Radar Assault Weapons & Faraday Cages, Ground and Grounding Rods

"For installations with a longer service life, copper-bonded ground rods are the best fit. For many years, the copper cold water pipe has served as the primary grounding electrode for commercial & residential grounding." -- "the system dissipates lightning energy and other dangerous electrical fault currents, even in sandy or rocky soil conditions. -- natural electrolytic salts that permeate into the surrounding soil, lowering resistivity"

see the Radar Assault Weapons & Faraday Cages page for more.

"Introduction

Human right defenders and citizens who are targeted by the mob in Canada need a faraday cage, the mob is using energy assault weapons, powerful radar, to inflict different deadly cancers.

Thick metal plates, thick copper wires or cables, and a good ground source like a city-household's copper pluming are what is needed for a good faraday cage and protection against radar assaults from neighboring homes or any other source. Note: another problem technology used by organized crime, focused ultra sound, the weakness is water containers.

Electrical Conductivity, Dielectric Heating; 1) Dielectric Absorbers (ohmic energy loss of energy, conducting particles); 2) Magnetic Absorbers (the magnetic hysteresis). Sea Water is usually one of the highest ratings in radar attenuation, it has ions and conducts electricity, and absorbs energy.

If you think of a microwave oven water boils and metal "sparkles" because of their high dielectric ratings but safe for most dry, plastic and ceramic type, and non-metallic containers. If you think of a Faraday Cage, it's a metallic enclosure that is grounded, when microwaves or radar assaults hit the metal the energy is absorbed and conducted to the ground.

If you think about ground penetrating radar it is the moisture of the ground and its conductivity, clays, and the ferric content, ferric sand and rocks, slate with iron for example. If you think about the industry, it's about the thickness and density of concrete that contains metal.

If you look at this attenuation formula the two main components are electrical conductivity, like a faraday cage, and dielectric constant.

Equation 2 (2)

where

V = velocity in m/s,

ε = dielectric constant (dimensionless),

a = attenuation in decibels/m (db/m),

σ = electrical conductivity in mS/m.

GPR Attenuation Summary

The exponential attenuation coefficient, a, is primarily determined by the ability of the material to conduct electrical currents. In simple uniform materials this is usually the dominant factor; thus a measurement of electrical conductivity (or resistivity) determines attenuation.

In most materials energy is also lost to scattering from material variability and to water being present. Water has two effects; first, water contains ions which contribute to bulk conductivity. Second, the water molecule absorbs electromagnetic energy at high frequencies typically above 1000 MHz (exactly the same mechanism that accounts for why microwave ovens work).

Attenuation increases with frequency as depicted in Figure 2. In environments which are amenable to GPR sounding there is usually a plateau in the attenuation versus frequency curve which defines the "GPR window".

Attenuation varies with excitation frequency and material. This family of graphs depicts general trends. At low frequencies (<1 MHz) attenuation is primarily controlled by DC conductivity. At high frequencies (> 1000 MHz) water is a strong energy absorber.

Lowering frequency improves depth of exploration because attenuation primarily increases with frequency. As frequency decreases, however, two other fundamental aspects of the GPR measurement come into play.

Notes

"Ground-penetrating radar (GPR) uses a high-frequency (e.g. 40 to 1,500 MHz) EM pulse transmitted from a radar antenna to probe the earth." see Basic Concepts and Attenuation Chart

"At low frequencies (<1 MHz) attenuation is primarily controlled by DC conductivity. At high frequencies (> 1000 MHz) water is a strong energy absorber." see GPR Attenuation Summary

"The exponential attenuation coefficient, a, is primarily determined by the ability of the material to conduct electrical currents. In simple uniform materials this is usually the dominant factor; thus a measurement of electrical conductivity (or resistivity) determines attenuation."

Faraday Cages can be used to shield from and attenuate radar and microwaves. A faraday cage is simply a metal conductive inclosure that is grounded, as the radar hits the conductive metal inclosure the energy, the radar and microwaves, is absorbed and dispersed towards the ground.

FARADAY CAGES

Faraday cages cannot block static and slowly varying magnetic fields, such as Earth's magnetic field (a compass will still work inside). To a large degree though, they also shield the interior from external electromagnetic radiation, radar for example, if the conductor is thick enough, thick metal plates for example, and any holes are significantly smaller than the radiation's wavelength.

For example, certain computer forensic test procedures of electronic components or systems that require an environment devoid of electromagnetic interference may be conducted within a screen room. These screen rooms are essentially work areas that are completely enclosed by one or more layers of fine metal mesh or perforated sheet metal.

The metal layers are grounded to dissipate any electric currents generated from the external electromagnetic fields and thus block a large amount of the electromagnetic interference.

The reception of external radio signals, a form of electromagnetic radiation, through an antenna within a cage can be greatly attenuated or even completely blocked by the cage itself.
1. Metal Inclosure (if the conductor is think enough, ex: metal plates/sheet).
2. The metal layers are grounded to dissipate any electric currents generated from the external electromagnetic radiation (ex: radio waves, radar).
3. The reception of external radio signals, a form of electromagnetic radiation (radar for example), through an antenna within a cage can be greatly attenuated or even completely blocked by the cage itself.
http://en.wikipedia.org/wiki/Faraday_cage

GROUND AND GROUNDING RODS

Ground (electricity)
http://en.wikipedia.org/wiki/Ground_(electricity)
"In electronic circuit theory, a "ground" is usually idealized as an infinite source or sink for charge, which can absorb an unlimited amount of current without changing its potential."

The Dirt On Ground Rods
http://www.ecmag.com/section/safety/dirt-ground-rods
"For installations with a longer service life, copper-bonded ground rods are the best fit. For many years, the copper cold water pipe has served as the primary grounding electrode for commercial & residential grounding."

Chemical Ground Electrode System
http://www.erico.com/products/ChemRod.asp
"ERITECH Chemical Ground Electrodes provide a low-impedance ground in locations of high soil resistivity. Together with GEM as backfill, the system dissipates lightning energy and other dangerous electrical fault currents, even in sandy or rocky soil conditions. Features -- 2-1/8 (54mm) OD Type K copper pipe contains natural electrolytic salts that permeate into the surrounding soil, lowering resistivity"

The Reality

The oceans and sea water attenuate radar and microwaves very quickly because they are both a dielectric and grounded like a faraday cage. Water is a dielectric, and grounded sea water containers can act similar to a faraday cage, a sea water faraday cage.

The reality when under attack through organized crime in some regimes is that you need both thick metal plates that are grounded with thick copper wires to a good ground source, like a house-hold's copper pipes that are connected to the city's water supply, to attenuate powerful radar assaults from neighboring homes or any other source, weaponization of space, .. , . A wall of water bottles or containers to shield from focused ultrasound types of weapons. The water is a dielectric, which helps attenuate the radar assaults and if grounded may attenuate more radar due to the faraday cage mechanism that has been mentioned.

New long lasting metal roofs that are grounded, the weaponization of space and tyrannical regimes, may help shield from these. Aluminum siding that is grounded my help from neighboring home assaults.

"My experience has been powerful radar assaults from neighboring homes combined with false allegations by the police, unlawful entry and search of a home, unlawful seizure of personal computers, and unlawful assessment orders for non-criminal responsibility before trial that if successful finds the accused guilty without a trial, circumvents these charter of rights violations, and makes the seizure and copies of personal computers legal. This is also combined with several police psychiatric intervention attempts through calls of "suspicious vehicles" that leads to incarceration during long and delayed criminal proceedings, and participating defense lawyers. Attempts to attenuate powerful radar assaults is justification for police psychiatric intervention that leads to incarceration at a psychiatric ward. Several months later the assaults came from a location that I did not expect, from below the home, emitters slipped under the home. Several neighbors moving away and new ones in fluctuation."

Sea Water Faraday Cage

Free Sea Water can be added to free containers as a cheap attenuation solution for anyone targeted from neighboring homes, .. , radiation technology, powerful radar, serious illness, lung cancer, leukemia, human rights violations. The water is also good protection against focused ultrasound aka HSS or LRAD systems technologies. If these sea water containers are grounded they may act as a faraday cage too, to increase the radar attenuation.

Sea Water Salt contains Magnesium, Mg2+ 3.7%, an Earth Metal, which makes the water conduct electricity. The idea is that Mg plays a high role in attenuation along with the water, water is a dielectric. The composition of Sea Water Salt is Cl− 55%, Na+ 30.6%, SO2−4 7.7%, Mg2+ 3.7%, Ca2+ 1.2%, K+ 1.1%. -- The composition of Magnesium Sulfate (Epsom Salt) MgSO47H2O.

Water

Water is strongly polar, with a region of dispersion, at 20 °C, centred around 17 GHz. It is also intrinsically dissociated, so that even de-ionized water cannot be treated as a dielectric at frequencies much below 1 MHz. Measurements at the high frequencies of the dispersion range contain, before about 1953, many errors shown by values of ′ and ″ mutually inconsistent with the simple Debye equations. It is established that water obeys these with some accuracy, the value of the dispersion coefficient α in the Cole–Cole equation not exceeding 0.05.

At frequencies higher than about 1 MHz (where the loss tangent passes through a minimum of about 5 × 10−3) values of ′ and ″ can be calculated from the Debye equations given in the introduction to this section, with accuracy better than is obtainable by interpolation in a table. The necessary values of s, and τ follow, chosen to give the best fit with internally consistent data.

Epidemiologic evidence relevant to radar (microwave) effects

"Four types of effects were originally reported in multiple studies: increased spontaneous abortion, shifts in red and white blood cell counts, increased somatic mutation rates in lymphocytes, and increased childhood, testicular, and other cancers."

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1469943/

[7] Abstract

Public and occupational exposures to microwave (RF) are of two main types. The first type of exposures are those connected with military and industrial uses and, to some extent broadcast exposures. It is this type that most of the data cited in this study draw upon. The second type, cellular telephones and their associated broadcast requirements, have raised concerns about current exposures because of their increasingly widespread use. Four types of effects were originally reported in multiple studies: increased spontaneous abortion, shifts in red and white blood cell counts, increased somatic mutation rates in lymphocytes, and increased childhood, testicular, and other cancers. In addition, there is evidence of generalized increased disability rates from a variety of causes in one study and symptoms of sensitivity reactions and lenticular opacity in at least one other. These findings suggest that RF exposures are potentially carcinogenic and have other health effects. Therefore, prudent avoidance of unneeded exposures is recommended as a precautionary measure. Epidemiologic studies of occupational groups such as military users and air traffic controllers should have high priority because their exposures can be reasonably well characterized and the effects reported are suitable for epidemiologic monitoring. Additional community studies are needed."