by Chris Cane | Dec 9, 2017 | Author's Postings, Curatron, Kudos & Testimonials, PEMF, Products, Technical Information
Plantar Fasciitis is a REAL PAIN This tale is a little old in that I contracted Plantar Fasciitis one day (back in 2009) and learned how important my feet are when I’m trying to walk. Up and down stairs were no problem because I could sit on my butt and transfer...
by Chris Cane | Nov 23, 2017 | Author's Postings, Curatron, Curatron FLASH, PEMF, PEMF-School, Technical Information
Can Cancer be treated, healed or cured with PEMF? The use of PEMF for the treatment of Cancer is widely discussed and promoted by several companies and on many websites. The difficulty is separating the wheat from the chaff. Amjo Corp does not and will not promote the...
by Chris Cane | Sep 22, 2017 | Author's Postings, Curatron, PEMF, Products, Technical Information
Create Magnetic Flux Density of One Thousand Gauss for less than $6K? Sure! Why not? To get One Thousand Gauss, it’s simple! You take one XPSE Control Unit and one Very High Energy Coil “B” and you have it! It’s not as hard as you might think!...
by Chris Cane | Sep 11, 2017 | Author's Postings, Medical Articles, PEMF-School, Technical Information
Is your personality magnetic? We all know that some metal objects are attracted to magnets. What makes iron things attractive and aluminum or copper unattractive to magnets? Are these materials affected in any way to magnets? In fact, although copper and aluminum are...
by Chris Cane | Aug 28, 2017 | Author's Postings, PEMF, PEMF-School, Technical Information
Is your personality magnetic? We all know that some metal objects are attracted to magnets. What makes iron things attractive and aluminum or copper unattractive to magnets? Are these materials affected in any way to magnets? In fact, although copper and aluminum are...
by Chris Cane | Aug 26, 2017 | Author's Postings, Curatron, Medical Articles, PEMF-School, Technical Information
Intensity generated by PEMF devices is perhaps the most crucial requirement to obtain adequate results. The strength of a magnetic field is generally defined in T (Tesla) or G (Gauss) Gauss [symbol G] named after Carl Friedrich Gauss Tesla [symbol T] named after the...
