FIX University Looks @ Fiber Optic and The No-Lunch With The Napoleonic Futurist of 2014 Elections

MCI Communications Corp. was an American telecommunications company that was instrumental in legal and regulatory changes that led to the breakup of the AT&T monopoly of American telephony and ushered in the competitive long-distance telephone industry. It was headquartered in Washington, D.C.[1] Founded in 1963, it grew to be the second-largest long-distance provider in the U.S. It was purchased by WorldCom in 1998 and became MCI WorldCom, with the name afterwards being shortened to WorldCom in 2000. WorldCom's financial scandals and bankruptcy led that company to change its name in 2003 to MCI Inc.. The MCI name disappeared in January 2006 after the company was bought by Verizon. As of May 2011, the MCI trademark is still maintained on MCI.com and on a sub-page of

The first working fiber-optical data transmission system was demonstrated by German physicist Manfred Börner at Telefunken Research Labs in Ulm in 1965, which was followed by the first patent application for this technology in 1966

Nishizawa invented other technologies that contributed to the development of optical fiber communications, such as the graded-index optical fiber as a channel for transmitting light from semiconductor lasers and this was in 1960s---->2014 (plz wake up a little bit.

Daniel Colladon first described this “light fountain” or “light pipe” in an 1842 article titled On the reflections of a ray of light inside a parabolic liquid stream. This particular illustration comes from a later article by Colladon, in 1884. In 1880 Alexander Graham Bell and Sumner Tainter invented the Photophone at the Volta Laboratory in Washington, D.C., to transmit voice signals over an optical beam.[10] It was an advanced form of telecommunications, but subject to atmospheric interferences and impractical until the secure transport of light that would be offered by fiber-optical systems. In the late 19th and early 20th centuries, light was guided through bent glass rods to illuminate body cavities. Jun-ichi Nishizawa, a Japanese scientist at Tohoku University, also proposed the use of optical fibers for communications in 1963, as stated in his book published in 2004 in India Optical fibers are widely used in fiber-optic communications, where they permit transmission over longer distances and at higher bandwidths (data rates) than wire cables. Fibers are used instead of metal wires because signals travel along them with less loss and are also immune to electromagnetic interference. Fibers are also used for illumination, and are wrapped in bundles so that they may be used to carry images, thus allowing viewing in confined spaces. Specially designed fibers are used for a variety of other applications, including sensors and fiber lasers. Optical fibers typically include a transparent core surrounded by a transparent cladding material with a lower index of refraction. Light is kept in the core by total internal reflection. This causes the fiber to act as a waveguide. Fibers that support many propagation paths or transverse modes are called multi-mode fibers (MMF), while those that only support a single mode are called single-mode fibers (SMF). Multi-mode fibers generally have a wider core diameter, and are used for short-distance communication links and for applications where high power must be transmitted. Single-mode fibers are used for most communication links longer than 1,000 meters (3,300 ft). Joining lengths of optical fiber is more complex than joining electrical wire or cable. The ends of the fibers must be carefully cleaved, and then carefully spliced together with the cores perfectly aligned. A mechanical splice holds the ends of the fibers together mechanically, while fusion splicing uses heat to fuse the ends of the fibers together. Special optical fiber connectors for temporary or semi-permanent connections are also available. "An optical fiber (or optical fibre) is a flexible, transparent fiber made of high quality extruded glass (silica) or plastic." Silicon dioxide, also known as silica (from the Latin silex), is a chemical compound that is a dioxide of silicon with the chemical formula SiO2. It has been known since ancient times. Silica is most commonly found in nature as quartz, as well as in various living organisms,[2] Silica is one of the most complex and most abundant families of materials, existing both as several minerals and being produced synthetically. Notable examples include fused quartz, crystal, fumed silica, silica gel, and aerogels. Applications range from structural materials to microelectronics to components used in the food industry. Slightly thicker than a human hair, It can function as a waveguide, or “light pipe”, to transmit light between the two ends of the fiber. Power over Fiber optic cables can also work to deliver an electric current for low-power electric devices. The field of applied science and engineering concerned with the design and application of optical fibers is known as fiber optics.

 

Amigos de la lectura y la escritura, sé que nos gustan los talleres, los seminarios, pero también se requiere apoyo para la producción, para los que producen libros que luego compartimos con otros y nos invitan a nuevas experiencias. Si están interesados, aquí hay un lanzamiento interesante. Gracias! Silvia Aquí más información sobre el proyecto : http://www.gentequecamina.com/ Biografía de la autora: http://www.gentequecamina.com/el-libro/autora-2/  

Astronomía Didáctica y la Biblioteca Departamental invitan a la conferencia: “La astronomía como fenómeno educativo” El estudio de la Astronomía se remonta a épocas arcaicas, sin embargo en la actualidad esta ciencia está subvalorada por la escuela tradicional, enseñándose en el colegio de manera superficial y abordándose a pasos lentos a nivel profesional. Explicaciones, implicaciones, ventajas, alternativas, antecedentes y propuestas serán introducidas a la comunidad desde la perspectiva de la educación. Conferencista : Lorena Aristizabal Fecha y hora : Jueves 10 de Abril de 2014, 6:30 pm Lugar : Biblioteca Departamental – Cali Colombia Mayores informes : mhguarin@puj.edu.co - 317.5315356 Entrada Libre

 

Colombia Peace negotiations between govt and FARC resumed 11 June to discuss 2nd agenda item, political participation. Govt’s chief negotiator Humberto de la Calle 13 June confirmed agreement would centre on steps to create legal, sustainable political presence for guerrillas. FARC 19 June submitted 10 “minimum” proposals for eventual agreement, including guarantees of political representation, participation of marginalised communities, rights for political opposition, also called for popular election of positions such as Attorney General and Prosecutor General. Major point of contention is FARC demand for achieving structural reform of state through constituent assembly, which govt rejects. Protests over coca eradication and peasants reservations turned violent in Norte de Santander’s Catatumbo region; 4 people killed.