Well I know in New Zealand it takes like 3-4 hours and the government pays for everybodys installation
Fiber optic cable has a glass or plastic core that carries light signals for high-speed data transmission over long distances.
Data travels through a fiber optic cable using light signals. These signals are sent through the cable as pulses of light, which represent the data being transmitted. The light signals bounce off the walls of the cable, allowing the data to travel quickly and efficiently over long distances.
Scientists, engineers and telecommunications officials are in the early planning stages for a seafloor fiber-optic cable that would span the Pacific Ocean, and could transmit unprecedented and vital information on everything from ocean temperatures to tsunamis to people back on shore.
Fiber optic cables suffer the least attenuation compared to other media such as copper cables. This is because light signals in fiber optic cables can travel longer distances without losing their strength, resulting in minimal signal loss. This makes fiber optic cables ideal for transmitting data over long distances.
Multi-mode fiber optic cable is the earliest commercially available fiber optic cable, due to the presence of dispersion is serious, the attenuation is large, the available bandwidth is narrow, cost issues, it have exited the optical fiber network of the main battlefield platform of telecom operators . only to to retain market share at the smartbuilding fiber optic cabling. When the multi-mode fiber optic cable for video transmission, it can only meet about the farthest 3 ~ 5km transmission distance, and have great restrictions on the bandwidth of the video multiplexer(for analog modulation) and a transfer rate (for digital), which is generally suitable for short-range, small capacity, simple application occasions. Particularly greatly limited the application of non-compressed digital Optical multiplexer in the transmission distance and capacity. Single-mode fiber optic (mainly g.652 fiber) cable has become the mainstream of current optical communication transmission due to its low prices and high performance. The endless stream of new technologies in the field of optical fiber communication, whether it is a long-range, high-capacity, or business, and both are developed for single-mode fiber. Fiber optic cable service life of 20 years or more, than the Optical actual use cycle long. This is from the point of view of the strategic resources to consider the laying of fiber optic cable, it must take into account the future expansion, updated equipment, the number of cable cores enough, can continue to carry the new business. More information, go ingellen.com
Scsi Cable (or more commonly know as the ribbon cable)
Light, fiber optic or otherwise does not disappear. It travels and keeps on traveling until something stops it. point a fiber optic into the sky and it goes until it is stopped by something. The question, "How long does fiber optic light last for" has only one answer, forever.
Fibre optic cable that was actually useful to transmit data over long distance was invented by a team of reasearchers in the 1970's. Corning Glass researchers Robert Maurer, Donald Keck and Peter Schultz invented fiber optic wire or "Optical Waveguide Fibers" (patent #3,711,262).
light enters the fiber optic wire at what is known as a critical angle. As the light bounces off the inside of the wire it does so at or above the critical angle and thus it cannot escape the fiber optic wire. the reason for this phenomena is because the medium of the wire is more dense then that of the medium outside the wire.
Fiber optic cable is consists of optical fiber and provides a very fast way of communicating data at a relatively small cost. It's main advantages is that it's fast, reliable and it can carry data over long distances without being affected by electro-magnetic interference. WiFi is a way of transferring data without any cables at all, wirelessly. Compared to fiber optic it is very slow and less reliable. Also, since there is no cable involved, it is also considerably more risky from a security perspective, as communications can be easier to intercept than in the case of fiber optic, where sophisticated equipment would need to be employed and the cable itself physically pierced for eavesdropping to succeed. So fiber optic is better, if given the choice and without regard to cost.
The fiber optic backbone can mean different things depending on the service being used. Generally, however, it simple refers to that fiber optic cable traversing the main path or route in that part of the overall network. It differs with a lateral, which would run from a backbone splice point to typically an end use premise (ie building or cell site). Backbone cables will typically be built with high fiber counts and laterals will have relatively fewer fibers in the cable since it will have less use.
Ulexite has a unique property called fiber-optic effect where it can transmit light along its long axis like a fiber-optic cable. This allows it to display images from one side of the mineral to the other with minimal distortion.