If the energy levels are high enough!
This can only be accomplished when the pulsing electromagnetic fields penetrate sufficiently deep within the human body.
The electrical influence and increase of the membrane cell potential, causes an increase in oxygenation, which in turn increase the supply of nutrients. This results in disposal of waste products from the cells and cell detoxification.
Signals move around in our bodies because of electricity. It is long known that there is electricity in our bodies: electrocardiogram (ECG), electroencephalogram (EEG) and electromyogram (EMG).
In 1956 the piezoelectric effect in bone was discovered by Fukada and Yasuda; a physicist and an orthopedic surgeon in Japan. The combined effects of electric and magnetic force explain that pulsing electromagnetic fields induce electrical changes on a cellular level within the body and cell metabolism is influenced.
Electrical current in a coil causes a magnetic field. The magnetic field curls around electric wire in which the current flows.
Electricity and magnetism are interrelated in many ways. They are manifestations of the same fundamental physical concepts.
Maxwell equations show the relation between the electricity and magnetism. The combined effects of electrical and magnetic fields, is called Lorenz force. As result of induced Lorenz force pulsing electromagnetism will produce electricity in cells and this is the basis for Pulsing Electromagnetic Field Therapy.
The interaction of electrical and magnetic effect is known as electromagnetism.
Electromagnetism is one of the most important concepts in physical science. An electromagnet consists of a piece of soft iron with electrical wire wrapped around it.
When an electric current flows through the wire, it produces a magnetic field around the wire and the iron is magnetized.
The greater the current, the stronger the magnetic field. By coiling up the wire many times, the magnetic field produced can be made even stronger.
Our body’s natural magnetic field is created by the flow of electrically charged ions in and out of cells and the transmission of electric impulses through cell membranes.
Only Pulsing ElectroMagnetic Field (PEMF) force and not static magnets can influence on a cellular level. The magnetic strength value of static magnets (expressed in Gauss value) is not relevant at all, since the measured field strengths of permanent magnets range from 300 gauss to 16000 gauss at the surface, at 2 cm distance around 10 gauss and at 10 cm distance; absolutely nothing.
In addition static magnets cannot create any electrical induction at all without being mechanically moved the whole time!