Which of the following network topologies provides redundancy for a failed link?
In a full mesh topology, every device has a point-to-point connection with every other device. This provides full redundancy, but it is expensive and impractical. A star topology connects network devices to the network with a single patch cable; a patch cable failure makes the connected device unavailable.
Which network topology provides redundancy because it provides multiple paths to all the nodes on the network?
Which of the following topologies connects each network device to a central hub or switch?
Star topology has become the dominant physical topology for LANs. The star was first popularized by ARCNET, and later adopted by Ethernet. Each node is connected directly to a central device such as a hub or a switch, as shown in Figure 5.17.
Which of the following topologies connects each network device?
Which network topology provides redundancy?
Which network topology will fail if the main cable fails?
What happens if you experience a link failure with this network topology?
If the cable experiences a failure, the whole network goes down, which can be time-consuming and expensive to restore, which can be less of an issue with smaller networks. Bus topologies are best suited for small networks because there’s only so much bandwidth, and every additional node will slow transmission speeds.
Which of the following topologies connects each network device to a central hub group of answer choices?
Star topologies connect each device on the network to a central hub.
Which type of network topology provides the most redundancy?
In which topology all nodes of network are directly connected to all other nodes?
What Is Star Topology? A star topology, the most common network topology, is laid out so every node in the network is directly connected to one central hub via coaxial, twisted-pair, or fiber-optic cable.
In which topology all the nodes are connected to the main cable?
bus network topology