A core sheath fiber section refers to a type of fiber structure where a central core is surrounded by a sheath or outer layer. This configuration can provide specific properties such as enhanced strength, durability, or flexibility compared to a uniform fiber structure. Core sheath fibers are commonly used in various applications such as textiles, composites, and technical fabrics.
myelin sheath.
Surrounding the myelin sheath, there is a thin membrane called neurilemmal sheath. This is also called neurilemma or sheath of Schwann. This contains Schwann cells, which have flattened and elongated nuclei. The cytoplasm is thin and modified to form the thin sheath of neurilemma enclosing the myelin sheath. One nucleus is present in each internode of the axon. The nucleus is situated between myelin sheath adn neurilemma. At the node of Ranvier (where myelin sheath is absent), the neurilemma invaginates and runs up to axolemma in the form of a finger like process. In nonmyelinated nerve fiber, the neurilemma continuously surrounds axolemma. Neurilemma is absent in central nervous system. Neurilemma is necessary for the formation of myelin sheath (myelinogeneis).
A nerve fiber consists of the axon, which transmits nerve impulses, along with protective covering called myelin sheath, Schwann cells that produce myelin, and the endoneurium which surrounds individual nerve fibers.
The myelin sheath helps to increase the speed of nerve impulses by insulating and protecting the axon. This insulation prevents the electrical signal from "leaking" out of the axon, allowing for faster and more efficient transmission of signals along the nerve fiber.
No, 50 micron fiber is not compatible with 62.5 micron fiber. The difference in core sizes can lead to signal loss and poor performance in the connection. It's recommended to use fibers of the same core size for optimal performance.
required to maintain nerve fiber sheath
myelin sheath.
Optacal fiber cables are the fastest network cables in which the signals are transmiited nearly at the speed of light. they are very expesive because they are made of fiber glasses.
Fiber optics are cables that are used to transmit data at the speed of light. This uis especially popular with Verizon FiOS services. for details on fios go to www.whyisfiosbetter.viviti.com
A yarn in which one type of fiber is twisted or wrapped around another fiber that serves as a core.
because in the fiber optics the transmission of the light waves are through core and cladding is to cover the core
MM fiber is multi mode fiber.strength 1.more (fiber area cross section) light carry componet core is 62.5 microns2. Same cable can be used for both single mode and multimode transmission.weakness is less transmission distance 2kms (half of the single mode fiber distance)
one
Fiber Optic Patch Cord is used to interconnect Transmission equipment to the Fiber optic patch panel. we got 2 kind of fiber optic patch core according to the mode: single mode patch core (SM) and multi-mode patch core(MM). and several kind according to the connector: sc, fc, st, lc patch core etc.
1. Step index fiber is of two types viz; mono mode fiber and multi mode fiber. Graded index fiber is of only of one type that is multi mode fiber. 2. The refractive index of the core of the step index fiber is constant through out the core. The refractive index of the core of the graded index fiber is maximum at the center of the core and then it decreases towards core-cladding interface. 3. Number of modes for step index fiber N = V2/2, where V is cut off frequency or normalized frequency or V- number Number of modes for graded index fiber is N = V2/ 4. 4. V number can be less that 2.405 or more that 2.405 for step index fiber V number is always more than 2.405 for graded index fiber. 5. Step Index Fiber is a fiber in which the core is of a uniform refractive index and there is a sharp decrease in the index of refraction at the cladding. Graded Index Fiber is a type of fiber where the refractive index of the core is lower toward the outside of the fiber. It bends the rays inward and also allows them to travel faster in the lower index of refraction region. This type of fiber provides high bandwidth capabilities.
The endomysium is the correct answer.Endomysium is the name of the fine connective tissue sheath that surrounds each individual muscle fiber.
Schwann cells are responsible for wrapping around nerve fibers in the peripheral nervous system to form the myelin sheath. This insulating layer helps in the rapid conduction of nerve impulses along the nerve fiber. Schwann cells also provide support and maintain the health of the nerve fiber.