2/ There are at least ten more of such underwater volcanoes in the Mediterranean. The volcano has erupted nine times in the previous two thousand years with the last blast occurring in 1950.https://t.co/KAlO3dvwTa
CIA Classified Book about the Pole Shift, Mass Extinctions and The True Adam & Eve Story (27 min)
This is doom mongering. There will be no global Tsunami. Magnetic excursion occurs regularly. There will be increased radiation, seismic and volcanic activity. The sun will flare to throw of the accumulated dust etc brought by the galactic sheet. There will be regional tsunamis and probably arc discharges (electric). Our ancestors survived this many times. Civilization will not survive this but many people will.
Solar Watch, Big CME, More Air Trouble, Magnetic Sense | S0 News Jan.12.2023 (4 min)
THIS CHANGES EVERYTHING | Graham Hancock Interview (32 min)
I know Brand is a Masonic shill but it is important to hear what Hancock has to say.
CO-ROTATING INTERACTION REGION: NOAA forecasters say that a CIR (co-rotating interaction region) could hit Earth’s magnetic field on Sept. 17th. CIRs are transition zones between slow- and fast-moving solar wind streams. Solar wind plasma piles up in these regions, producing shock-like structures that can mimic CMEs and spark bright Arctic auroras. Solar flare alerts:SMS Text.
THE STARLINK INCIDENT: A minor geomagnetic storm is supposed to be minor. That’s why even experts were surprised on Feb. 4, 2022, when dozens of Starlink satellites started falling out of the sky. A weak CME had hit Earth’s magnetic field, and the resulting G1-class (minor) storm was bringing them down:
Above: A Starlink satellite breaks up over Puerto Rico on Feb. 7, 2022. Credit: The Sociedad de Astronomia del Caribe
How could this happen? A new paper published in the research journal Space Weather provides the answer.
“Although it was only ‘minor,’ the storm pumped almost 1200 gigawatts of energy into Earth’s atmosphere,” explains lead author Tong Dang of the University of Science and Technology of China. “This extra energy heated Earth’s upper atmosphere and sharply increased aerodynamic drag on the satellites.”
SpaceX launched the satellites from Cape Canaveral on Feb. 3, 2022. Forty-nine (49) Starlinks were crowded inside the Falcon 9 rocket; less than a quarter would survive.
The Starlink launch was sandwiched between two minor geomagnetic storms (right) possibly caused by an Earth-directed CME that left the sun on Jan. 30th (left) pic.twitter.com/ZhI2LesRND
As was SpaceX’s practice at the time, the satellites were deployed at an altitude of 210 km–their first stop en route to an operational altitude near 600 km. In the satellite business, 210 km is considered to be low, barely above the atmosphere. SpaceX starts there in case any satellite malfunctions after launch. From 210 km, a “bad sat” can be easily de-orbited.
A little too easily, as it turns out.
Using a physics-based computer model named “TIEGCM,” Dang and colleagues simulated conditions during the storm. As geomagnetic energy heated Earth’s atmosphere, the air density at 210 km increased globally by 20% with “hot spots” as high as 60%. This movie shows what happened:
Starlink dodged the worst spots. “The satellites did not hit any of the 60% regions,” says Dang. “But that didn’t save them.” The weaker 20% enhancements were enough to bring down 38 out of 49 satellites.
To prevent a repeat, SpaceX has started launching to 320 km instead of 210 km. Earth’s atmosphere has to reach that much higher to drag the satellites back during a geomagnetic storm. Since the change, more than 1200 additional Starlink satellites have been launched on 24 rockets without incident.
There’s still danger, though. “Air density at 320 km is an order of magnitude less (compared to 210 km), but it’s not completely safe,” cautions Dang’s co-author Jiuhou Lei, also from the University of Science and Technology of China. “During an extreme geomagnetic storm, density could increase from 200% to 800% even at these higher altitudes.”
Extreme storms may be in the offing. Young Solar Cycle 25 is just getting started. The profusion of minor storms we are observing today will intensify in the years ahead especially as we approach Solar Max around 2025.
Recent Findings From Iceland’s Fagradalsfjall Eruptions Change What We Know About How Volcanoes Work (11 min)
I got this from Ben’s comment on Suspicious Observers under his video. Watch the S.O. video (the last video) it is only 4 minutes long and is good. Things will be changing rapidly in the next few years. Don’t believe the lies and keep your faith. This was his comment:
The good old days may not return, and rocks might melt, and the sea may burn.Pretty sure Tom knew something.
This is from 22 hours ago very worth while watching the animated graphic on island formation in the Canary Islands.
La Palma Volcano Update: No Significant Changes In Intensity Of Eruption – Seismicity Increasing Now (15 min)
10/07/2021 — Large planet wide movement — Earthquake activity increase across whole regions (1:19)
The large spread from the deep M7.3 this past week is now taking place. M5.9 to M6.0+ spreading out and away in all directions from the M7.3 deep location . Europe due for M5.9 to M6.0 by the Greece Albania border, Southern California due for M5.0 to M5.9 by the oil spill location. Japan still due for more activity possibly larger yet still than the M5.9 which struck Tokyo. New seismic increase likely due at La Palma Canary Islands, possibly going up to M5.0+ (already at M4.3). Hawaii may also go up another notch to M5.0 range in the next few days.Pacific Northwest USA due as well for M5.9 like the rest of the planet is experiencing.It's going to be a busy next 7 days!
Here follows Diamond’s report followed by Ben from Suspicious Observers (that posits minimal risk). However, in his previous video Diamond showed that activity in the Canary Islands was linked with increased activity near Gibraltar. That indicates widespread geographical risks.
La Palma Island (Canary Islands): Earthquake Swarm Slows – Magma Intrusion Uplift Of 6cm – Grímsvötn (7 mins)
As we were all watching for, a new M4.0 (M3.9) earthquake struck Kansas , North of the Oklahoma border. The plate is shifting , following the craton edge from the West coast to the East coast. The East coast was struck as well, along the Canada New York border region next to Vermont + New Hampshire . The West coast is slow slipping with hundreds of tremors in Northern California, spreading down the coast and over to a series of HOT SPOTS at the California Nevada border around Mono Lake and the Long valley supervolcano caldera. The hot spots can be seen from the GOES satellite thermal view plugin from google earth : https://fsapps.nwcg.gov/googleearth.p… These unknown odd hot spots also are showing in a series of clusters around volcanic features in the deserts of Arizona (Northeast of the San Francisco Volcanic field and North of the Indian Wells volcanic center). The weather satellite is filtering out these “hot spots” as the computer doesn’t know what to make of them. The only thing we know, these hot spots are accompanied many times by earthquakes, and many times show up at fault + volcanic locations directly during times when the plate is shifting in a more noteworthy fashion than normal.
3/14/2021 — California + Arizona VOLCANIC HOT SPOTS on Weather Satellite — Midwest shifts w/ M4.0
Magnetic Shift, Earth Skeleton, Earthquake/Volcano Watch | S0 News Mar.15.2021
This Diagram of Earth Is a Lie
P.S. In this video he says that magnetic reversals take millions of years – that is a lie to (lol)
Seismology I: Introduction to Observational Surface Wave Seismology
LLSVP =Large low-shear-velocity provinces, LLSVPs, also called LLVPs or superplumes, are characteristic structures of parts of the lowermost mantle (the region surrounding the outer core) of Earth
ULVZ = Ultra low velocity zones (ULVZs) are patches on the core-mantle boundary that have extremely low seismic velocities. The zones are mapped to be hundreds of kilometers in diameter and tens of kilometers thick. Their shear wave velocities can be up to 30% lower than surrounding material. The composition and origin of the zones remain uncertain. The zones appear to correlate with edges of the African and Pacific Large low-shear-velocity provinces (LLSVPs) as well as the location of hotspots.