-Caveat Lector- <A HREF="http://www.ctrl.org/"> </A> -Cui Bono?- ---------- Forwarded message ---------- Date: Tue, 28 Mar 2000 00:06:06 -0800 (PST) From: Franklin Wayne Poley <[EMAIL PROTECTED]> Reply-To: [EMAIL PROTECTED] To: Teacher of YHVH <[EMAIL PROTECTED]> Cc: [EMAIL PROTECTED], [EMAIL PROTECTED], [EMAIL PROTECTED], [EMAIL PROTECTED], [EMAIL PROTECTED], u8 <[EMAIL PROTECTED]>, [EMAIL PROTECTED], [EMAIL PROTECTED] Subject: [LIFE-GAZETTE] Re: "Curtains" for Einkike. From: Franklin Wayne Poley <[EMAIL PROTECTED]> No. But I know how to build robots which have more intelligence and learning ability than any human on the planet. I estimate we could put them in place by 2012 AD...THE END according to the Mayan Calendar which hangs over my computers. By comparison the ability to build suit-case nuclear weapons is child's play as Military Minister Eggleton and Industry Minister Manley will confirm. Don't forget that Canada put the third component in place for the Manhatten Project (which has nothing to do Eisenkike) and you will find my fishing lodge, "Frontier Lodge" still operating in the fly-in-only regions of the NWT Border which are awash in the U deposits which supplied to the first A Bombs. (In Alberta I was a "Class B" Licensed Big Game Guide). In honour of "Frontier Lodge" as it is called (ref Alberta Tourism) I would gladly provide the GNR (Genetic/Nuclear/Robotic a la Bill Joy) components for WW III ...if it is called for. But I am still trying to figure out who are the good guys and who are the bad guys. After you get out of the hospital let me know what you think. We are not as stupid as y'all think. We have as many American-Canadians as Chinese-Canadians (about 1,000,000 each) and I have no preference for one over the other. FWP (King Franklin the First of False Creek). http://users.uniserve.com/~culturex/Machine-Psychology.htm On Mon, 27 Mar 2000, Teacher of YHVH wrote: > Have you tried this? > If so, what were your results? > Sounds interesting. > I went to a meeting one time where a guy had these big things wrapped in > coils and said that he talked to god with them. He said that they were > transmitters and receivers. But I never heard God speak with them. I > always wondered if a person could do something else with them. > Sherry > > ----- Original Message ----- > From: Franklin Wayne Poley <[EMAIL PROTECTED]> > To: <[EMAIL PROTECTED]> > Sent: Monday, March 27, 2000 10:25 PM > Subject: "Curtains" for Einkike. (fwd) > > > ---------------------------------------------------------------------------- > --- > http://www.vcn.bc.ca/culturex/The-Question-Nobody-Will-Answer.htm > ---------------------------------------------------------------------------- > --- > > ---------- Forwarded message ---------- > Date: Mon, 27 Mar 2000 20:20:18 -0800 (PST) > From: Franklin Wayne Poley <[EMAIL PROTECTED]> > To: [EMAIL PROTECTED] > Cc: [EMAIL PROTECTED] > Subject: "Curtains" for Einkike. > > ---------- Forwarded message ---------- > Date: Tue, 28 Mar 2000 02:44:26 GMT > From: Ted Cousins <[EMAIL PROTECTED]> > Reply-To: Conspiracy Theory Research List <[EMAIL PROTECTED]> > To: [EMAIL PROTECTED] > Subject: [CTRL] Faster-than-light energy transmission system developed! > > -Caveat Lector- <A HREF="http://www.ctrl.org/"> > </A> -Cui Bono?- > > United States Patent 6,025,810 (URL: http://www.uspto.gov) > Strom February 15, 2000 > > Hyper-light-speed antenna > > > Abstract > A method to transmit and receive electromagnetic waves which comprises > generating opposing magnetic fields having a plane of maximum force running > perpendicular to a longitudinal axis of the magnetic field; generating a > heat source along an axis parallel to the longitudinal axis of the magnetic > field; generating an accelerator parallel to and in close proximity to the > heat source, thereby creating an input and output port; and generating a > communications signal into the input and output port, thereby sending the > signal at a speed faster than light. > > > Inventors: Strom; David L. (1615 Geneva St., Aurora, CO 80010) > Appl. No.: 942824 > Filed: October 2, 1997 > > U.S. Class: 343/787; 343/711; 343/721; 343/895 > Intern'l Class: H01Q 001/32 > Field of Search: 343/711,713,721,725,787,788,895 > > > > References Cited [Referenced By] > > > U.S. Patent Documents > 5714959 Feb., 1998 Troy et al. 343/713. > > Primary Examiner: Wong; Don > Assistant Examiner: Clinger; James > Attorney, Agent or Firm: Martin; Rick > > > Parent Case Text > > > CROSS-REFERENCE TO RELATED APPLICATION > > This application is a non-provisional application claiming the benefits of > provisional application No. 60/028,204 filed Oct. 2, 1996. > > > Claims > > > > 1. A method to transmit and receive electromagnetic waves comprising: > > generating opposing magnetic fields each having a plane of maximum force > running perpendicular to a longitudinal axis of the respective magnetic > field; > > generating heat from a heat source along an axis parallel to the > longitudinal axis of the magnetic field; > > generating an accelerator parallel to and in close proximity to the heat > source, thereby creating an electromagnetic injection point; and > > generating a communication signal into the electromagnetic injection point, > thereby sending and receiving the communication signal at a speed faster > than a known speed of light. > > 2. The method of claim 1, wherein said magnetic fields are generated by > electromagnets. > > 3. The method of claim 1, wherein said magnetic fields are generated by > permanent magnets. > > 4. The method of claim 2, wherein said electromagnets are wound with 2500 > turns of 22 AWG wire. > > 5. The method of claim 1, wherein the temperature of said heat source is at > least 1000 degrees Fahrenheit. > > 6. The method of claim 1, wherein said heat source further comprises a > 620-watt Halogen lamp. > > 7. The method of claim 1, wherein said accelerator is linear in > polarization. > > 8. The method of claim 1, wherein said accelerator is circular in > polarization. > > 9. The method of claim 1, wherein said communications signal is generated by > a magnetic injection assembly and a BNC connector. > > 10. The method of claim 9, wherein said magnetic injection assembly further > comprises a one-quarter wavelength coil antenna. > > 11. The method of claim 9, wherein said magnetic injection assembly further > comprises a three-quarter wavelength coil antenna. > > 12. The method of claim 1, wherein said accelerator is wrapped around said > heat source. > > 13. An improved antenna comprising: > > a heat source; > > at least one magnetic field source in close proximity with said heat source; > > an electromagnetic injection point formed in close proximity to said > magnetic field source; > > at least one accelerator in close proximity with said heat source; and > > an electromagnetic signal inserter placed at said electromagnetic injection > point whereby a communication signal may be generated through said signal > inserter, thereby sending the signal at a speed faster than light. > > 14. The improved antenna of claim 13, wherein the temperature of said heat > source is at least 1000 degrees Fahrenheit. > > 15. The improved antenna of claim 13, wherein said magnetic field source > further comprises an electromagnet or permanent magnet. > > 16. The improved antenna of claim 13, wherein said accelerator is linear or > circular in polarization. > > 17. The improved antenna of claim 13, wherein said electromagnetic signal > inserter further comprises a magnetic injection assembly and a BNC > connector. > > 18. An improved antenna comprising: > > a heat source; > > first and second electromagnets in close proximity with said heater, said > first and second electromagnets each creating an opposing magnetic field; > > an electromagnetic injection point formed at the intersection of said > opposing magnetic fields; > > first and second accelerators in close proximity with said heat source; and > > an electromagnetic signal inserter placed at said electromagnetic injection > point whereby a communication signal may be generated through said signal > inserter, thereby sending the signal at a speed faster than light. > > 19. The improved antenna of claim 18, wherein said heater further comprises > a 620-watt Halogen lamp. > > 20. The improved antenna of claim 18, wherein the temperature of said heat > source is at least 1000 degrees Fahrenheit. > > 21. The improved antenna of claim 18, wherein said first accelerator is > biased at +2000 V DC and said second accelerator is biased at -2000 V DC. > > 22. The improved antenna of claim 18, wherein said first and second > accelerators are wrapped around said heat source. > > 23. The improved antenna of claim 18, wherein said electromagnetic signal > inserter further comprises a magnetic injection assembly and a BNC > connector. > > 24. The improved antenna of claim 23, wherein said magnetic injection > assembly further comprises a one-quarter or three-quarter wavelength coil > antenna. > > 25. An improved antenna comprising: > > a 620 watt Halogen pencil lamp; > > first and second thin wires attached to said lamp, said first thin wire > biased at +2000 V DC, said second thin wire biased at -2000 V DC; > > an inductor housing enveloping said lamp; > > first and second electromagnets attached to said inductor housing, said > electromagnets oriented such that both magnetic norths are disposed toward > the center of said inductor housing; > > a magnetic injection assembly disposed between said electromagnets; and > > a BNC connector in serial connection with said magnetic injection assembly. > > 26. The improved antenna of claim 25, wherein said thin wires are wrapped > around said lamp for circular polarization. > > 27. The improved antenna of claim 25, wherein said thin wires are placed > 180.degree. apart along said lamp for linear polarization. > > 28. The improved antenna of claim 25, wherein said inductor housing is > thermally insulated. > > 29. The improved antenna of claim 25, wherein said electromagnets are wound > with 2500 turns of 22 AWG wire. > > 30. A method to transmit and receive electromagnetic waves comprising: > > generating opposing magnetic fields each having a plane of maximum force > running perpendicular to a longitudinal axis of the respective magnetic > field; > > generating heat from a heat source along an axis parallel to the > longitudinal axis of the magnetic field; > > generating an accelerator parallel to and in close proximity to the heat > source, thereby creating an electromagnetic injection point; > > generating a communication signal into the electromagnetic injection point; > and > > receiving said communication signal as transmitted from said electromagnetic > injection point. > ---------------------------------------------------------------------------- > ---- > > Description > > ---------------------------------------------------------------------------- > ---- > > > FIELD OF INVENTION > > The present invention relates to a new type of antenna for transmission and > reception of RF signals. The present invention can be used to replace > conventional antennas. It is believed that this invention can transmit > energy at a faster speed and over a greater distance than conventional > antennas with the same power. > > BACKGROUND OF THE INVENTION > > All known radio transmissions use known models of time and space dimensions > for sending the RF signal. > > The present invention has discovered the apparent existence of a new > dimension capable of acting as a medium for RE signals. Initial benefits of > penetrating this new dimension include sending RF signals faster than the > speed of light, extending the effective distance of RF transmitters at the > same power radiated, penetrating known RF shielding devices, and > accelerating plant growth exposed to the by-product energy of the RF > transmissions. > > The following describes, in simple terms, what the present invention > actually does. The present invention takes a transmission of energy, and > instead of sending it through normal time and space, it pokes a small hole > into another dimension, thus, sending the energy through a place which > allows transmission of energy to exceed the speed of light. > > The following is a description of how the communications medium converter > functions. > > First, you need to create a hot surface that is more than 1000 degrees > Fahrenheit. Next, it requires a strong magnetic field. Then, you need an > accelerator, followed by an electromagnetic injection point. For > communications or data communication, you need 2 devices. Each device is > connected to a transmitter and receiver. This allows electromagnetic energy > to enter a dimension and to travel at speeds faster than the speed of light. > > The magnetic fields are focused onto the heat generating device. The > electromagnetic injection point is the plane generated by the two opposing > magnetic fields. > > It has been observed by the inventor and witnesses that accelerated plant > growth can occur using the present invention. > > For accelerated plant growth, first, you need to create a hot surface that > is more than 1000 degrees Fahrenheit. Next, you need a strong magnetic > field. Only one device is needed for this function. This allows energy from > another dimension to influence plant growth. > > SUMMARY OF THE INVENTION > > The main aspect of the present invention is to send RF signals faster than > the speed of light. > > Other aspects of this invention will appear from the following description > and appended claims, reference being made to the accompanying drawings > forming a part of this specification wherein like reference characters > designate corresponding parts in the several views. > > The preferred embodiment is an additional piece of equipment that connects > to an existing communications device in place of its original antenna. This > device changes the medium of transmission and reception of electromagnetic > waves. This allows the transmission and reception of electromagnetic radio > signals to exceed the speed of light. > > The main purpose of this device is: > > 1. To allow signals to travel great distances at many times the speed of > light. > > 2. To use considerably less power to travel the same distance, compared to > transmitters not using this device. > > A. There are several pieces that make it work. > > B. The following four things (numbered 1)-4) below) must occur for this unit > to function efficiently. > > 1) There must be a heat source that produces more than 1000 degrees > Fahrenheit. > > a) This heat source may or may not be in a sealed assembly. > > 2) There must be at least one magnetic field. This unit uses two opposing > magnetic fields. > > a) These fields may be produced by electromagnets or by permanent magnets. > This can be done with just one magnetic field, but it would be harder to > find the penetration point. Consequently, it is harder to find where to > inject the electromagnetic radio signal. The strength of the magnetic field > is variable, the closer to the heat source, the lower the magnetism can be. > > 3) There must be at least one accelerator. This unit uses two accelerators. > > a) These accelerators may be linear or circular in polarization. > > b) These accelerators need to be close to the heat source and near to the > junction of the opposing magnetic fields and close to the penetration point. > > c) This unit can use one accelerator, but is more efficient with two. > > 4) There must be a way to insert the electromagnetic signal which is the > electromagnetic injection point. Digital data can also be sent through this > device. > > a) The electromagnetic signal is inserted at the junction of the two > opposing magnetic fields or at the penetration point, if you are using just > one magnetic field. > > The following is a description of how the preferred embodiment known as the > Hyper-Light-Speed Antenna is constructed. > > 1. R5 is a 620-watt Halogen pencil lamp approximately 12 inches long with a > diameter of approximately 0.3 inches. Power to the lamp is supplied at the > ends of the lamp. > > 2. The accelerators are a thin piece of wire wrapped around the glass lamp. > (This is for circular polarization). For linear polarization, two thin > pieces of wire are attached to the lamp. One wire runs down one side of the > lamp, the other wire runs down the other side of the lamp (180 degrees from > each other). The spacing is not critical but must have enough spacing to > prevent arcing between the accelerators. The accelerators operate at +2000 V > DC on one accelerator and -2000 V DC on the other. > > 3. This assembly goes inside a tube approximately 10.3 inches long.sub.-- > this length is not critical. Diameter of the tube is approximately 1.1 > inches. > > 4. Heat insulating material is installed on the tube. > > 5. Coil forms are installed on the tube, the forms CF1 and CF3 are 4.3 > inches long. These forms are then wound with 2500 turns of 22 AWG wire. > > 6. The coils are wired so both Magnetic Norths are toward the center of the > tube. (The unit can be set so both Magnetic Souths are toward the center.) > > 7. In the middle of the tube there is 0.4 inches for the magnetic injection > assembly L2. > > BRIEF DESCRIPTION OF THE DRAWINGS > > FIG. 1 is a schematic of the current invention. > > FIG. 2 is a schematic of the power entry and rectifier circuitry. > > FIG. 3 is a schematic of the 5 V DC and the .+-.2000 V DC power supply. > > FIG. 4 is an assembly drawing of the inductor housing. > > FIG. 5 is a schematic of the inductor housing. > > FIG. 6 is a partial parts list for the current invention. > > FIG. 7 is a schematic of the heater power supply for R5. > > FIG. 8 is a schematic of the electromagnet power supply. > > FIG. 9 is a side and end plane view of the electromagnet coil form. > > FIG. 10 is a side and end plane view of the magnetic injection assembly coil > form. > > FIG. 11 is a side and end plane view of the inductor housing and heater. > > FIG. 12 is a continuation of the parts list of FIG. 6. > > FIG. 13 is a schematic view of the electromagnets and their generated > magnetic fields. > > Before explaining the disclosed embodiment of the present invention in > detail, it is to be understood that the invention is not limited in its > application to the details of the particular arrangement shown, since the > invention is capable of other embodiments. Also, the terminology used herein > is for the purpose of description and not of limitation. > > DESCRIPTION OF THE PREFERRED EMBODIMENT > > The current invention functions like an antenna that can replace an existing > antenna on a transmitter or receiver. The current invention changes the > medium of transmission and reception of electromagnetic waves such that > information is transmitted at greater than the speed of light. > > FIG. 1 illustrates the general layout of the preferred embodiment of the > invention. The invention is an antenna that, it is believed, can transmit or > receive information at a speed greater than the speed of light. L1 and L3 > are electromagnets which create two opposing magnetic fields. A heater R5 > consisting of a 620-watt Halogen lamp is used to raise the temperature to > 1000.degree. F. > > Two accelerators L4 and L5 are biased at .+-.2000 V DC. The accelerators are > wires wrapped around the glass heater R5. > > The intersection of the opposing magnetic fields created by electromagnets > L1 and L3 form an electromagnetic injection point. > > The magnetic injection assembly L2 is a one-quarter or three-quarter > wavelength coil antenna placed at the electromagnetic injection point. J1 is > a BNC connector for the insertion of the RF signal if the device is a > transmitter or for the extraction if the RF signal of the device is a > receiver. > > The power supply PS1 supplies the +30 V DC to +140 V DC to supply the > electromagnets L1 and L3 and the heater R5. The power supply also supplies > the +2000 V DC and -2000 V DC bias voltages for accelerators L4 and L5. > > FIG. 2 is the input filter and regulator circuitry for the power supply PS1. > FL1 is a power entry module which uses a common PC-style power cord. FL1 has > an EM1 filter built into it. > > SW1 is a double pole single throw switch which turns power to the device on > and off. Circuit breaker CB1 and CB2 are installed for protection in the > event of a circuit failure. Rectifier BR1 and capacitor C3 generate an > unregulated DC voltage for use in the circuitry on FIG. 7 and 8. The AC > voltage from SW1 is used on the circuitry of FIG. 3. > > FIG. 3 is the power supply PS1. The signals TS1-2 and TS1-3 from FIG. 2 go > to terminal strip TSI and supply transformer T2. Diode D5 rectifies the > output of transformer T2 and generates an unregulated +34 V DC. Capacitor C5 > is used to filter some of the ripple from the +34 V DC. The fixed frequency > pulse width modulated control circuit U1 is used to control the switching > regulator power supply PSI. Power supply PS1 produces +5 V DC VCC, +2000 V > DC, and -2000 V DC. > > T1 is a split core, open frame flyback transformer. The Primary is hand > wound on the side of the flyback that has no existing windings. The primary > is 20 turns center tapped using 22 AWG magnet wire. The +5 volt secondary is > wound on the same side the primary is wound. This winding is 18 turns center > tapped using 22 AWG magnet wire. (T1 can be almost any open frame split core > flyback transformer, which was designed for about 10,000 volts with an > external high-voltage diode). > > C11 and R13 provides a soft start to the power supply PS1. R19 and C12 sets > the oscillator frequency at approximately 80 KHz. R14, R15, C9, and C10 > provide feedback to pin 3 of U1. R10, R16, and R21 provides current limit > for the +5 V DC output. > > Q8 and Q9 drive the primary winding of transformer T1 to produce the output > voltages, R11 provides bias to keep Q8 turned off, and R12 provides bias to > keep Q9 turned off until U1 sends a varying pulse width to drive Q8 and Q9. > Pin 4 of U1 provides a +5-volt reference voltage, R9 and R20 is a voltage > divider that provides a 2.5-volt reference to pin 2 of U1. When the voltage > is lower than 2.5 volts on pin 1 of U1 the pulse width is increased at U1 > pin 8 and U1 pin 11, when the voltage is higher than 2.5 volts on pin 1 of > U1, then the pulse width is decreased at U1 pin 8 and U1 pin 11. R22 and R23 > is a voltage divider which divides the +5 volts to approximately 2.5 volts. > R22 sets the upper limit of the +5 volts. The potentiometer R23 adjusts the > +5 volts. The voltage at the wiper of R23 is compared to pin 2 of U1. D1 and > D2 full wave rectifies the +5 volts, C8 and C13 filters the +5 volts. The +5 > volts drives D11 which is a light-emitting diode, R6 limits the current > through D11. D11 lights when high voltage is being produced. > > D3 and D4 connect to the high-voltage winding of T1, D3 rectifies and > produces the +2000 volts DC, C1 filters the +2000 volts, and C2 filters the > -2000 V DC. R24 is selected to adjust the plus and minus 2000 volts. > > The voltage from rectifier BR1 FIG. 2 is used in FIG. 7 to generate the > voltage to drive R5 in FIG. 1. Resistors R27, R28, R29, R30, R2, R1 and > potentiometer R26 provide a voltage divider to ultimately set the voltage on > heater R5. Capacitor C4 provides additional filtering to the voltage on > heater R5. The divider output voltage on the anode of diode D6 is stepped > down by the diode drops of diodes D6 and D7 and emitter followers Q16 and > Q15 to drive the five parallel emitter followers Q10, Q11, Q12, Q13, Q14. > The emitter follower Q10-Q14 output currents are balanced by resistors R7, > R8, R17, R18, R25 and drive the heater R5. > > The voltage from rectifier BR1 FIG. 2 is used in FIG. 8 to generate the > voltage to drive the electromagnets L1 and L3 FIG. 1. Resistors R42, R43, > R44, R45, R33, R31 and potentiometer R32 provide a voltage divider to > ultimately set the voltage on electromagnets L1 and L3. Capacitor C7 and C14 > provides additional filtering to the voltage on electromagnets L11, L3. The > divider output voltage on the anode of diode D8 is stepped down by the diode > drops of diodes D8 and D9 and emitter followers Q7 and Q6 to drive the five > parallel emitter followers Q1, Q2, Q3, Q4, Q5. The emitter follower Q1-Q5 > output currents are balanced by resistors R37, R38, R39, R40, R41 and drive > the electromagnets L1 and L3. > > The diode D10 is used to suppress the inductive kick from electromagnets L1 > and L3 when the device is shut down. > > FIG. 4 is a more detailed mechanical depiction of the present invention. > Heater R5 is a 620 watt Halogen pencil lamp approximately 12 inches long > with a diameter of approximately 0.3 inches. Power is supplied at the ends > of the lamp A, B. > > Accelerators L4, L5 are thin wires wrapped around the heater R5 for circular > polarization. For linear polarization, accelerators L4 and L5 are placed > along the lamp 180.degree. apart. The spacing between accelerators L4 and L5 > are not critical but must be enough space to prevent arcing between the > accelerators L4, L5. The accelerators L4, L5 operate at +2000 V DC on L5 and > -2000 V DC on L4. > > The heater R5 is placed inside of inductor housing 10 approximately 10.3 > inches long and 1.1 inches in diameter. Heat insulating material HI is > installed on the inductor housing 10. > > Coils are wound on forms to form electromagnets L1, L3. The electromagnets > L1, L3 are wound with 2500 turns of 22 AWG wire. The electromagnets L1, L3 > are placed on the inductor housing 10 so that both magnetic norths are > toward the center of the inductor housing 10. The electromagnets L1, L3 are > separated by 0.4 inches for the magnetic injection assembly L2. Connector J1 > provides an electrical connection to the magnetic injection assembly L2. > > FIG. 5 further illustrates the electrical relationship between the heater > R5, the accelerators L4 and L5, and the electromagnets L1, L3. > > FIG. 11 shows the mechanical dimensions of the inductor housing 10 and the > heater R5. > > FIG. 9 is the mechanical dimensions of the coil form CF1 and CF3 for the > electromagnets L1, L3. The coil forms CF1 and CF3 are wound with 2500 turns > of 22 AWG wire to from electromagnets L1, L3. > > FIG. 10 is the mechanical dimensions of the coil from CF2 for the magnetic > injection assembly L2. > > FIGS. 6 and 12 are a parts list for the current invention. The invention has > been built as a prototype and testing is in progress. > > FIG. 13 shows electromagnet L1 which generates a first magnetic field 101. > Electromagnet L3 generates a second magnetic field 102. The intersection of > first magnetic field 101 and second magnetic field 102 forms electromagnetic > injection point 100. > > Although the present invention has been described with reference to > preferred embodiments, numerous modifications and variations can be made and > still the result will come within the scope of the invention. No limitation > with respect to the specific embodiments disclosed herein is intended or > should be inferred. > > > ______________________________________ > GLOSSARY > ______________________________________ > L1. Electromagnet > L2. Electromagnetic injection assembly > L3. Electromagnet > L4. Accelerator > L5. Accelerator > R5. Heater > J1. BNC connector > PS1. Power supply > ______________________________________ > > > > > * * * * * > ______________________________________________________ > Get Your Private, Free Email at http://www.hotmail.com > > <A HREF="http://www.ctrl.org/">www.ctrl.org</A> > DECLARATION & DISCLAIMER > ========== > CTRL is a discussion & informational exchange list. Proselytizing > propagandic > screeds are not allowed. Substance-not soap-boxing! These are sordid > matters > and 'conspiracy theory'-with its many half-truths, misdirections and > outright > frauds-is used politically by different groups with major and minor effects > spread throughout the spectrum of time and thought. That being said, CTRL > gives no endorsement to the validity of posts, and always suggests to > readers; > be wary of what you read. CTRL gives no credence to Holocaust denial and > nazi's need not apply. > > Let us please be civil and as always, Caveat Lector. > ======================================================================== > Archives Available at: > http://home.ease.lsoft.com/archives/CTRL.html > > http:[EMAIL PROTECTED]/ > ======================================================================== > To subscribe to Conspiracy Theory Research List[CTRL] send email: > SUBSCRIBE CTRL [to:] [EMAIL PROTECTED] > > To UNsubscribe to Conspiracy Theory Research List[CTRL] send email: > SIGNOFF CTRL [to:] [EMAIL PROTECTED] > > Om > > > > > ------------------------------------------------------------------------------- http://www.vcn.bc.ca/culturex/The-Question-Nobody-Will-Answer.htm ------------------------------------------------------------------------------- ------------------------------------------------------------------------ MAXIMIZE YOUR CARD, MINIMIZE YOUR RATE! Get a NextCard Visa, in 30 seconds! Get rates as low as 0.0% Intro or 9.9% Fixed APR and no hidden fees. Apply NOW! http://click.egroups.com/1/2122/1/_/564407/_/954230771/ ------------------------------------------------------------------------ What would a complete society be like if it were to "do all for the glory of God"? (I Corinthians 10:31). What would Canada be like if it were a "Godly Society" functioning in this manner? <A HREF="http://www.ctrl.org/">www.ctrl.org</A> DECLARATION & DISCLAIMER ========== CTRL is a discussion & informational exchange list. Proselytizing propagandic screeds are not allowed. Substance—not soap-boxing! These are sordid matters and 'conspiracy theory'—with its many half-truths, misdirections and outright frauds—is used politically by different groups with major and minor effects spread throughout the spectrum of time and thought. That being said, CTRL gives no endorsement to the validity of posts, and always suggests to readers; be wary of what you read. CTRL gives no credence to Holocaust denial and nazi's need not apply. Let us please be civil and as always, Caveat Lector. ======================================================================== Archives Available at: http://home.ease.lsoft.com/archives/CTRL.html http:[EMAIL PROTECTED]/ ======================================================================== To subscribe to Conspiracy Theory Research List[CTRL] send email: SUBSCRIBE CTRL [to:] [EMAIL PROTECTED] To UNsubscribe to Conspiracy Theory Research List[CTRL] send email: SIGNOFF CTRL [to:] [EMAIL PROTECTED] Om