Hulda Clark’s Zapper uses pulsed single-polarity voltage signals to destroy bacteria, viruses and parasites with ease. To construct it safely and successfully it requires one standard 9V battery; during assembly it’s important to avoid shorting out its positive battery terminal (small one), as this could damage its chip.
Clark’s “The Cure for all Diseases” describes a zapper that can be assembled using $20 worth of parts from Radio Shack in an easy shoebox construction method, yet her schematic depicting battery polarity incorrectly and an incorrect capacitor value.
Build the circuit
Hulda Clark’s Zapper Circuit from her book The Cure for All Diseases is an effective means of killing bacteria, parasites and fungus. Powered by a 9V battery and composed of an easy 555 timer circuit powered by Radio Shack parts purchased for $20; no soldering or electronics knowledge is required to assemble this shoebox-size device – making assembly quick and painless with sharp square waves and harmonics produced by its CMOS version 555 chip that drains less power than TTL versions do – creating an efficient device capable of killing disease-causing organisms that invade your body in turn making your immune systems much stronger against any future infections arising.
Clark recommended a general-purpose 30 KHz pulse rate as the ideal for zapping parasites, while encouraging experimentation with targeting specific bioresonance frequencies for each parasite (ranging from one pat per second up to multiple pats per second depending on its species).
Many zapper users have noticed that lower frequencies (5000 and 10K Hz) such as 30 KHz are not as effective in eliminating bacteria than 30KHz. Lower frequencies tend to penetrate the body better and affect systemic processes more than directly killing microbes; some manufacturers even claim their devices have been “certified” by Hulda Clark’s son as such devices use lower frequencies more effectively.
One way to improve zapping results is through different electrodes. For instance, it may be more effective to hold the zapper in both hands rather than only the wrist, with copper pipe handholds or TENS pads as electrodes conductive enough of electricity – and saltwater solutions instead of copper pipes (increasing results and improving comfort levels) being best utilized – one teaspoon of Morton’s Lite Salt per three ounces of tap water should do just fine).
Before using a zapper on a body, it’s crucial that its voltage output can be accurately assessed. An oscilloscope is recommended as this tool enables users to quickly see any variations or abnormalities within its circuit – many electronic repair shops provide them for free or at a reasonable fee (usually $15 or so for one circuit test). A multimeter will also work, although reading its readings requires more interpretation skills.
Build the box
Hulda Clark, an alternative health practitioner who claims that her device could treat many diseases, invented the Zapper. It’s a simple electronic device which generates low voltage (5V square wave with DC component 2.5V) at 30kHz frequency using batteries, pulse generator circuits, copper handles/electrodes held in hands or placed on body parts by users themselves – or can even be attached directly onto devices for therapeutic purposes.
Some zappers offer extra features such as an indicator light to show that their circuit is working as intended and an LED battery low indicator that alerts users when it is time for new batteries. These features come at an additional cost but are extremely helpful; others offer features like auto power on/off switches so users don’t need to constantly install or unplug their zapper whenever it is used – saving both time and hassle in use!
Many zappers run off 9V batteries, yet their circuit components such as 555 chips can tolerate up to 15V. Therefore, some people are experimenting with 12V zappers powered by batteries or AC converters which may prove more powerful and more effective.
Building a zapper requires following instructions carefully. Avoid shorting any of the battery terminals as this can damage your zapper. Tape or battery connectors (five pack available at Radio Shack for less than $1) can protect these terminals during construction and ensure no wire ends touch each other during assembly.
When creating a zapper, it’s advisable to visit an electronics shop and have it tested using an oscilloscope. This will enable you to identify its proper frequency while avoiding mistakes that could harm it – most shops that specialize in fixing TVs, computers and stereos will offer this service for just a few dollars more.
Build the battery
Hulda Clark of Hulda Clark claimed that an electronic device known as the Zapper could help treat various illnesses by killing parasites and fungi found within the body. It runs off of a 9-volt battery and uses a 555 timer circuit to generate pulses of electric current delivered directly into copper handles or electrodes held by users; Hulda Clark recommended 30kHz as being most effective against parasites and candida infections.
This device works on the principle that parasites and diseased tissue have positive charges while healthy tissues have negative charges; by switching its pulsed current back on and switching polarities of parasites over, which causes them to die while also providing negative ions into your body that could help heal diseased tissue. Please be aware however that using the Zapper during pregnancy, using pacemakers or on children is not advised; neither should its use be recommended as medical treatments.
A zapper can be used on various parts of the body, such as the face, feet and abdomen. When using it on sensitive areas such as eyes or ears it’s important to do it early in the morning or later at night when there are fewer neural impulses being fired that move muscle fibers.
As part of building a zapper, it is critical that battery terminals do not short out. To achieve this goal, tape should be applied over the positive battery terminal before beginning construction. Also recommended is using a battery connector which snaps onto your battery with two wires coming off (available from Radio Shack for about $1). While end cables don’t necessarily need to touch each other when wired together – just ensure they remain tangle-free!
For maximum effectiveness of zappers, it’s vital that those using them engage in several sessions each day for three weeks – either hand to hand or foot to foot – until the first 7 minute session, followed by a 20-30 minute break and another three minute session each time.
Build the switch
The Zapper is an effective device used to kill bacteria, parasites, viruses and fungus within the body. First proposed by Hulda Clark in her book “The Cure for All Diseases”, this simple circuit operates off 9V batteries with its built-in switch enabling you to target specific parts of your body such as hands or other parts.
Care should be taken when using this device as there is limited scientific support for Hulda Clark’s claims and many have been disproven by independent studies. For further guidance, it would be advisable to seek guidance from an appropriately qualified healthcare provider.
Even with these concerns, many still believe the zapper can be effective in treating illness. While not intended as a cure for all diseases, it can help enhance quality of life while helping prevent diseases or prolong pet lifespan. For safe use and best results it should only be used under supervision from healthcare professionals.
For you to build a zapper, the following materials are necessary.
Positive offset square wave, at least 30 kHz with close to 50% duty cycle. 3 1/2 inch square aluminum plate measuring approximately 0.33-1/16″ thickness available from hardware stores.
Try experimenting with various frequencies. Some people are finding good success using an AC converter that powers it at 12V – this may prove more efficient than using the traditional 9V battery.
As when building any device, connecting pins on a 555 chip correctly is crucial to building an effective zapper. For optimal results, the CMOS version of this chip should be chosen, as its sharper square waves and lower power consumption outshone those produced by TTL chips. You can purchase this type of chip at most electronic supply houses. ESD straps make great electrodes; though more costly they make great electrodes that are easily portable. Before using ESD straps it’s advisable to wet them thoroughly with saltwater before use so you avoid shock.