Read Electromagnetic Pulse Online
Authors: Bobby Akart
The assassination of an Archduke precipitated World War I, but the underlying causes were geopolitical tensions in Europe. Twenty million people died during the war, followed by another seventy million post-war due to famine and the Spanish Flu. Are we naive to think that something like this couldn't happen again?
Geopolitical tensions
– sound familiar?
Tensions arising from invasions of other sovereign territories around the world were the principal cause of World War II. It escalated into a global conflict with the Japanese attack on Pearl Harbor. Today, Russia has invaded Ukraine. China prepares to exert more of its dominance in Asia. ISIS is taking over large parts of the Middle East to form an Islamic State. Some might say—
not our problem
. But what if one of the
bad actors
mentioned above decide to make it our problem with an attack on the heartland along the lines of Pearl Harbor? Is that so implausible? Remember 9/11?
What if
?
America is Attacked by Terrorists
We are vulnerable to attack because of our desire to provide freedom to all Americans, but especially because of political correctness. We are not allowed to use racial profiling to identify a potential terrorist. Our southern border is a sieve. We refuse to ban flights from Ebola-stricken countries for fear of being labeled racist. Our military has been weakened by prolonged wars and budget cuts.
Our enemies can come at us in so many ways. A day does not go by without news of a cyber-terrorism incident. What if these cyber attacks are just a series of trial runs before one massive, coordinated attack on our banking, governmental and utility servers? An electromagnetic pulse delivered by a nuclear warhead or a series of electromagnetic pulse weapons fired at strategic locations across the country could bring down our power grid. For the first time, Russia has more deployed nuclear assets than the United States does. Can you say
outnumbered
?
What if
?
Widespread Pandemic or BioTerror
Our government was intent on
calming the fears
of the American people as to the likelihood of the Ebola virus hitting US soil. The presence of the Ebola virus came as a result of bringing Ebola-stricken health care workers into the country. Keep in mind, that these were people who were experts in treating Ebola and who were provided all of the necessary equipment to prevent contracting Ebola. As the CDC was calming our fears, a Nigerian national flew into Dallas with Ebola, potentially infecting hundreds and ultimately dying while in the government's care.
The question has to be asked—
What is wrong with a little fear amongst the masses
?
Fear is a great motivator. It is designed to be compelling, so that we take survival action in the form of fight, flight, or freeze.
In 1763, the British fortress at Fort Pitt in Delaware was under siege. Letters were exchanged between British General Jeffrey Amherst and Colonel Henry Bouquet as to proposed defensive tactics.
General Amherst suggested: "
Could it not be contrived to send the Smallpox among those disaffected tribes of Indians
?"
Weaponized smallpox. Is it not plausible that our enemies could weaponize Ebola? In the name of Jihad, is it not possible that one would contract the Ebola virus and enter the United States with the intention of creating a pandemic? The news outlets that raise these possibilities are labeled fear mongers and racists. But have you noticed that Amazon is selling out of particulate masks and other bio-hazard supplies? Fear is a great motivator.
What if
?
Near Earth Object – SuperVolcano Eruption – Natural Disaster
Any of the above naturally occurring events could wreak havoc on our power grid, our atmosphere, and our climate. These are not the catastrophic events known only in science fiction movies. There is a historical precedent for them all.
A major earthquake along the New Madrid Fault in the central United States could collapse bridges over the Mississippi River. An earthquake of this magnitude, along the New Madrid happened before in 1811 and 1812. The New Madrid Seismic Zone (NMSZ) is comprised of eight states: Alabama, Arkansas, Illinois, Indiana, Kentucky, Mississippi, Missouri, and Tennessee.
The Wabash Valley Seismic Zone (WVSZ) in southern Illinois and southeast Indiana, together with the East Tennessee Seismic Zone (ETSZ) in eastern Tennessee and northeastern Alabama, constitute a significant risk of moderate-to-severe earthquakes throughout the central region of the USA.
Studies indicate that Tennessee will incur the highest level of economic damage and societal impact. According to the Mid-America Earthquake Center, over 300,000 buildings would be moderately or more severely damaged, over 290,000 people would be displaced and well over 70,000 casualties would be expected. Total direct economic losses would surpass $56 billion. Those results focus on the immediate effects of the massive earthquake itself. As preppers, we consider the additional impact in the form of societal unrest — looting, death from sickness, and murder.
The States of Missouri, Arkansas, Kentucky, and Illinois would also incur significant losses. Studies indicate a potential direct economic loss would reach over $150 billion.
The indirect financial loss due to business interruption and loss of market share is at least as high, if not far greater than, the direct economic losses. Scientists and economists predict the total financial impact of a series of NMSZ earthquakes would be likely to constitute the highest loss due to a natural disaster in U.S. history.
The economic losses and societal impact for each state should be considered separately. Since each scenario is based on a different hazard, adding results together will not reflect an accurate scenario. It’s hard to gauge the potential loss of life arising from a natural disaster of this magnitude.
After the earthquake, critical infrastructure and lifelines will be heavily damaged and will be out of service for a considerable period. The resulting collapse of the power grid and transportation routes are likely to affect a region much larger than the eight states referenced above. Many hospitals nearest to the epicenter will not be able to care for its patients. Many of those injured during the disaster will have to be transported outside of the region for medical attention. Moreover, pre-disaster patients will be required to continue their care outside of the area, at fully functioning hospitals.
It is doubtful that the transportation system will be intact. Damage to the transportation system will hinder mass evacuation efforts. First responders will be severely impaired due to police and fire stations throughout the impacted region. Public shelters will be damaged and unusable after the earthquake.
The scenario described for a New Madrid Zone earthquake can be applied to other catastrophic disaster events. Strikes by bjects, NEOs, such as asteroids, can be extinction-level events. Likewise, a massive eruption of the Yellowstone SuperVolcano could result in climate change that would alter the entire food production system of the Northern Hemisphere.
What if
?
The Deadly Threat of a Coronal Mass Ejection – Solar Flare
A powerful electromagnetic pulse, whether resulting from a nuclear-delivered EMP or a massive solar storm, could collapse the power grid and the critical infrastructure of our nation.
What are solar storms?
Every minute, enormous eruptions of magnetically-charged plasma are emitted from the sun's roiling interior, exploding outward into space. Known as coronal mass ejections, or CME, these moderate solar storms occur fairly regularly and harmlessly, sometimes causing spectacular auroras that illuminate the sky over the North and South poles. But even typically benign solar storms generate energy many times more powerful than our planet’s combined nuclear arsenals.
Is the threat real? Renowned American astronomer, Phil Plait, who is a self-proclaimed skeptic, is known as The Bad Astronomer because of his work in debunking common misunderstandings about space events. "People sometimes ask me if anything in astronomy worries me," says Plait, when asked about the threat of a deadly CME. "Something like this is near the top of the list."
There is good reason to be concerned. A National Academy of Sciences study found there is a twelve percent chance that a monster solar storm will strike Earth within the next decade. A solar event of that magnitude could cause two trillion dollars’ worth of damage in the first year of recovery alone—twenty-times the cost of Hurricane Katrina.
But, what about the human cost? Studies frequently cite economic loss. How would the destruction of the power grid and other critical infrastructure; like the internet, banking, and government be affected? Has such a storm ever hit Earth?
Yes, several times. Imagine our way of life without power for weeks on end, as a result of a massive solar flare striking the Earth. It happened in 1859, in what is commonly referred to as the Carrington Event.
On Sept. 1, 1859, British astronomer Richard Carrington noticed a brilliant solar flare over England. In the days that followed, a succession of coronal mass ejections struck Earth head-on. Auroras illuminated the night sky from Africa to Hawaii. "The light appeared to cover the whole firmament," one Baltimore newspaper reported. "It had an indescribable softness and delicacy." The effects were more than aesthetic. EMPs from the storm caused telegraph systems — known as the
Victorian internet
— to fail throughout North America and Europe; in some cases, lines sparked and offices caught fire. Otherwise, the damage was minimal.
Nonetheless, for telegraph operators in the Americas and Europe, the experience caused chaos. Many found that their lines were just unusable—they could neither send nor receive messages. Others were able to operate even with their power supplies turned off, using only the current in the air from the solar storm.
From historical reports, one telegraph operator said, "The line was in perfect order, and skilled operators worked incessantly from eight o'clock last evening until one o’clock this morning to transmit, in an intelligible form, four hundred words of the report per steamer Indian for the Associated Press."
Other operators experienced physical danger. Washington, D.C. operator, Frank Royce said, "I received a very severe electric shock, which stunned me for an instant. An old man who was sitting facing me, and but a few feet distant, said that he saw a spark of fire jump from my forehead to the sounder."
At the time, the telegraph was a new technology and never experienced technical difficulties of this type. But the story offers an important warning for modern society. The Carrington Event provides evidence of the fragility of electrical infrastructure. Scientific American reported in October of 1859: “The electromagnetic basis of the various phenomena was identified relatively quickly. A connection between the northern lights and forces of electricity and magnetism is now fully established."
This event was long before humanity became utterly reliant on electronics — as it was when history repeated itself 153 years later.
In 1989, a far smaller solar flare sent a pulse of radiation that left six million people in Quebec without power for up to nine hours. Much more alarming, was a solar super storm that barely missed Earth in July 2012. Astronomers say the sun spewed out a huge magnetic cloud that tracked straight through our planet’s orbit. Fortunately, for civilization, the Earth was elsewhere in its path around the sun at the time but had the storm roared through nine days earlier, a worst-case scenario would have occurred. Satellites involved in crucial global communications (including GPS) would have been ruined, large electrical transformers would have been destroyed, and ATMs would have stopped functioning. The internet would have been disabled on a massive scale. Most people wouldn't have been able to flush toilets, which rely on electric pumps.
Three years later, "we would still be picking up the pieces," says astronomer Daniel Baker. "The July 2012 storm was, in all respects, at least as strong as the Carrington Event. The only difference is,
it missed
."
In a word—TEOTWAWKI—
T
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Over the last one hundred and fifty years, the world’s critical infrastructure has become a more integral part of daily life. In the nineteenth century, telegraphs composed a comparatively small and relatively non-essential part of everyday life. Their successors today—including the electrical grid and much of the telecommunications network—are essential to modern life.
Is the current system any more protected from catastrophic interference than the telegraph of the nineteenth century? Can the power grid handle a terrorist attack, or severe weather events, or a solar storm?
There has never been a real test to prove it, but there is a robust debate about the vulnerability of the power grid. The most dangerous and costly possibilities for major catastrophes, the collapse of the nation’s critical infrastructure, might visit the United States from any number of methods.
One scenario is a repeat of the solar storm as big as the 1859 Carrington Event. A solar event of this magnitude hasn't struck the earth since, although there have been smaller ones. As a result of the Quebec blackout in 1989, there were complications across the interconnected grid and a large transformer in New Jersey permanently failed.
In 2003, residents of the northeastern United States experienced a grid-down scenario. It doesn't take an unprecedented solar flare to knock out power. The combination of a few trees touching power lines, and a few power companies asleep at the wheel, plunged a section of the nation into darkness. The darkness can spread. As the difficulties at Ohio-based FirstEnergy grew and eventually cascaded over the grid, electrical service from Detroit to New York City was lost. The 2003 event was a comparatively minor episode, compared to what might have happened. Most customers had their power back within a couple of days and the transformers were relatively unaffected.