Royal Raymond Rife

Royal Raymond Rife was a brilliant scientist born in 1888 and died in 1971. After studying at Johns Hopkins, Rife developed technology which is still commonly used today in the fields of optics, electronics, radiochemistry, biochemistry, ballistics, and aviation. It is a fair statement that Rife practically developed bioelectric medicine himself. He received 14 major awards and honors and was given an honorary Doctorate by the University of Heidelberg for his work.

In 1920, Rife had finished building the world’s first virus microscope. By 1933, he had perfected that technology and had constructed the incredibly complex Universal Microscope, which had nearly 6,000 different parts and was capable of magnifying objects 60,000 times their normal size. With this incredible microscope, Rife became the first human being to actually see a live virus, and until quite recently, the Universal Microscope was the only one which was able view live viruses.

Rife Discovers Frequencies in Organisms

Rife painstakingly identified the individual spectroscopic signature of each microbe he observed, using a slit spectroscope attachment. He slowly rotated block quartz prisms to focus light of a single wavelength upon the microorganism he was examining. This wavelength was selected because it resonated with the spectroscopic signature frequency of the microbe based on the now-established fact that every molecule oscillates at its own distinct frequency.

Rife Using Frequencies to Kill Cancer & Microbes

He later found a frequency of electromagnetic energy that would cause the cancer virus to diminish completely when entered into the energy field. The great discovery led Rife to create a device that could be tuned to output the frequency that would destruct the cancer. He used the same principle to kill them, which made them visible: resonance. By increasing the intensity of a frequency which resonated naturally with these microbes, Rife increased their natural oscillations until they distorted and disintegrated from structural stresses. Rife called this frequency the mortal oscillatory rate, or MOR, and it did no harm whatsoever to the surrounding tissues.

This principle can be illustrated by using an intense musical note to shatter a wine glass: the molecules of the glass are already oscillating at some harmonic (multiple) of that musical note; they are in resonance with it, vibrate, and can no longer remain in configuration. Because everything else has a different resonant frequency, nothing but the glass’s molecular configuration is destroyed. There are literally hundreds of trillions of different resonant frequencies, and every species and molecule has its very own.