Abstract:
The frequency transfer system modulates square wave frequencies from a data storage medium to a pair of electrically conductive contact surfaces. The system contains at least one feed line into a transfer unit that has at least one voltage threshold limitation member to prevent the voltage from exceeding a predetermined amount. An anode and cathode leads terminate at the contact surfaces. A voltage indicator within the transfer unit is activated at a predetermined minimum voltage. The storage medium contains the odd harmonics derived from the square waves that are recorded in synchronization with the square waves. Body affixing means are used to maintain at least one of the contact surfaces with the a user&#39;s skin. Alternatively, the first contact surface contacts the user&#39;s skin and the second contact surface is proximate the user&#39;s skin. In one embodiment the data storage medium is a CD and is played through an amplifier placed between the CD player and the transfer unit. The minimum voltage levels are set through an amplifier in response to a prerecorded data storage medium that generates an optimum square wave amplitude. It is the combination of the square waves and odd harmonics of the square wave that provide the maximum benefit.

Description:
RELATE BACK 
     This application is a continuation-in-part of U.S. application Ser. No. 60/073,311 filed Jan. 29, 1999, the contents of which are incorporated herein as though recited in full. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     An inexpensive, portable apparatus, and CDs, to enable frequencies to be played from a home CD player is disclosed. 
     2. Brief Description of the Prior Art 
     It has long been known that all substances are composed of atoms, each with a vibrational frequency inherent in its composition. Just as all substances have a vibrational frequency which maintains their integrity and composition, interference with this frequency can destroy the substances integrity. This can be seen when a singer has sufficient power in their voice to bring the frequency of the sung note to the frequency of a crystal glass, thereby breaking the glass. This physical law can also be applied to the icosahedral and helical symmetry within a cell. The amplitude of a vibrational frequency can disrupt a cell, destroying the protein bonds. Viruses and other pathogens are weakly bonded and their symmetry can be considered a torsional oscillator which can be destroyed by over driving these “oscillators” at their resonant frequency. 
     Once the ability to detect and measure the vibrational frequencies was discovered, the destruction of pathogens was explored. This is reflected in vast amounts of prior art and publications since the 1940s. Publications such as The Rife Way 3, Mark Simpson; Blast It, Part 2: Frequency Listings for Diseases, Disorders and Other Pesky Problems, Compilation Halal Information, Texas; and The Cure for All Diseases, Hulda R. Clark, PhD, MD, New Century Press, San Diego, Calif. (1995). The use of frequencies as a muscular therapy device is disclosed in U.S. Pat. No. 4,919,139 issued to Brodard. The device, however, consists of a computer and electrodes and requires complex programming to sequence the programmed pulses. Other patents have utilized frequencies, pulses and voltages; however, none have taken the frequency of specific pathogens, recorded the frequency, and made this treatment available in a compact, inexpensive system. 
     Without the ability to easily bring this technology to individuals, the full benefits are difficult to achieve. The disclosed invention makes the benefits of this technology easily accessible to the public. Additionally, the disclosure takes the relationship between the square wave created by audible sound and the subsequent cascading harmonics and converts this relationship to mathematical formulas. By making this relationship computable, subsequent identification of harmonics destructive to pathogens will be easier to define. 
     SUMMARY OF THE INVENTION 
     The disclosed system utilizes a recording medium which has been prerecorded with at least one specific frequency. The square wave frequencies are recorded resulting in sine wave harmonics which disrupt the molecular bond of the pathogen protein molecules. In one embodiment, a frequency transfer unit is disclosed that enables the user to play the prerecorded frequencies on existing stereo equipment. In this embodiment, the frequency transfer unit enables easy amplitude adjustment, through use of the stereo volume control, based on a specifically recorded set up CD. In another embodiment, the prerecorded medium is included within the vibrational unit to allow for portability. The vibrational unit contains electrodes which are affixed to opposing extremities of the body. The voltage received through these electrodes is in the 5-10 volt range. 
     Also disclosed is the mathematical calculations which allow the sine waves of inaudible frequencies to be reduced to audible square waves. The square waves generate sine waves at cascading odd harmonics which also facilitate the destruction of pathogens 
     The frequency transfer system modulates square wave frequencies from a data storage medium to a pair of electrically conductive contact surfaces, such as stainless steel. The system contains at least one feed line into a transfer unit that has at least one voltage threshold limitation member to prevent the voltage from exceeding a predetermined amount. An anode lead terminating at a first contact surfaces and a cathode lead terminating at a second contact surfaces exit the unit. A voltage indicator within the transfer unit is activated at a predetermined minimum voltage. In one embodiment the voltage threshold limitation member can have a high and low setting to enable the maximum voltage to be varied. 
     The storage medium further contains the odd harmonics derived from the square waves and are recorded in syncronization with the square waves. Body affixing means are used to maintain at least one of the contact surfaces with the a user&#39;s skin. Alternatively, the first contact surface contacts the user&#39;s skin and the second contact surface is proximate the user&#39;s skin. 
     The square wave frequencies are created on a frequency counter/generator for storage on the data storage medium. In one embodiment the data storage medium is a CD and is played through an amplifier placed between the CD and the transfer unit. The minimum voltage levels are set through an amplifier in response to a prerecorded data storage medium that generates an optimum square wave amplitude. 
     The transfer unit can alternatively have a set switch with at least three positions. The first position placing the voltage threshold indicator in a mode to indicate the predetermined minimum voltage, a second position enabling modulation and flow of the voltage and a third position turning unit off. 
     Other embodiments can include a oscilloscope to monitor the square waves and/or a multimeter to monitor the voltage. A timer can be included that displays the time on a display screen, as well as time period buttons, for setting a period of time to play the data storage medium. 
     In one embodiment a securing pad is attached to the transfer unit. The securing pad has a first and second side, with the first contact surface embedded within the pad and positioned to be in contact with the user&#39;s body. A second contact surface is on the second side of the securing pad. When the user lies on the pad, electrons enter the user&#39;s body from the second contact surface and transfer through the user&#39;s body to the first contact surface. 
     In another embodiment the system uses a cathode pad, containing the second contact surface, in combination with a retaining member that contains the first contact surface. The user sits on the cathode pad and places the retaining member in contact with their skin. 
     It is the combination of the square waves and odd harmonics of the square wave that provide the maximum benefit. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The advantages of the disclosure will become more apparent when read with the specification and the drawings, wherein: 
     FIG. 1A shows a virus capsid protein molecule; 
     FIG. 1B is a mathematical abstraction of the virus; 
     FIG. 1C the bonding region, center of mass and elastic coupling of the protein molecule; 
     FIG. 2 is a front view of the exterior of the preferred embodiment of the disclosed frequency transfer unit; 
     FIG. 3 is a schematic of one method of arranging the interior electronics for the unit of FIG. 2; 
     FIG. 4 is a front exterior view of an alternate embodiment of the frequency transfer unit; 
     FIG. 5 is a schematic of one method of arranging the interior electronics of the unit of FIG. 4; 
     FIG. 6 is a side view of the ankle electrode for use with the frequency transfer units; 
     FIG. 7 is a side view of the finger electrode for use with the frequency transfer units; and 
     FIG. 8 is a side view of an alternate embodiment of an ankle electrode; 
     FIG. 9 is a front view of a amplifier/CD combination frequency transfer unit containing alternative voltage controls; 
     FIG. 10 is a partial view of a frequency transfer unit having the contacts placed on either side of a mattress pad; 
     FIG. 11 is a perspective side view of a frequency transfer unit having the contacts placed on either side of an office chair; 
     FIG. 12 is a front view of a frequency transfer unit containing a CD player/timer; and 
     FIG. 13 is a contact placed in a arm band for use with FIG. 11, to enable the contact to be placed proximate the skin of the user. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The disclosed technology has taken this known and proven scientific data further by amplifying the odd harmonics that naturally occur within the square wave. 
     The sine wave is the most common sound occurring in nature. A fundamental sine wave produces even and odd harmonics which are multiple frequencies of the fundamental. Therefore a 100 cycle per second sine wave produces harmonics of 200, 300, 400, 500, etc., cycles per second. The 100 cycle per second square wave, however produces only odd harmonics, 300, 500, 700 cycles per second and up. 
     It is the odd harmonics generated from a square wave that induce resonance in a body that sympathetically vibrates at the same, or nearly the same, frequency. The disclosed recorded medium, modulated by the frequency transfer unit, incorporates the square wave and its harmonic components. This applied resonance may either stimulate a cell to a higher energy state or it may destroy the cell if its amplitude (height of the wave) and time of application (duration) are sufficient. 
     The higher energy states can be enhanced to stimulate a cell into a sympathetic resonance more effectively. When this increased resonance exceeds the molecular bonding capability of the cell, the cell breaks apart destroying the organism. Consequently, what is experienced by the client is a local and/or general reaction of the immune system that can now recognize and eliminate the particulate matter as a result of the cells destruction. Somehow these insidious organisms that cause premature aging and our early demise appear harmless to our immune system until they are exposed to their resonant frequency and obliterated enabling the bodies defense mechanism to respond. This process is called a Die Off reaction. The Die Off reaction will continue to occur upon successive treatments until there are no longer enough degenerative cells to stimulate an acute immune response, or until there are no more cells remaining that are sympathetic to the frequencies being applied. Further advantages can be obtained from the disclosed device by periodically screening for a variety of potential degenerative organisms before they have the opportunity to cause harm to the body. 
     The basis for the destruction of pathogens through frequency modulation is the weak protein bond between molecules, as illustrated in FIGS. 1A-C, with each overlap or intersection region for each protein molecule serving as a weak point. Using this weakness, in combination with increased amplitudes at the pathogen&#39;s frequency, even ultra low intensity (10-16 w/m2) standing waves can rupture these bonding regions. When exposed to its most stressful mechanical oscillation mode, the disintegration of a pathogen can be viewed through a microscope. To illustrate why the bonds are disintegrated, FIG. 1A illustrates an example virus capsid  10  using a ten-member protein clumping. In FIG. 1B a mathematical abstraction of the virus capsid  10  is portrayed with a focus on the oscillation of a single protein  12 . As can be seen, the focused area is an ellipse having its major axis at the bonding region with the adjacent protein and its minor axis as the center of mass of the protein molecule. An elastic coupling extends along the major axis between the protein molecules. It is at the bonding region between the adjacent protein molecules that the pathogen is weakest. Additional information to corroborate the process, as well as specific frequencies, can be found in publications such as The Rife Way 3, Mark Simpson; Blast It, Part 2: Frequency Listings for Diseases, Disorders and Other Pesky Problems, Compilation Halal Information, Texas; The Cure for All Diseases, Hulda R. Clark, PhD, MD, New Century Press, San Diego, Calif. (1995); and papers published by Dr. Royal Raymond Rife, Appendix B, C, D, F and G. The Robert Cathey Research Source, A Physicist&#39;s View of Dr. Rife&#39;s Non-Drug Treatment Cure of Microbial Associated Diseases, Bary Wade, health Freedom News, August, 1994. These publications are incorporated herein as though recited in full. 
     The theory disclosed by Dr. Royal Raymond Rife incorporates the following differential equation for free oscillation as shown in FIG. 1 of Appendix D: 
     
       
           d   2   S/dt   2 +( b/m ) dS/dt+Wo   2   S=   0 ;  
       
     
     where 
     S=displacement of the center of mass from the equilibrium position 
     m=the mass of the protein molecule 
     b=a positive drag factor constant 
     Wo=the natural resonance angular frequency 
     Thus, if m is displaced a distance from its equilibrium and released to freely oscillate, a displacement amplitude occurs. As can be seen, the amplitude of oscillation is exponentially decreased in time, due to the velocity-dependent drag force, represented by the magnitude of b. Additional equations for explaining Rife&#39;s view of this phenomena are found in his personal Appendix D, as cited above. Blast It! provides a sequence of Hertz frequencies, set forth below, which have been utilized by Rife and others in successful experiments. The applicable frequencies of specific diseases are also listed in subsequent pages of Blast It!. 
     As stated in the foregoing reference, an independent research group exposed a number of pathogenic microorganisms to the following frequencies, simultaneously, on a light carrier wave, killing the exposed microorganisms. 
     
       
         
               
               
               
               
               
             
           
               
                   
               
             
             
               
                 121 
                 666 
                 690 
                 1840 
                 1998 
               
               
                   
               
             
          
         
       
     
     Further research in 1989 suggested the following frequencies 
     
       
         
               
               
               
               
               
               
               
               
               
               
               
               
             
           
               
                   
               
             
             
               
                   1 
                   1.8 
                   3.5 
                   4 
                   5 
                   5.5 
                   7 
                   8 
                   9 
                   10 
                   13 
                  14 
               
               
                  15 
                  18 
                  22 
                  26 
                  28 
                  30 
                  36 
                  41 
                   70 
                   72 
                   78 
                  81 
               
               
                  82 
                  95 
                  121 
                  160 
                  162 
                  240 
                  304 
                  423 
                  428 
                  432 
                  440 
                  664 
               
               
                  676 
                  700 
                  712 
                  725 
                  730 
                  764 
                  770 
                  775 
                  780 
                  781 
                  799 
                  803 
               
               
                  804 
                  864 
                  875 
                  885 
                 1000 
                 1027 
                 1050 
                 1100 
                  1550 
                  1552 
                  1862 
                 1865 
               
               
                 2050 
                 2100 
                 2120 
                 2130 
                 2180 
                 2200 
                 2452 
                 2720 
                 31000 
                 31750 
                 34750 
               
               
                   
               
             
          
         
       
     
     Data from hundreds of successful experiments found the following sequence of Hertz frequencies, as published in Blast It!. 
     
       
         
               
               
               
               
               
               
               
               
               
               
               
               
             
           
               
                   
               
             
             
               
                   1 
                   1.8 
                   3.5 
                   4 
                   5 
                   5.5 
                   7 
                   8 
                   9 
                  10 
                  13 
                  14 
               
               
                  15 
                  18 
                  20 
                  22 
                   26 
                   28 
                   30 
                   36 
                  41 
                  60 
                  70 
                  72 
               
               
                  78 
                  80 
                  81 
                  82 
                   95 
                  100 
                  120 
                  121 
                  125 
                  160 
                  162 
                  240 
               
               
                  250 
                  304 
                  400 
                  423 
                  428 
                  432 
                  440 
                  450 
                  465 
                  500 
                  600 
                  622 
               
               
                  625 
                  650 
                  660 
                  664 
                  666 
                  676 
                  690 
                  700 
                  712 
                  725 
                  727 
                  728 
               
               
                  730 
                  740 
                  764 
                  770 
                  775 
                  776 
                  780 
                  781 
                  784 
                  787 
                  799 
                  800 
               
               
                  802 
                  803 
                  804 
                  864 
                  875 
                  880 
                  885 
                  1000 
                 1027 
                 1050 
                 1100 
                 1500 
               
               
                 1550 
                 1552 
                 1560 
                 1570 
                  1600 
                  1800 
                  1840 
                  1850 
                 1862 
                 1865 
                 1998 
                 2000 
               
               
                 2008 
                 2050 
                 2093 
                 2100 
                  2120 
                  2127 
                  2128 
                  2130 
                 2180 
                 2200 
                 2250 
                 2452 
               
               
                 2489 
                 2720 
                 6500 
                 5000 
                 10000 
                 31000 
                 31750 
                 34750 
               
               
                   
               
             
          
         
       
     
     Although these frequencies were obviously known, they have not been widely used, partially due to equipment inconvenience. The equipment used by Rife, and others, was bulky and expensive, thereby requiring visits to a facility for each treatment. Conversely, the frequency transfer units disclosed herein enable this frequency technology to be easily accessible to anyone with a stereo or other medium, such as a computer CD, Walkman, etc. Although the frequencies for use with the transfer unit disclosed herein can be recorded on any recording medium, such as computer chip, tape, etc., for ease of description, reference will be made herein to the use of a CD and amplifier. Optimally, the recording medium is high quality and distortion free, with user selectable tracks. 
     Magnetic medium can be used; however, this medium is generally not distortion free, is easily destroyed, and does not have the track selectability of other mediums, such as a CD. Since the frequencies being used to break the pathogen bonds are modulated for a specific pathogen, the frequency output must be within 20% of the targeted frequency. To maintain effectiveness, the recording medium must have the ability to repeatedly reproduce the originally recorded frequencies. When a recording medium is of a size sufficient to be incorporated within the vibrational unit, such as a computer chip, the vibrational unit can serve as player and modulator. 
     The following definitions are used herein in a standard, industry accepted manner. 
     Fundamental wave: having the form of a series of curves or undulations. The length of the wave is determined by the frequency of its rise and fall in relation to time (cycles per second). 
     Frequency: The number of periodic vibrations express in cycles per second or Hertz (Hz). 
     Harmonic: A mathematical progression of frequencies naturally produced from a fundamental frequency (sine wave or square wave). 
     Resonance: The effect produced when the natural vibration frequency of a body is greatly amplified by reinforcing vibrations at the same or nearly the same frequency from another body. 
     Frequency Transfer Unit 
     The frequency transfer units disclosed herein provide the electronic liaison between the CDs and the user. Safety features, in the form of resistors and diodes, or the equivalent, prevent excessive voltage from reaching the user. If the directions for use are followed, the voltage transferred through the transfer units automatically adjusts to an appropriate level. However, if the user inadvertently increases the volume on the amplifier or fails to follow the set up directions, the unit prevents the higher voltage from reaching the user. 
     The preferred frequency transfer unit  50 , illustrated in FIG. 2, has a body  66  containing the electronics, an example of which is illustrated in FIG.  3 . An feed line  52  is configured to be connected to the user&#39;s stereo and provides the frequency input into the transfer unit  50 . As illustrated, the feed line  52  is connected to the earphone port of the user&#39;s amplifier, however, other output ports can be used with appropriate equipment modifications, as will become evident to those skilled in the art. 
     Two output leads, cathode lead  58  and anode lead  60 , exit the body  66  and are connected to electrode plates  68 , which are in turn affixed to lead bands  62  and  64 . As illustrated in FIG. 2, the cathode lead band  62  and anode lead band  64  are elasticized bands for placement on a user&#39;s wrist or ankle, however any method that securely places the electrode plates  68  against the skin can be used. The cathode lead  58  introduces the voltage to the user where it is “attracted” to the anode lead  64 . To reach the anode lead  64 , the voltage must travel through the user&#39;s body, thereby destroying cells attuned to the specific frequency being played on the CD. 
     One of the preferred material for manufacture of the electrode plate  68  is stainless steel, although other materials can be used. Stainless steel is an optimum material as it is non-allergic and does not produce “hot spots” within the plate. By maintaining even transference of the frequencies along the plate  68 , the voltage output of the frequency transfer unit can be increased without any discomfort to the user, thereby increasing the effectiveness of the device. Other conductors, including composites, can be used providing they produce the same results as stainless steel. 
     The body  66  of the transfer unit  50  preferably contains an on/off switch  56 , although the unit  50  can be turned on and off simply by unplugging the input line  52  from the amplifier and/or CD source. The addition of the on/off switch  56  is a matter of cost and manufacture and/or consumer preference. A setting light  54  is used to indicate that the appropriate number volts are entering through the feed line  52 . The voltage acceptable by the user, and hence the unit, is determined and “enforced” by resistors and diodes installed at the time of manufacture. The output of the transfer unit should not exceed 11 volts, while 5 volts would be the minimum applicable output. Although the zenor diodes Z 1  and Z 2 , as illustrated in FIG. 3, will prevent the voltage from going above the predetermined level, when a stereo amplifier is being used to drive the device, only visual recognition, via the volume control and setting light, can ensure that the voltage has reached the predetermined level. Other indicating signals, such as vibratory or audio, can replace the visual signal of the setting light  54 . Alternatively, more than one indicating signal can be installed at time of manufacture and the desired signal, or combination, can be selected by the user. 
     To set up the frequency transfer unit for use, a setup CD is provided that enables the user to set the proper volume of the amplifier, bringing the recorded square waves to the appropriate amplitude. The set up CD is played while the volume on the amplifier is turned up to the point where the setting light  54  has just begun to pulse at 5.5 Hz. This is the proper amplitude at which recorded therapeutic protocols are viable. It should be noted, however, that these values can vary depending upon equipment. The user ceases turning up the volume at that point and replaces the set up CD with the appropriate frequency CD to be utilized for a therapeutic session.. The frequency transfer unit will continue to modulate the optimum square waves and recorded harmonics until the amplifier volume is decreased or turned off. 
     For units having an amplifier/CD combination, such as illustrated in FIG. 9, the minimum voltage will be automatically established and setting the minimum level is not required. The unit  200  does not require the equivalent of a volume setting knob as this is permanently set within the body of the unit. The unit can be provided with the normal CD functions buttons  214  such as play, repeat, etc. 
     It should be noted that the voltage references herein are within the safe range for humans. This technology can also readily be adapted for animal use and the voltage would necessarily require adjustment in accordance with the physiology of the particular animal. 
     In the embodiment illustrated in FIG. 4, the unit  150  has a feed line  162  that leads into the body  160  from the user&#39;s receiver. A cathode output line  164  and anode output line  166  exit the body  160  and end in an ankle electrode  180  of FIG. 6 and a finger electrode  186  of FIG.  7 . Although the finger electrode  186  is illustrated as being connected to the cathode output line  164  and the ankle electrode  180  connected to the anode output line  166 , this is only one embodiment and the cathode/anode lines can be switched as desired. The finger electrode  186  and ankle electrode  180  are, as stated heretofore, preferably manufactured from stainless steel to prevent “hot spots”. Although stainless steel is preferable, other electrically conductive materials, such as composites, aluminum or copper, that transmit AC voltage corresponding to the recorded frequencies to the skin. The body  160  of the unit  150  is provided with an indicator  152 , such as a red LED, a set switch  154  and an operating indicator  158 , such as green LED. The indicator  152  and operating indicator  158  preferably provide distinctive indications, such as different colors, as each indicates an opposing function. Although the LEDs are referred to as red and green in the description herein, this is used for reference purposes and in no way limits the scope of the invention. 
     The 12-volt indicator  152  is used, in combination with the set switch  154 , to enable the user to know when the proper voltage for the specific CD being played has been obtained. The illustrated set switch  154  is a three way switch which enables the unit  150  to be placed in the “set” position  156 , “off” position  172  or the “operating” position  170 . The operating indicator is used to indicate unit operation when the switch  154  is placed in the operating position  170 . The incorporation of the three-way set switch additionally provides a neutral or “off” setting. For protection of the unit  150 , a fuse  168 , for example 63 milliampere, is preferably incorporated in line with the electronics within the unit  150 . In the event the electrodes in this embodiment are manufactured from a non-flexible material, several sizes can be produced to enable the electrode to fit more than one finger or ankle size. 
     Alternatively, standard self-adhesive electrode pads, as commonly used with EKGS, can be used in combination with an electrolyte gel. Additionally, the electrolyte gel can be used with the foregoing electrodes  68 ,  180  and  186 . 
     An alternate example of an interior electrical system is illustrated in FIG.  5 . As can be seen, the feed line  162  is divided, with the positive wire going to the fuse  168  and the negative wire going to the negative connections on the indicator  152  and operating indicator  158 . From the fuse  168 , the positive line  192  is put into a transient voltage suppresser  190  prior to connecting to the switch  154  and red LED  152 . The transient voltage suppresser  190  is optimally in the range of 13 to 16V, to attenuate the voltage going into the indicator  152 . By placing the transient voltage suppresser  190  between in line with the indicator  152 , a disparity is created between the indicator  152  and operating indicator  158 . Since the indicator  152  is used to set the output through volume manipulation, the range of the indicator  152  needs to be greater than that of the operating indicator  158 . When the switch  154  is in the set  156  position, the output voltage is partially attenuated while being diverted to the indicator  152 . Once the switch  154  is placed in the off mode  172 , the connection with the indicator  152  is broken. Placing the switch  154  into operating position  170 , the connection with the operating indicator  158  is activated to maximum applicable output amplitude. Although a two position switch can also be used, it is preferable that the unit  150  have a center off position during which time the unit is inoperable. 
     To set the system prior to each application, the CD is placed into the player and the volume of the amplifier is turned down to the lowest level. In the event the unit  150  is not plugged into the speaker output, the speakers are switched off. Each CD, when initially produced, is recorded with a reference frequency as a first track. This reference frequency allows the user to align the volume of the equipment, and therefore the output voltage, with the prerecorded frequencies on the CD. To align the amplifier with the frequency, the switch  154  is placed in the set position  156 . The volume on the amplifier is gradually increased until the indicator  152  begins to illuminate. The user should then slowly decrease the volume until the indicator  152  is just extinguished. The proper voltage is now set. The switch  154  is placed in the operating position  170  to establish full amplitude capacity to output electrodes, and the CD set to the desired tracks in the same manner as a standard CD. 
     An alternative ankle electrode  100 , as illustrated in FIG. 6, is manufactured from a rigid material, thereby producing an inflexible body  104 . A hinge  102  allows the electrode  100  to be opened and closed to fit snugly around the user&#39;s ankle. The hinge  102  is placed to avoid interference with the connection of the output line  106 . 
     The ankle electrode  180  and finger electrode  186  are placed on the opposite extremities. It does not matter whether the electrodes  180  and  186  are placed on the right or left extremities, only that they are placed on the opposite extremities. The switch  154  is then placed in the operating position  170 , thereby completing the connection. 
     In FIG. 9 a professional unit  200  is shown wherein the frequency transfer unit is incorporated, along with a multimeter  204  and oscilloscope screen  206 , within the body  202 . A voltage switch  208  is provided to take the voltage from a low to high point. Alternatively a knob can be provided to provide more than the two voltage settings. The cathode and anode leads  210  and  212  can be either plugged in using standard plugs, or permanently connected to the body  202 . Preferably the unit includes an on off switch an a conveniently located area. 
     FIG. 10 illustrates a bed unit  250  for use on a bed. The frequency pad  252  is placed across the bed mattress to come in contact with the user&#39;s body. The anode contact  260  is woven into the mat  252 , in this embodiment in the words Body Vibes. The anode contact  260  must be in contact with the user&#39;s skin to attract the electrons from the cathode  262 . The anode contact  260  is, in this embodiment, manufactured from a thin stainless steel, or silver, wire to provide comfort the user while providing maximum contact. If wire is used, the gauge will be dependent upon the end use. Alternatively, a thin, flexible solid plate can be substituted for the wire. The anode contacts  260  are then connected to the frequency unit  258  through use of anode  254 . The cathode contact  262  is placed beneath the pad  252 , facing the user. The cathode contact  262  is connected to the frequency unit  258  through use of the cathode lead  256 . The electrons are transmitted from the frequency unit  258  to the cathode contact  262  beneath the pad  252 . As the electrons are compelled to reach a balanced level, they are drawn to the anode contact  260 , with the only way to reach the anode contact  260  being through the user&#39;s body. 
     The frequency unit  258  illustrated in FIG. 12 enables the user to use the frequency unit  258  during sleep without any inconvenience. The frequency unit  258  has the amplifier and CD  280  built into the unit and, in addition to the standard on/off and play buttons, a display screen  284  and timer  282  and clock  286  set buttons are provided. The clock  282  would be set using standard minute/hour buttons. The timer  282  would set the period of time the CD player  280  would run. In this way, the CD could be used on a timed basis if desired. Alternatively, the timer can be set for an “on/off” time as known in the alarm art. This embodiment enables the user to preset the period of time required for the particular set of frequencies. 
     In a preferred embodiment, the player would be provided with “beginning set” and “end set” buttons to enable a block of frequencies to be repeatedly played for the predetermined time period. Once all of the blocks of sets are programmed in, the time for each set would be programmed. This enables a first set of frequencies to be played for a first period of time and a second and/or third sets to be played for different periods of time. In FIG. 11 the frequency unit  306  is removably affixed to a office chair  300 , although this embodiment is also applicable to car seats, lounge chairs, etc. The seat pad  302  is wrapped around the chair  300  with the cathode contact  312  woven into the pad  302 , as described in conjunction with FIG.  10 . The cathode contact  312  is affixed to the frequency unit  306  through use of cathode lead  304 . The anode contact  314  is placed on the back pad  310 , as noted above, and connected to the frequency unit  306  through use of the anode lead  308 . In order for the electrons to be attracted to the anode contact  314 , the anode contact  314  must be in communication with the user&#39;s skin. In the embodiment illustrated in FIG. 11, the user&#39;s shirt would be moved to enable the communication between skin and contact  314 . In office settings this would frequently create a problem and therefore a wrist or arm band  332  can be used rather than the pad  310 . The elastic, or otherwise adjustable band  332  contains the anode contact  334  and is connected to the unit  306  through anode lead  330 . The band  332  is placed around the user&#39;s arm, or wrist, to come in contact with the skin. Alternatively, the band  332  can be replaced by a belt or ankle band, or other device to secure the contact between the users skin and the electrode  334 . Preferable the anode lead  308  unplugs from the frequency transfer unit  306  to enable easy substitution of additional anode contacts. Thus, a user can use the pad  310  at home or bring the unit into the office and plug in a wrist band contact. 
     The desired frequencies are placed onto the recorded modulating medium for a predetermined length of time and may be repeated as necessary to equal the recommended treatment time. The treatment time is dependent upon the pathogen and its severity, user body weight, etc. Since application of the frequencies for periods of time longer than the recommended time period cannot harm the individual, the concern is matter of insuring that the frequencies are used for a period of time sufficient to allow destruction of the pathogens&#39; molecular bonds. As stated herein, the frequencies are not of an amplitude to penetrate and harm healthy cells. Only the pathogens residing at the outer portion of the tissues are destroyed by the frequencies with pathogens residing within the tissue migrating outward to occupy the empty spaces. The use of repeated treatments destroys pathogens as they migrate to the outer portions of the tissues until all pathogens have been destroyed. 
     As each frequency is aligned with the frequency of the pathogenic protein bond to be broken, only bonds which are affected by these frequencies are those specific targeted pathogens. Normal cells are prevented from being affected by the recorded frequencies by their inherent structure. A normal cell has a hexagonal and pentagonal periphery, a stronger molecular matrix, and a substantially higher mortal oscillation rate. The voltage required to affect a normal cell is in the range of 50 volts and the safeguards provided in the disclosed device prevent the voltage level from reaching even close to a harmful point. As stated heretofore, the frequencies of many pathogens have been known for years. To date, however, the prior art has only consisted of cumbersome and expensive equipment. This knowledge has been taken no further than the destruction of pathogens without looking at these frequencies as one part of an interactive network affecting our health. Many of the strands of the network are known; however, to date they have not been woven together. From musical theory it is known that notes progress up and down the major scale with mathematical relationship, repeating every 12th semi-tone. Each note repeated within the octave is 12 semi-tones above or below the note in previous or subsequent octaves. In nature, the earth has a frequency, known as the Schumann Resonance, of 7.9 to 8.1 hertz, and each color of the rainbow vibrates at a specific frequency, which is analogous to one of the seven notes on the scale. Each note of a C major scale when divided by 32, starting at middle C scale, is equal to the lowest equivalent note of the C scale beginning at 8.1 hertz as seen in Table I. 
     These sub-harmonic frequencies also correspond to human brain waves. The chakra system of Ayurvedic medicine also corresponds to color frequencies, an accepted fact in Eastern philosophy for centuries. The foregoing method can also be used to enhance chakra frequencies, which directly correspond to the musical major C scale in a variety of harmonious combinations, using the appropriately recorded CDs. When enhancing the chakras, the frequencies can be accessed via either sine wave audio applications or square wave for electromagnetic pulse applications. The following are also applicable to chakras. 
     
       
         
               
               
               
               
               
             
               
               
               
               
               
             
           
               
                 TABLE I 
               
               
                   
               
               
                 Chakra 
                 Color 
                 Hertz 
                 Hertz 
                 Color 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 1 
                 red 
                 261.63 ÷ 32 = 
                 8.17 
                 red 
               
               
                 2 
                 orange 
                 293.66 ÷ 32 = 
                 9.17 
                 orange 
               
               
                 3 
                 yellow 
                 329.63 ÷ 32 = 
                 10.3 
                 yellow 
               
               
                 4 
                 green 
                 349.23 ÷ 32 = 
                 10.9 
                 green 
               
               
                 5 
                 blue 
                 392.00 ÷ 32 = 
                 12.2 
                 blue 
               
               
                 6 
                 indigo 
                 440.00 ÷ 32 = 
                 13.7 
                 indigo 
               
               
                 7 
                 violet 
                 493.88 ÷ 32 = 
                 15.4 
                 violet 
               
               
                   
               
             
          
         
       
     
     When used in the electromagnetic application, the CD&#39;s can be recorded alternating the square wave (directed to the specific pathogen) and one or more of the chakra frequencies. For example, if a person was treating ulcers, a CD having a square wave frequency sweep of 727 to 880 would be alternated with the frequencies for the third and seventh chakras. The square wave would destroy the pathogens for a predetermined period of time and the chakra frequencies would subsequently balance and stimulate the healthy tissue in congruent areas. In many instances it is beneficial to stimulate not only the chakra directly involved with the disorder, but adjacent chakra(s). This determination will be apparent to those knowledgeable in the art. 
     The aforenoted incorporated publications have disclosed the frequencies previously found to destroy pathogens. Although most of Rife&#39;s disclosed frequencies are within the human hearing range, Clark&#39;s research used frequencies in the inaudible radio frequency range. It has now been found that there are key formulas which show the inter relationship of Rife&#39;s known frequencies regarding odd harmonics. These formulas tie the destructive frequencies for a particular pathogen to the odd harmonics, while the fundamental (F) frequencies set off a chain reaction of cascading odd harmonics which, in turn, destroy the pathogens. The square waves used in prior research generate the odd harmonics. It is these sine waves which destroy the pathogens. It is critical, however, that the initial frequency is in the form of a square wave. The frequency transfer unit shapes the recorded square waves and regulates the voltage, making the recorded protocols viable. Without the frequency transfer unit in line between the amplifier and user, the wave is distorted and the amplitude too high for human application. The set up CD allows the user to adjust the proper volume to shape the optimum wave form, and therefore optimal efficacy. 
     Table II sets forth the mathematical formulas correlating the harmonic interrelationship between Rife&#39;s known square wave frequencies. 
     
       
         
               
               
             
               
               
             
           
               
                   
                 TABLE II 
               
               
                   
                   
               
               
                   
                 F = Fundamental frequency 
               
               
                   
                   
               
             
             
               
                   
               
             
          
           
               
                 A 
                 F × 2 = 2nd harmonic 
               
               
                 B 
                 F × 2.9965 = 3rd harmonic 
               
               
                 C 
                 F × 5.04 = 5th harmonic 
               
               
                 D 
                 (F × 15)7.945 = 7th note of the scale 
               
               
                 E 
                 F × 15 = 7th harmonic (attenuated −5.5) 
               
               
                 F 
                 F ÷ 2.9965 = 4th note of scale 2 octaves below fundamental 
               
               
                 G 
                 F ÷ 5.04 = augmented 5th 3 octaves below fundamental 
               
               
                 H 
                 F ÷ 15 = fundamental sharp 3 octaves below fundamental 
               
               
                   
               
             
          
         
       
     
     The multiplier of 15 is used since any frequency multiplied by 15 equals the 7th harmonic −5.5%, by frequency. This is a naturally occurring sequence of harmonics. Using Rife&#39;s frequencies, a number of tested frequencies were mathematically computed to determine whether another known frequency was obtainable. The following examples have been randomly selected. When the formula does not reveal the exact target, as indicated by placing the exact target in the target column. 
     
       
         
               
               
               
               
             
               
               
               
               
             
           
               
                 TABLE III 
               
               
                   
               
               
                 Known 
                   
                   
                   
               
               
                 Fundamental 
                   
                 Harmonic Relationship 
               
               
                 Frequency 
                 Formula 
                 Known Fundamental 
                 Target 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 1 
                 × [C] 5.04 = 
                 5.04 
                 5 
               
               
                 8 
                 × [D] 15 ÷ 7.946 = 
                 15.10 
                 15 
               
               
                 14 
                 × [B] 2.9965 = 
                 41.9 
                 41 
               
               
                 125 
                 × [C] 5.04 = 
                 600 
                 625 
               
               
                 240 
                 × [D] 15 ÷ 7.946 = 
                 453 
                 450 
               
               
                   
               
             
          
         
       
     
     When viewing Rife&#39;s chart illustrating the frequencies used to destroy specific pathogens, many of the frequencies disclosed therein are identical, and it is unlikely that the same frequencies disrupt the molecular structure of so many pathogens. 
     Clark has disclosed that radio frequencies serve to disrupt the molecular bonds of the pathogens. By applying the disclosed formulas (Table II), the harmonics used by Clark&#39;s radio frequencies can be taken to the audible range, matching those used by Rife&#39;s square wave audible frequencies, when divided by 100. Due to energy pooling, also known as forced resonance, a wave having sufficient amplitude and proximity to another wave will force congruity. Thus, a square wave with sufficient amplitude will generate sine waves cascading, at odd harmonic frequencies, i.e. 3-5-7-9 etc., at increasingly higher energy states. Along this path, all pathogens with frequencies of similar wave length will be forced to align themselves with the harmonic frequency, thus affecting any pathogens residing at “adjacent” frequencies. 
     Thus, the harmonics created at 664 hertz will destroy the pathogens not only in the “direct line” with 664 hertz, but will also force resonance of any pathogens residing at 660 and 666 hertz to align with 664 hertz, hence also being destroyed. 
     The disclosed system can also be used for stimulation and relaxation of various tissues. The prerecorded frequencies can be used in conjunction with the aforementioned frequencies or applied separately. Some of the novelty of the disclosed invention lies in the application of these frequencies to an easily used medium. Prior to the instant disclosure, these frequencies were generated by complex machines. In order, however to place the frequencies onto an easy to use recording medium, the frequency must first be generated by a frequency generator. These frequencies are recorded onto a CD and then, preferably, played back to ensure accuracy. Although the sine waves are pleasant to the human ear, the square waves are not and therefore square waves must be transmitted to the body through the use of electrodes. Sine waves can be recorded in conjunction with the square waves, with the waves being separated by the frequency transfer unit. Thus square waves would be directed to the electrodes and the sine waves directed to the earphones. 
     Since other modifications and changes varied to fit particular operating requirements and environments will be apparent to those skilled in the art, the invention is not considered limited to the example chosen for the purposes of disclosure, and covers all changes and modifications which do not constitute departures from the true spirit and scope of this invention.