Mars after Mariner 9
Neptune has been heating up since 2018
The reason that we can not find dark matter is that some is outside of spacetime and some composes the fabric of spacetime.
Around the sun there is a churning sphere of dark matter that extends to the Alfven limit and is rotating around the barycenter of the solar system. The more offset between the 2 spheres the more turbulence is generated. More turbulence means more LDM phase transition and much like a pot of water boiling over, the bigger the sphere of DM encasing the sun becomes. These two co-rotating spheres with different canters of gravity and the varying size of the dark matter sphere(Alfven limit) may be responsible for the butterfly effect of the sunspot patterns.
All of the planets in the solar system cause tides on this sea of dark matter. Jupiter has the most pull by an order of magnitude followed by Venus at double the Earth’s pull which is slightly more than Saturn’s.
Dark matter is always raining down into the suns gravity well and clouds of dark matter are also constantly overflowing the gravity well. Some clouds are carried by the solar wind and some influenced by the tides of the planets. When there are conjunctions there are more clouds heading in that direction due to the increased tidal bulge of the dark matter sphere. These clouds are composed of a mixture of Liquid (LDM) and Gaseous (GDM) Dark Matter. When LDM reaches a low enough value of gravity and velocity it vaporizes releases heat and expands explosively becoming one of the primary drivers of the LDM circulation. The GDM that is accelerated further into the sun is condensed by the increasing gravity, absorbs heat and continues to circulate. If these vortices reach the zero G equivalent they vaporize and like CO2 in your soda head out of the gravity well. The majority leaves through the poles of the sun as GDM some condenses back to LDM on the way out cooling the suns poles and some causes sunspots and both result in more intense bursts of the solar wind as it collapses outward. I believe the heat transfer is accomplished by waves of Quarks and Leptons vibrating in and out of spacetime each one transferring heat in the process.
The outward accelerated dark matter separates with higher concentrations of LDM near the plane of the solar system while the GDM tends to float up and away from the gravity well. If it encounters an object with enough mass it can condense and if that objects gravity well overflows it will form clouds of gas/dust/dark matter which will eventually rain back down into the gravity well. The LDM that encounters planets will fall into their gravity well only to be spun off again. The LDM that doesn’t encounter anything will eventually slow to a stop and fall back toward the sun again.
Heating of the planet from the inside out would result in :
Increased ground temperatures
Increased sea temperatures
Increased nighttime temperatures
Increased seismic activity
Increased earthquakes
We are currently passing through the S1 dark Matter stream
June 3 2020 Venus Earth conjunction
July 2020 Siberian heatwave and Antarctica temperature spike
Aug 2 2021 Saturn opposition
Aug 19 2021 Jupiter opposition
Jan 9 2022 Venus Earth conjunction
March 18 2022 Concordia Station spiked 39 C degrees due to unusual air patterns near Australia
North Pole regions hit 30C above normal
Aug 14 2022 Saturn opposition
Sept 16 2022 Jupiter opposition
Aug 13 2023 Venus Earth conjunction
Aug 25 2023 Saturn opposition
Oct 28 predict a major heat release in the Arctic and Antarctic due to combined tidal affects on the dark matter sphere around the sun in combination with the movement of the barycentre of the Earths location
Nov 2 2023 Jupiter opposition
Venus atmospheric temperatures from 2009-2017 also were higher after conjunctions
NASA issued a climate change warning for Mars after Mariner 9
Neptune has been heating up since 2018
The reason that we can not find dark matter is that some is outside of spacetime and some composes the fabric of spacetime.
Around the sun there is a churning sphere of dark matter that extends to the Alfven limit and is rotating around the barycenter of the solar system. The more offset between the 2 spheres the more turbulence is generated. More turbulence means more LDM phase transition and much like a pot of water boiling over, the bigger the sphere of DM encasing the sun becomes. These two co-rotating spheres with different canters of gravity and the varying size of the dark matter sphere(Alfven limit) may be responsible for the butterfly effect of the sunspot patterns.
All of the planets in the solar system cause tides on this sea of dark matter. Jupiter has the most pull by an order of magnitude followed by Venus at double the Earth’s pull which is slightly more than Saturn’s.
Dark matter is always raining down into the suns gravity well and clouds of dark matter are also constantly overflowing the gravity well. Some clouds are carried by the solar wind and some influenced by the tides of the planets. When there are conjunctions there are more clouds heading in that direction due to the increased tidal bulge of the dark matter sphere. These clouds are composed of a mixture of Liquid (LDM) and Gaseous (GDM) Dark Matter. When LDM reaches a low enough value of gravity and velocity it vaporizes releases heat and expands explosively becoming one of the primary drivers of the LDM circulation. The GDM that is accelerated further into the sun is condensed by the increasing gravity, absorbs heat and continues to circulate. If these vortices reach the zero G equivalent they vaporize and like CO2 in your soda head out of the gravity well. The majority leaves through the poles of the sun as GDM some condenses back to LDM on the way out cooling the suns poles and some causes sunspots and both result in more intense bursts of the solar wind as it collapses outward. I believe the heat transfer is accomplished by waves of Quarks and Leptons vibrating in and out of spacetime each one transferring heat in the process.
The outward accelerated dark matter separates with higher concentrations of LDM near the plane of the solar system while the GDM tends to float up and away from the gravity well. If it encounters an object with enough mass it can condense and if that objects gravity well overflows it will form clouds of gas/dust/dark matter which will eventually rain back down into the gravity well. The LDM that encounters planets will fall into their gravity well only to be spun off again. The LDM that doesn’t encounter anything will eventually slow to a stop and fall back toward the sun again.