| Welcome to CLUBHOUSE11. We hope you enjoy your visit. You're currently viewing our forum as a guest. This means you are limited to certain areas of the board and there are some features you can't use. If you join our community, you'll be able to access member-only sections, and use many member-only features such as customizing your profile, sending personal messages, and voting in polls. Registration is simple, fast, and completely free. Join our community! If you're already a member please log in to your account to access all of our features: |
| Targeting Western US: Scalar Waves | |
|---|---|
| Topic Started: Jun 7 2008, 12:26 PM (162 Views) | |
| Loveandbeloved | Jun 7 2008, 12:26 PM Post #1 |
|
Administrator
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]()
|
Excerpt and more at link.... Within months, and possibly weeks, the northwestern coast of the United States will experience a tectonic and volcanic cataclysm quite unlike any other in recorded history. In the process, millions of people will die or be injured. The American economy will be shaken to its very foundations. In the process, a draconian form of martial law will be declared that will make our once cherished institute of constitutional democracy a thing of the past. What would you think if you were told that America was being subjected to a series of irregular, electronically induced scalar tectonic attacks? What if you were shown seismic waveforms with anomalies that do not correspond to normal earthquake activity? Most people would think those waveforms and the claims that preceded them were just a hoax. Unfortunately, what you are about to view is not a hoax. The seismogram on the left is a typical, normal earthquake waveform. After the arrival of the P and S wave components, there is a normal damped vibration as the waveforms echo and settle. On the right is a waveform that is different from a normal earthquake. After the event, there are no damped vibrations. This Octopus Mountain, Washington seismogram shows a brief series of large, bipolar spikes. After the last spike occurs, the seismogram resumes its trace as if nothing had happened. These spikes are evidence of an electronic scalar tectonic attack. Does this mean that the ground at the event location shook during this event? No, it does not. If not, why are we seeing this trace? Dont seismometers record ground movement? Many seismometers currently in use detect earth movement using a suspended wire coil that is free to move in one axis. The wire coil sits around a permanent magnet that is mechanically coupled to the ground at the seismometer site. When the earth moves, the coil, because of the way in which it is suspended, does not move. Thus, only the magnet moves with relation to the earth. In doing so, the coil senses a momentary change in flux due to the movement of the magnet, and a small electrical current is induced into the coil. This signal is then electronically amplified and output as a seismogram. The recording shown on this and all the pages of this article are vertical axis recordings.One of the signatures of a scalar tectonic attack is a change in the magnetic flux level of any magnet in the area where an attack is taking place. In the case of this seismograph, the scalar wave attack component has momentarily changed the flux level of the magnet that sits inside the pickup coil. The coil detects this change in flux and outputs a current in response. Thus what this seismograph is recording is not necessarily a seismic event; it is the dynamic change in the flux level of the magnet. This seismogram image is but one of many examples of a scalar tectonic attack. The wire coil of a seismometer does not detect a scalar wave directly. This is because scalar waves by themselves do not induct current into a wire coil. It is the momentary change in the flux level of the seismograph magnet that is being detected. As an example, magnets have been known to slide off refrigerator doors before and during local earthquake events. The flux level in these magnets has been momentarily reduced, allowing gravity to take effect. Scalar (or longitudinal) waves react quite differently than the transverse waves of our electrical world. This will be discussed in greater detail later to enable a more complete understanding of what is happening, but it is important to realize that they react differently than transverse waves. In the seismogram from Pine Mountain, Oregon on the left, two anomalous events can be seen. Unlike the attack near Octopus Mountain, which was bipolar (moving above and below the event timeline) these scalar attacks move in a negative direction only. Both events shown are off scale and of short duration, with no after oscillations. These are not normal seismic events. Can scalar waves like these create actual seismic events? Yes, they can. In the seismogram from Green Mountain, Washington on the right, there is a series of anomalous spiked waveforms. Green Mountain is near the Mt. Baker volcano. Like the Pine Mountain attack, these waveforms are negative going monopolar waves that shoot off the bottom of the chart, and then return quickly to the timeline where they began. The effect of these spikes is to create a build up or release of scalar energy in highly localized areas of tectonic stress. Tectonic plate margins, fault zones and volcanoes are all receivers and transmitters of scalar energy - by virtue of their basic nature. The method of electronic transmission of scalar energy into tectonic plate margins, fault zones and volcanoes will be explained in detail later. http://www.care2.com/c2c/share/detail/70116 |
| In Love | |
![]() |
|
| Ol' Griz | Jun 7 2008, 12:44 PM Post #2 |
|
Ol' Griz
![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]() ![]()
|
I figured as much.
|
| "Lemeca Akicita, wau welo!" | |
![]() |
|
| « Previous Topic · Quakes and Rumblings · Next Topic » |





![]](http://z2.ifrm.com/static/1/pip_r.png)



3:05 PM Jul 11