[Editor's Note: I've yet to publish a dowse made by Phil Ledoux and Tim 769 in November 2005 (had computer troubles at the time) that indicated that Bush and Cheney were being maneuvered into an impeachment scenario so that the Speaker of the House would take over as President. This would coincide with an attack on Iran and other un pleasantries. It may or may not happen, but it's clear that news articles are being peppered into 'alternative' media to accent the criminal conduct of this regime and you hear the chorus for the Bush /Cheney impeachment rising with each passing day. It's a setup of course. We can use our minds -employing focused intent-to mitigate, neutralize, or even abort earthquakes-even engineered earthquakes. You should keep that in mind.
I'm not totally comfortable with the web site that reports this article. I've been asked to look at other articles posted there in the past and while I find most of the material OK,
I'm slightly suspicious that we may have a Michael Ruppert class of 'researcher' here. Just a hunch, I could be wrong. ..Ken]
http://educate-yourself.org/cn/engineeredcataclysms26feb06.shtml
February 26, 2006
Forward courtesy of Robert Busser <rbusser@charter.net>
http://www.weatherwars.info/index.php?news_id=40&start=0&category_id=&parent_id=0&arcyear=&arcmonth=
Evidence has surfaced indicating the inevitability of major seismic events occurring soon on the western coast of North America. These events will be caused by the aggressive use of scalar tectonic weaponry.
This article lays out a possible scenario, explains the underlying causes and shows examples of where scalar tectonic weaponry is currently in use. Also included is background information that will help the reader understand the nature of seismic events, tectonic plates, volcanoes and scalar tectonics at resonance. Many subject related graphics are available for viewing by clicking on hyper linked words in the article.
Evidence has surfaced indicating the inevitability of major seismic events occurring soon on the western coast of North America. These events will be caused by the aggressive use of scalar tectonic weaponry.
This article lays out a possible scenario, explains the underlying causes and shows examples of where scalar tectonic weaponry is currently in use. Also included is background information that will help the reader understand the nature of seismic events, tectonic plates, volcanoes and scalar tectonics at resonance. Many subject related graphics are available for viewing by clicking on hyper linked words in the article.
In order to gain a clear understanding, we need to learn a little about the nature of earthquake waves.
An earthquake primer
Earthquake durations range from milliseconds up to a few minutes, but the waves set in motion by the largest events can last for days. An easy analogy for this is to imagine a balloon filled with water that is resting in the palm of one hand. If you thump the balloon with the finger of your other hand you can feel the momentary oscillations inside the balloon continue after the impact of your finger. The same thing can be seen visually with a large piece of Jello on a plate when you strike it with a spoon; it jiggles. The Earth is just a bigger piece of Jello to seismic waves.
After a large earthquake, such as the magnitude 9.3 Sumatra event on 26 December 2004, free oscillations of the Earth are observed in the frequency band of 0.3 to 0.7 MHz. The term Hz, or Hertz, is a modern day replacement for the term “cycles per second,” meaning the number of full cycles of a signal, such as a sine wave, per second. The term mHz means milli-Hertz, or one thousandth of a Hertz. Some seismic oscillations are very slow waves that are far below the range of human hearing. The “gravest” of these vibrations has a frequency of 0.3 mHz, These signals are rare because smaller earthquakes do not generate sufficient amplitude for them to be detected.
Traveling waves from earthquakes are traditionally divided into three categories depending on the distance they travel. For example:
Category Distance Frequencies
Local Signals up to ~30 km 0.3 to 30Hz
Regional Signals ~1000 km ~10-1 to ~10Hz
Teleseismic ~10,000 km ~10-2 to ~1Hz
Notice that lower frequencies travel further.
The Earth’s free oscillations, or normal modes, form a fourth traveling wave category. For example:
Category Distance Frequencies
Normal Modes The entire Earth 3x10-4 to ~10-2Hz
Large and deep earthquakes that create the gravest normal mode waves are rare. That’s a good thing because these waves can definitely be “grave” to one’s health.
Whenever an exceptional earthquake comes along, every broadband seismogram on the planet can literally turn black as it registers normal mode frequencies bouncing around inside the Earth for hours on end. Then it all settles down and things are normal once again - for a while.
Another interesting wave is the Earth’s “hum.” This was first observed in recordings of a superconducting gravity meter in the frequency range 0.3 to 0.5 MHz. You don’t hear the hum; you feel it. The source of the hum is still the subject of vigorous research, but scientists in white lab coats theorize that the existence of seasonal variations in the level of the hum suggests an atmospheric or oceanic origin. An array observation technique using the properties of propagating surface waves appears to indicate that a significant portion of the hum may originate in the ocean. It seems that HAARP isn’t on their list of possibilities; they have Mother Nature to blame.
Then there are the strange “explosive booms.” In recent months, these have been increasingly heard in many areas including Missouri, Michigan, Ohio, Alabama, Maryland, from Mississippi to Florida and multiple examples from N. Carolina and the UK. These are thought by some seismologists to be the sudden onset of short, shallow seismic events. Researchers like Larry Parks of Terra Research believe they are from deep events. Some like to point a finger at “scalar tectonic effects.”
The most mysterious seismic events are silent earthquakes. We will come back to this one later.
One of the most significant seismic events of the past 100 years was the magnitude 9.3 earthquake that struck near Sumatra. While the damage and casualties from the earthquake itself were limited to the immediate vicinity of the event, the tsunamis that resulted killed over 150,000 people in ten nations around the Indian Ocean region. Shown here are a series of seismic plots arranged by distance from the station closest to the Sumatra quake. This allow us to see how the quake was recorded at many seismic stations and the propagation delays that occurred because of distance
The green trace at the bottom of the diagram is a seismogram from the Cocos Islands in Australia. The blue trace at the top of the diagram is from Otavalu, Ecuador, which is located near the antipode, or exact opposite side of the earth. It took approximately 75 minutes for the waveform to arrive at the antipode. Also seen in this diagram {R2, R3, R4} are the reflections of the event that bounced back and forth inside the Earth.
The green trace at the bottom of the page also shows a magnitude 7.1 aftershock after the main 9.2 event. Here one can graphically see the awesome propagation power of a 9.3 event compared to the limited propagation of a 7.1 event. However, it should be kept in mind that magnitude 7.1 events are significant and can cause serious damage and loss of life.
On 17 October 1989, a magnitude 7.1 earthquake struck the San Francisco bay area just before the third game of the World Series, collapsing a section of the San Francisco-Oakland Bay Bridge. Sections of the Interstate 280 freeway slammed into one another and collapsed. The damage cost was estimated at almost three billion dollars in San Francisco alone, which represented nearly 50% of the total damage for the entire earthquake zone. The quake killed 62 people and injured 3757. More than 12,000 were left homeless.
Let’s take a look at an isolated, typical earthquake waveform to get a sense of what they look like on a seismogram. Seen here is the trace of a magnitude 5.3 event at Freiburg, Germany on 12 May 2004. This is a free field event recording showing movement in three dimensions, i.e. North-South (X axis), East-West (Y axis) and Up-Down (Z axis.) All earthquakes move in three dimensions, although they are shown as a composite on most seismograms.
The horizontal axis of the diagram is measured in time. This particular seismogram shows a total time of 18 seconds. The vertical axis of the diagram is calibrated in gravitational force units (or ‘G’s,’ as fighter jet pilots like to refer to them.)
As seen on the vertical axis, the ‘0’ point on each seismogram is actually our normal gravity, or 1 g. Above each seismogram waveform is printed the maximum g force for the event and the time of the maximum wave peak. The total time for this seismic event is 14.125 seconds. The peak activity portion lasts for about 5 seconds. This is a good example of a natural earthquake event. Later on we will view seismograms of events that are not natural at all.
Tectonic Plates and Volcanoes
A tectonic plate is a section of the Earth’s crust that is separate from others. If you peel an orange so that the skin forms separate, distinct pieces, each piece is analogous to a tectonic plate. Each piece of orange peel is a part of the whole skin of the orange. A tectonic plate is part of the whole outer shell of the Earth.
Tectonic plates move around. Some rub against each other, some are going away from or towards each other and some are going over or under each other. Some appear to be going nowhere at all. When they are going towards each other, mountains tend to form. When they are going over or under each other, volcanoes tend to form.
Here can be seen a map of the major tectonic plates of the Earth. Smaller, minor platelets are not shown.
Many have heard of the infamous “Ring of Fire.” No, it’s not the title of a movie; it’s a ring of active volcanoes that have formed near tectonic plate margins. Shown here,is a map of the ring of fire, the home of most of the world’s volcanoes. Herein lies a part of the danger to the west coast of North America. To get a sense of the vastness and potential danger of the Ring of Fire, let’s explore part of it visually, beginning with Alaska.
Alaskahas more than 40 active volcanoes located along the Ring of Fire that passes through and forms the Aleutian volcanic Islands. The area is one of constant seismic activity.
In Canada, a series of volcanoes is found in British Columbia. Most of Canada’s volcanoes are located here. Further south, we come to Washington, Oregon and California. Here there is a string of volcanoes from Washington through the southern end of California. This is more familiar territory with volcanoes having names that we know, such as Mt. Baker, Mt. Rainier, Mt. Shasta and Mt St. Helens.
Mt. St. Helens erupted in 1980, devastating an area of about 230 square miles. It deposited more than 75 million cubic yards of sediment into rivers, valleys, and reservoirs. Pyroclastic flows left another 0.05 cubic miles of deposits. One of the flows blocked the shipping channel of the Columbia River, 55 miles downstream. The ash filled eruption cloud hit with such force that it stripped trees bare and broke them off at ground level. The temperature inside the cloud was over 500ºF and started many fires. The eruption killed 57 people, but one must remember that Mt. St Helen’s is situated in an isolated area.
At 14,000 feet in height, Mt. Rainier is the highest volcano in the Cascade Range. It poses a significant hazard to over 2.5 million people who live in the nearby Seattle-Tacoma metropolitan area. We will return to comment on this volcanic mountain later.
In Mexico,more volcanoes continue along the Ring of Fire. Several of them are quite active at the present time. Notice the Mid-America trench and the shear zone northwest of this extending into the Bay of California. We will return to the subject of this shear zone later.
The volcanic chain carries further on to CentralAmerica, where we can see an intense belt of Volcanoes near the western coast. In SouthAmerica, all 204 volcanoes lie near the western coast as well. It doesn’t stop here. There is one more volcano in Antarctica, where the Ring of Fire finally ends.
Abnormal seismograms
At the beginning of this article we viewed the seismograms of one of the world’s strongest earthquakes and another earthquake that was average, so we have a good idea of what a seismogram should look like. Now let’s view the image hereto become acquainted with the standard appearance of a USGS live Internet seismic server seismogram. This chart shows the seismic activity at the CTAO Queensland, Australia seismographic station for a period of 24 hours. Each horizontal line represents one hour of activity. Vertical time marker lines are shown at 10-minute intervals to help pinpoint the approximate time and duration of events. As can be seen, this seismogram shows an earthquake starting at around 07:18 hours. Let’s call this a normal seismogram.
Now, view the seismogram from Taiwan here.Does this look normal to you? Try the next example here. Note the waves highlighted in red. Do the three seismograms in this image look normal to you? Well, what is wrong with them if they are not normal?
The Taiwan seismogram we looked at seems to be having a period of prolonged low frequency waves. Yet, there appears to be no earthquake as a precursor to this event. How can this be?
The second graphic shows three locations, Taiwan, Kermadec Islands and Papua New Guinea. Here we can see anomalous, long wave oscillations occurring on three different seismograms. Again, there does not appear to be a big earthquake as a precursor to these events, unless of course, an earthquake occurred during the time period that is missing on all three seismograms. The problem with this possibility is that the waveform displays that are not swinging up and down are reasonably calm, except for PMG which displays a small earthquake that occurs long after the event involving the long, large oscillations.
Now, view the seismogram here. This is a long wave event at the Ecuador PAYG seismic station that starts from a perfectly calm background. A blue arrow marks the onset of the event. As the event continues, very long waves that run off scale appear to settle into a 23 minute pattern of waves that are of the same frequency, then break out into very long waves again The blue time indicators near the bottom of the display indicate a frequency that averages around 22 cycles per minute or .366 cycles per second. This falls within the frequency region of a local signal, as indicated earlier in this article. This anomalous signal appeared on no other seismogram of the USGS live Internet seismic server from the same time period. What caused this event?
It gets worse. Now look at the seismogram from Russia here. In the previously viewed seismogram, the positive and negative ends of large waveforms were off scale. In this seismogram, we can see the peaks of a group of low frequency waves, as indicated by a blue arrow. This anomalous set of waves reveals that they are of constant amplitude as well as being quite regular in frequency. The event lasts for at least 24 minutes at a constant level, far beyond the length of a normal earthquake. These are not normal earthquake waves.
There are several anomalous, individual events shown on this seismogram, as evidenced by the large, parabola shaped waveforms that occur when the events start and stop. If you look carefully, you can see at least six parabola shaped waveforms across the seismogram. What caused these events to occur?
Let’s look at some seismograms from North America, provided by The Pacific Northwest Seismograph Network. The one hereand is from RCS SHZ UW, located at Camp Shurman near the summit of Mt. Rainier. Notice the colored band of individual 8-second long seismic events that are arrayed diagonally across the seismogram. These seismic events are occurring at exactly one hour and seven minute intervals, hence their skewed appearance on the one-hour display lines. Does this look normal to you? If you wish to check this seismographic station for yourself, go here. Once on the page, Look for RCS SHZ UW: Rainier - Camp Shurman and click on the individual records. You will find that a diagonal line formed by equal duration seismic events is not on every record, so it is not some kind of station anomaly.
What is causing these well ordered, repeating seismic events? Well, this is as good a place as any to start an explanation. These events are being artificially and purposefully created with bad intent using scalar tectonic weapons technology. It’s been going on for some time. The unusual events discussed earlier are being created with the same scalar tectonic technology.
Before we get too far into this, check hereand then here.These are from Lajitas, Texas, and are provided by the New Mexico Institute of Mining and technology. The top and bottom of these waveforms were clipped during recording because they exceeded the level that the seismograph can handle. The first thing that seems strange is the unusual form and length of the waveform on each of these seismograms. Not only do they appear unusual, they appear identical. Yet one event occurred on 13 January 2006, 20 January and the other on 27 January 2006. To determine how identical each of these events are, the individual waveforms were copied from the seismograms, assigned different colors and then overlaid with each other in a separate graphic. The result of this can be seen here. As you can see, the two events are virtually identical.
The chances of three identical anomalous seismic events happening in the same place over a period of about three weeks is on the order of trillions to one. So what caused them? They were created using electronic scalar tectonic technology. Same scalar tectonic device used for both events = same result created.
Now let’s check here. This is an example page from the USGS showing the appearance of a natural magnitude 5.6 earthquake from one of their helicorders. Now, go here. This seismogram is from LON BHZ UW in Longmire, Washington. This display shows six events that are comparable in magnitude to a 5.6 event. However, the duration of these events is a single pulse instead of the earthquake waveform we have become familiar with. They were created using electronic scalar tectonic warfare devices, and scalar warfare is taking place as you read this.
Stress relief sidebar
No, it is not comic relief time; we are still in the serious mode. Larry Parks of Terra Research brought to light an interesting reporton vibratory stress relief authored by William Hahn of the Center of Environment and Energy Research. The report explains how residual stresses are built up in metal parts during fabrication, making them more prone to distortion and failure during use. The way out of this dilemma is to heat the part to several hundred degrees until the stress is relieved, and then allow it to cool slowly. During heating, the metal softens because its modulus of elasticity changes, allowing the lattice structure of the metal to shift and settle out. It’s a very expensive and time-consuming process.
Mr. Hahn reports that the same thing can be accomplished by subjecting the part to mechanical vibration at the part’s natural resonant frequency. Resonant vibration will also change the modulus of elasticity and allow the lattice structure of the metal part to shift and settle out.
Using this same principle,Nikola Tesla built a small, handheld machine that produced an earthquake in 1898.
Scalar tectonic weapons
Tesla has a place here too. His discoveries are the basis for scalar tectonic weapons, along with the work of T. H. Moray, the scalar mathematics of Edmund Whittaker, the patents of Bernard Eastlund and a very large amount of money.
To explain scalar waves is a tough proposition. Our modern electric world is one of transverse waves; the scalar world is one of longitudinal waves. That doesn’t help a bit does it?
When two children hold a jump rope, and one wiggles the end of it up and down, it produces a transverse wave in the rope that can be seen and felt at the other end of the rope, hence transferring mechanical energy. Work has been done. If the first child momentarily pulls the rope instead of wiggling it, the result is felt at the other end of the rope. If the second child allows the rope to be pulled away a little bit, then pulls it back a little bit, than allows it to be pulled away a little bit etc, we have a longitudinal wave, and work has been done.
A scalar wave is a longitudinal wave; the waves go out and back. Let’s keep things simple and continue by making a nice stick to poke things with. We’ll call it a scalar wave stick. It can be any old stick, and it works exactly like the jumping rope analogy we just discussed.
We take our scalar wave stick and we poke things with it, like a nice red beach ball that a friend is holding tightly. When we poke the ball with the stick, the ball wants to move, but our friend is holding it tightly against his stomach. Frustrated, we build two more scalar wave sticks and enlist the aid of two more friends. Now three of us are poking the beach ball. If we take turns poking, the beach ball holder has a good laugh and still holds on tight, because it’s all the same to him. If we all poke at the same time, our energy adds together and forms a much stronger push. But, our beach ball holder is built like King Kong and continues to laugh and prevail. So we try a new strategy. This time we experiment with different poke rates, and we slowly increase the rate at which we simultaneously poke the beach ball together. Sooner or later, we arrive at the resonant frequency of the sphincter muscle of our ball holder friend; he poops in his pants and releases the ball. Nikola Tesla did exactly this to Mark Twain with his little earthquake machine.
This analogy, although crude and tasteless, gives us a basis for understanding scalar waves. We can create scalar wave poke sticks electronically. If we have three electronic scalar wave transmission sites in different locations, with say two or three terrawatts of peak pulse power each, and can control the direction of transmission, we can focus exceedingly powerful energy anywhere we want on the Earth. The energy from the three beams is combined at a single target location. When an attack is started, the scalar wave frequency of the transmitters is adjusted to the resonant frequency of the target, which increases the force on the target exponentially - and all hell breaks loose. It may take one, two or ten separate attacks to whack really big things like tectonic plate margins or volcanoes, but you get the idea.
Many of the unusual seismograms you viewed earlier show resonant scalar tectonic attacks. The waves are at the resonant frequency of the mass being attacked. That’s why they appear so big and are of one frequency. Yet, while there is a lot of movement involved, the rate of these waves is very slow, so people in the area may not notice anything different. But the net mass of the target at resonance will undergo changes in its modulus of elasticity and soften, just as described in the stress relief sidebar above, producing changes in the lattice structure of the material. This sets the target area up for a disaster, or stores energy that can be moved to another target.
Imagine applying that kind of force to Mt. Rainier or the San Andreas Fault or the Philippine Sea Plate, which is jammed up against Japan. The possibilities are endless. Sometimes the targeting is indirect, you push something over here to get a result over there. In recent weeks, the Galapagos Islands and Greenland have come under scalar tectonic attacks. Neither one is exactly a hot tourist spot.
Go hereand see what is currently happening in the Aleutian Islands and Bilibino, Russia. Look at the date and time on these displays. Where is the big, traditional earthquake that could cause these giant, jagged waveforms? When did it happen? Well, there is no big earthquake on these seismic charts, it hasn’t happened…….yet. What you are looking at as you view these seismograms is a silent earthquake produced by three axis scalar tectonic weapons.
Wait a minute… Aren’t the Aleutian Islands on the Ring of Fire with all those active volcanoes and continuous seismic activity? Yes they are, and things are escalating very quickly now. Alaska is one of the places where scalar tectonic weapons are located. The factions are trying to hit each other’s weapons. Do you wonder what might be in Bilibino?
Worst case scenario
Given the current situation, unbelievably chaotic destruction is about to occur. In the case of America, a best-case scenario would be one or more magnitude 9+ earthquakes in the Pacific Northwest. These quakes will strike near Seattle Washington and Portland Oregon, resulting in tsunamis all along the west coast. If sufficient in intensity, Mt. Rainier, already sufficiently primed, will erupt explosively. Millions could die.
In a worst-case scenario, there will be many large quakes all along the west coast, and the North American plate will shear from Puget Sound in Washington to the east of Baja in the Bay of California - at the shear zone north of the mid-America trench. There have already been six earthquakes in Baja this month. This plate shear will serve to ignite the eruptions of many of the volcanoes that run from Washington State through California. The Long Valley Caldera and the Yellowstone Caldera could undergo massive eruption. It will be the “Big One” that has been talked about for years, but it will not be from natural causes, unless you are watching CNN or FOX. The destruction will decimate America. Martial law will be declared immediately. America as we know it will have come to an end.
The ash and gasses from the wall of eruptions will travel eastward, forcing people to abandon their homes and flee. The economic infrastructure of America will immediately collapse, already prepared to do so from accumulated and unserviceable national debt. There will be riots and looting from lack of food and water as gasoline disappears and anarchy kicks in. The badly needed military to restore civil order will be in stuck in Iraq, Afghanistan and overseas bases. Then, massive seismic events will begin along the New Madrid fault and the eastern coastline of what was once America. Everything will happen according to the operational plans of the perpetrators, for they have engineered Armageddon.
What will happen to the rest of the world? That story will appear in these pages soon.
--Harbinger
Thanks to Scott Stevens and JC Jennings for their valuable leads.
Thanks to Larry Parks for his insight.
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