Bus
A star topology is a method of connecting several computers to one another in a network. The cables used in a star topology are twisted pair cables or coaxial cables. Coaxial cables would be the cheapest solution.
As for most things, the lowest cost version of something is also the simplest version of something. In this case, that would be the bus network topology.
If by Star you mean a Star Topology, it is a network cabling scheme in which all nodes are individually connected to a central hub.
Topology
Both the coaxial cable and twisted pair cable have a basic connection medium for network cabling. <<>> Coaxial cable can be used for transmission of RF (radio frequencies) whereas Cat 5 (twisted pairs cable) can not.
yes, network topology does matter to design a network. as we know that topology is a structure of network. without a topology network cannot be designed. we have to consider which topology to use and what does each topology does. different topology have its different features. if you want most secure connection use full mesh topology
There are two basic categories of network topologies Physical topologies Logical topologies The shape of the cabling layout used to link devices is called the physical topology of the network. Logical topology is the way the signals act in the network In BUS topology you have "THE LINEAR BUS" and "THE DISTRIBUTED BUS" IN the LINEAR bus all the nodes of the network are connected to a common transmission medium which has 2 end points where as in the DISTRIBUTED, all the nodes are connected to a common transmission medium which has more than 2 end points.
Local Area Network Cable usually associate with a bus topology network. In a Bus topology network simple LAN cables are used with LAN Hubs ( i.e. having a collection of LAN ports ) which in turn connect many systems with the server systems. LAN cables are available in various length ranging from 1meter onwards.
Fiber optic cablingAnswer Explanation: Unlike coaxial cabling, unshielded twisted pair (UTP) cabling, and shielded twisted pair (STP) cabling, fiber optic cabling is not susceptible to eavesdropping. An eavesdropper would have to actually cut the line and tap into the fiber optic cable with a highly complex form of optical T-connector. This would interrupt the connection, which should immediately trigger an alarm.The "Unshielded twisted pair cabling" and "Shielded twisted pair cabling" options are incorrect. Twisted pair cabling is susceptible to eavesdropping because information is transmitted through the cable via electrical pulses, which emit small amounts of electromagnetic radiation. An eavesdropper could intercept communications with the proper equipment.The "Coaxial cabling" option is incorrect. Coaxial cabling is susceptible to eavesdropping because anyone can tap into it and add an unauthorized device. Since connections to the network cannot be controlled by a switch or hub, there is no way to prevent unauthorized connections. An intruder can tap into the network with either a basic T-connector or vampire tap.
The arrangement of computers on a network is called topology. It describes how the individual computers are connected to each other and to the network.examples of topology are Star topology, ring topology, mesh topology, bus topology.
The conclusion of network topology is to ensure that the system is working as required. Topology refers to the physical wiring process in a network.
Network topology is the arrangement of the various components that make up the structure of a computer network. Network topology may be depicted in a physical or logical manner.