Are you interested in learning more about emf protection devices? If so, in this article we’re going to go over key concepts and definitions, what are the applications and uses, and how this all relates to electromagnetic energy.
What’s the bottom line?
After you finished reading this powerful article you will have a strong understanding about electromagnetic energy and how and why emf protection devices are being developed for today’s society as an effective solution from exposure. If you are not interested in discovering the how and why for emf protection then you can skip right down to the bottom for our recommendation of what we feel is substantiated proof as being the best emf protection devices on the market today.
Understanding Electromagnetic Energy - A Little History Lesson
The most familiar form of electromagnetic energy is sunlight. Without its light and heat-giving properties, life as we know it would be impossible. But modem scientific research has broadened our understanding of other forms of electromagnetic energy as well, and has discovered dozens of ways to harness them for our benefit and demise. Today's technological applications are paving the way for even more sophisticated breakthroughs in the fields of health care, agriculture, manufacturing, education and communications.
Key Concepts and Definitions of EMF's - Electromagnetic Fields
Many modem conveniences and space age innovations use or produce electromagnetic energy. Familiar examples include electric lighting and appliances; computers, video display terminals, video game stations and microwave ovens; radios, TVs and mobile phones; broadcast stations, cell towers, surveillance systems, wind towers and communications satellites to mention a few.
Electric and magnetic fields can move through empty space and various other media, including air. These fields are generated whenever electricity flows, whether the electricity is man-made or produced in nature. All electrical devices — industrial, commercial and residential —generate electromagnetic fields (EMF's) when they operate. These fields can be detected and measured with the proper scientific equipment. Some equipment, like radio, cell and television transmitters, are designed specifically to produce electromagnetic fields, like the video display terminals for computer, produce EMF's
Some electromagnetic fields are confined and can only be detected close to their source; others are detectable at great distances. These fields propagate or travel through the atmosphere as electromagnetic waves.
Electromagnetic waves can be categorized according to their length (wavelength), the rate at which they are produced (frequency) and their energy level (amplitude).
Frequency is a measure of the rate at which electromagnetic waves are generated. Frequency is measured in cycles per second, called hertz (Hz) after the German scientist who first discovered radio waves. (1 Hz equals one cycle per second.)
The field around power lines, for example, is predominantly 60 Hz. Radio wave frequencies range from 300 Hz to billions of hertz.
Electromagnetic waves with similar frequencies can be grouped together. These groupings form the Electromagnetic spectrum, with low- frequency waves (sometimes called LF for "low frequencies") at one end and high-frequency waves at the other. Radio waves, microwaves and infrared light can be found at the lower end of the spectrum. Ultraviolet light X-rays and gamma rays occupy the upper end. Visible light, including sunlight, occupies the middle region.
Electromagnetic waves act as wireless conductors of energy. Gamma rays and other forms of electromagnetic energy at the upper end of the spectrum can break the internal bonds of atoms and molecules, creating charged particles called "ions." This radiation is known as ionizing. Radio waves, microwaves and other forms at the lower end of the spectrum cannot alter the bonds of molecules or atoms but can disrupt them, to a degree that alters our own built in source of energy, our biofield. These forms of electromagnetic energy cannot create ions and, accordingly, are known as non-ionizing.
Experts claim that the energy level of an EMF decreases rapidly with the distance from the source. The level is further decreased by natural or man-made objects in its path. But are they missing one variable, the mass number of fields that we are bombarded with that cross our human existence our daily basis.
EMF Admitting Device Applications and Uses
Since scientists first discovered the fundamental characteristics of electromagnetic energy in the last half of the nineteenth century, they have found hundreds of ways to take advantage of it. The fact that electromagnetic energy can travel through space without a conducting medium has made it one of the important tools of modern technological society.
The ability to precisely control frequency in transmission and reception of radio waves has given rise to AM/FM satellite radio, television, gamming consoles, cell phones, smart phones, portable computer and music devices (iPad, iPod, mps players) amateur radio, shortwave and other modes of communication and entertainment devices.
Microwaves are used in the transmission of telephone and telegraph messages, in communications between earth and orbiting satellites, and in relaying certain television broadcast signals.
The ability of microwave energy to heat materials evenly is used in microwave ovens in the home and in dozens of heating and sealing applications in industry — to mold plastics, glue wood products, seal shoes and process certain foods, for example.
The predictable reflective properties of radar waves allow sophisticated instruments to scan the atmosphere and to detect the presence and identity of objects in the sky. Industry is always moving forward, digital signals are now common practice, three-dimensional radar systems are here to stay. These capabilities are extremely important in strategic defense and modem weather forecasting.
Medical researchers have had encouraging success using pulsed radio-frequency (RF) energy to heal bone fractures. New findings reveal that it may also be used to speed the healing of flesh wounds and the regeneration of nerve tissue, and ultimately to reduce the size of cancerous tumors. Radio frequency imaging may soon replace X-rays in some biomedical applications. Commonplace applications include automatic door openers, intrusion alarms, remote control of toys and models, and other household conveniences that are not every thought twice about.
Use of non-ionizing electromagnetic energy has revolutionized life but at what cost? Our health! Continued public appreciation of its benefits and its untapped potential is an increasingly important catalyst to the scientific and technical research that is underway.
EMF Protection Devices - SRT Technology
Studies conducted at the University of California at Irvine, Imperial College at London, University of Vienna’s Institute of Environmental Health and independent clinics support the efficacy of both categories of SRT™ (Sympathetic Resonance Technology™) devices:
‘Passive’ SRT products help to clarify and support the wearers biofield through a subtle, direct interaction with the wearer. Passive products include Pendants, Bracelets and other Body Worn Applications
‘Active’ SRT products help to clarify and support the users biofield by enhancing the environments in which the user lives, works or otherwise occupies. Active devices include Nimbus, Ally, ClearWave, etc.
Select Human Cellular Studies
**Effects of Q-Link SRT Pendant on the Blood and Biological Terrain
In two separate live blood, double-blind microscopy studies conducted by microbiologist Robert Young, PhD, live and dried blood tests are used to test for disturbances to the blood morphology. Results suggest that the Q-Link Pendant (a ‘Passive’ SRT product) helps to mediate the effects of stress by enhancing both the blood terrain and the integrity of human blood cells. Thus, significant improvements in blood morphology are seen with the Q-Link Pendant. The following are 2 panel microscopy images of blood morphology before, and 72 hours after wearing the Q-Link in a subject:
Behavioral And Performance Study
**Effects of Q-Link SRT ClearWave on Anxiety Levels within the Classroom
A double-blind study conducted by David Eichler, PhD, Behavioral Consultant, indicates that the Q-Link ClearWave (an ‘Active’ SRT product), helps to reduce anxiety experienced in students while in the public school setting. The study involved a school district in Northeast Kansas. The implications of reduced anxiety can be improved classroom performance and improvement in overall attitude and well-being of the student.
Muscle Weakness Research Study
**Effects of Q-Link SRT Pendant on Muscle Weakness Patterns in the Body
In a clinical study conducted by Dr. Robert Blaich, President of the International College of Applied Kinesiology, the Q-Link Pendant (a ‘Passive’ SRT product) consistently helps to improve acupuncture energy imbalances and to negate the recurrence of muscle weakness. The study also suggests that muscle weakness induced by the presence of EMF is negated when wearing the Q-Link Pendant in 95% of the cases. Based upon Applied Kinesiology testing, Dr. Blaich concluded that the Q-Link Pendant enhances the healing process based upon the market improvement seen in long term symptoms.