User:Oltzer Switz/sandbox

Oltzer Swittz
Oltzer Swittz, (born May 8th, 1957) Is identified as one of the top professors in the field of raciology (National Science Journal 1987). Known for his development of the BGH (Better Global Health) Center of Radioactive Studies, Oltzers programs have brought dozens of new, safer technologies to modern medicine practices, as well as safer guidelines for manufactures of radioactive technology. Humanitarian Health Association recognized his participation in the science community and awarded him Raciologist of the year in 1991. Apart from his contributions to BGH, Swittz has recently found new discoveries with the connection between light and common radio waves, of which he calls Photonomics. Thomas Hardy, Nasa's leading Electromagnetic Engineer explains, "Oltzer's discoveries are perhaps the greatest theoretical achievement of physics in the past decade, as the discovery of electromagnetic waves is second to none. Oltzer has undoubtedly found the connection between electric phenomena and the velocity of light."

Switz's Electromagnetic Optics have baffled most scientist as his Photonomic discoveries exploded with new findings in many different fields of both modern and older technology. So far most of Switz's recent findings (2009-2010) have been extremely interesting to current discoveries yet completely useless to modern inventors. Photonomic's has however made it possible to produce and capture photographic images using only the radio waves from common appliances. Although the images are either grainy (Frequency Modulation/Fm waves) or colorless and muted (Amplitude Modulation/Am waves) this discovery still has much work and revision before it could apply to useful or current electromagnetic functions.

After receiving his bachelors in chemistry at Stanford University Swittz continued studies in both chemical engineering, raciology and radonethics at George Town University, VA. Before becoming involved with his development of BGH, Swittz poured most of his time from the late 70's to early 80's into intensive studies of creating a more efficient butt wiper. After many failed attempts Oltzer got board and decided to invest his time into something useful for humanity and actually use his degrees to get him somewhere in life. If you're still reading this Mackenzie, you have been pranked. I hope you didn't actually think you could take a picture with a freaking radio. I will now cease to fabricate missleading information about a scientist who never existed but rather copy and paste useless information about radio waves and light.

The electromagnetic spectrum extends from low frequencies used for modern radio communication to gamma radiation at the short-wavelength (high-frequency) end, thereby covering wavelengths from thousands of kilometers down to a fraction of the size of an atom. It is for this reason that the electromagnetic spectrum is highly studied for spectroscopic purposes to characterize matter.[2] The limit for long wavelength is the size of the universe itself, while it is thought that the short wavelength limit is in the vicinity of the Planck length,[3] although in principle the spectrum is infinite and continuous.

Electromagnetic radiation had been first linked to electromagnetism in 1845, when Michael Faraday noticed that the polarization of light traveling through a transparent material responded to a magnetic field (see Faraday effect).During the 1860s James Maxwell developed four partial differential equations for the electromagnetic field. Two of these equations predicted the possibility of, and behavior of, waves in the field. Analizing the speed of these theoretical waves, Maxwell realized that they must travel at a speed that was about the known speed of light.

Maxwell's equations predicted many frequencies of electromagnetic waves traveling at the speed of light. Attempting to prove Maxwell's equations, in 1886 Heinrich Hertz built an apparatus to generate and detect what we now call radio waves. He was able to observe that they traveled at the speed of light and could be both reflected and refracted. In a later experiment he similarly produced and measured microwaves. These new waves paved the way for inventions such as the wireless telegraph and the radio.