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.
That is called optical fiber communication, where light is used to transmit data through long glass fibers, often for telecommunications purposes. The process involves converting sound waves into light pulses that travel through the fibers and then converting them back into sound at the other end.
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.
Ocean waves. Or, for that matter, any waves.
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.
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.
"optics"
fiber-optic
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.
That is called optical fiber communication, where light is used to transmit data through long glass fibers, often for telecommunications purposes. The process involves converting sound waves into light pulses that travel through the fibers and then converting them back into sound at the other end.
You're describing fiber-optic transmission. But it doesn't 'carry sound'.The fiber carries nothing but light. By changing the brightness (intensity) of the light,according to rules that the people at both ends of the fiber have agreed on, they cansend information to each other. If the rate of information-exchange through the fiber isfast enough, the information can consist of the description of a sound or a moving picture,and it can be used to construct a copy of the sound or video at the receiving end of the fiber.But it's still only light that traverses the fiber.
Yes, you can carry a laptop in your carry-on luggage when traveling.
Yes, you can carry an Xbox in your carry-on luggage when traveling.
Yes, you can carry on deodorant in your carry-on luggage when traveling.
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.
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Infrared & Microwaves are used to carry information through Optical Fibres. Infrared carries visible light Radio Waves & Microwaves carry telephony and computed data E.Akbay
In the central nervous system (CNS), there are two main types of neuron fibers: afferent (sensory) fibers that carry information from sensory receptors to the CNS, and efferent (motor) fibers that carry information from the CNS to effectors such as muscles and glands. These fibers make up the vast network of connections that allow for communication within the brain and spinal cord.