Imagine a plastic tube with an inside surface that is a high quality mirror. If you were to direct light into one end of this tube the light would bounce of the mirrored walls of this tube indefinitely, (regardless if the tube curves or twists) and you will see the light at the other end. if you were to send the light in an organised code it can then be used in communication. In scenes this is how fibber optics works. fibre optics are made with super fine quality glass drawn out to about the thickness of a human hair with plastic coatings around them to make the inside of the grass reflective and protect it.
Optical fibers can carry light long distances because of total internal reflection, which ensures that light stays within the fiber by continuously reflecting off the inner walls. This allows for minimal loss of signal strength over long distances, making optical fibers an efficient method for transmitting light.
Long thin strands of glass or plastic that can carry light for long distances are known as optical fibers. These fibers transmit data as pulses of light, allowing for high-speed communication and internet connectivity. Optical fibers are widely used in telecommunications, medical instruments, and lighting applications due to their efficiency and ability to minimize signal loss over long distances.
Optical fibers are long thin strands of glass or plastic that can carry light for long distances. They are used in telecommunications and networking to transmit data at high speeds.
Typically, light in the form of laser beams is used to carry information through optical fibers. The laser light pulses encode data that is transmitted through the fibers in the form of light signals.
Infrared & Microwaves are used to carry information through Optical Fibres. Infrared carries visible light Radio Waves & Microwaves carry telephony and computed data E.Akbay
Laser light is used to transmit data through optical fibers by converting electrical signals into light pulses. The light pulses travel through the optical fibers, which are designed to minimize signal loss and maintain the integrity of the data over long distances. At the receiving end, the light pulses are converted back into electrical signals for interpretation. This method enables high-speed, reliable communication over long distances without significant signal degradation.
The traveling of concentrated light through long tiny fibers of glass to carry sound is called optical fiber communication. This technology uses light signals to transmit data over long distances at high speeds with minimal signal loss.
plastic optical fibers
No, optical fibers are not opaque; they are made from transparent materials, typically glass or plastic, that allow light to pass through. These fibers utilize the principle of total internal reflection to transmit light signals over long distances with minimal loss. While glass fibers are transparent, they can be made opaque for specific applications, but standard optical fibers are designed to be clear to efficiently transmit data.
Their construction from an inner core and outer shell with different refractive indexes causes any light attempting to escape to be refracted back into the core. Also the selection of low loss materials permits the light to travel very long distances.
Light is used to transmit information in modern communication systems through optical fibers. These fibers carry light signals that encode data, such as text, images, and videos, over long distances at high speeds. The light signals are converted into electrical signals at the receiving end to retrieve the transmitted information.
Fiber optics does not transmit sound. The long tiny fibers are long narrow strands of glass or a glass-like material generally referred to as optical fibers. Light travels inside these strands with little loss. Modulating the light makes the light into a signal and so the light can carry information. One common use of optical fibers to transmit information is the use to communicate phone calls, so sound is convered to a light signal and transmitted through optical fibers and at the other end it can be converted back into sound. Optical fibers do not transmit sound but transmit light that contains the information abut the sound. The phase "concentrated light" does not really apply to this process in an obvious way because "concentrated" is a term with meaning only in a comparative sense. Light is transmitted through optical fibers and carries digital information of all sorts.