The number of bits used to identify the hosts is fixed by the class of the network.
Up to 24 bits can make up the host portion of a Class C address.
This is for RPG ILE Programming.
Incresed SecurityThe administrator has controls over routing
It represents an association between two values numerically.
good use is to demolish the structure
example with two variables (j and d):for (i=0; i
Classful addresses are no longer given out. Traditionally, this would require a Class B network, since it has a large enough range. A Class C network only has 256 addresses, but two adjacent Class C addresses would also work.Classful addresses are no longer given out. Traditionally, this would require a Class B network, since it has a large enough range. A Class C network only has 256 addresses, but two adjacent Class C addresses would also work.Classful addresses are no longer given out. Traditionally, this would require a Class B network, since it has a large enough range. A Class C network only has 256 addresses, but two adjacent Class C addresses would also work.Classful addresses are no longer given out. Traditionally, this would require a Class B network, since it has a large enough range. A Class C network only has 256 addresses, but two adjacent Class C addresses would also work.
yes
The first and last IP address on each network. e.g. In a classful class C network, the IP addresses x.x.x.0 and x.x.x.255 are invalid and cannot be assigned to a network interface card. x.x.x.0 is the network address for the subnet. x.x.x.255 is the network broadcast address for the subnet.
Whatever two statements your teacher wishes you to regurgitate. This is clearly one of those questions. Personally, I would describe a tragic drama as one which ends up unhappily for the main characters, but that is one statement and probably not the one which your teacher dictated to you.
there are two types of addresses: network addresses and physical addresses
This is the result of grouping two or more classful networks together. Also called supernets.
IGRP and RIPv1
Fcc
It is only used at Layer 2. It eliminates Layer 2 loops in network topologies.
Given two variables n a linear relationship, the conversion factor between them is the gradient of their graph.
*They require manual reconfiguration to accommodate network changes.*They are identified in the routing table with the prefix S
. Elections are required in broadcast multiaccess networks. Elections are sometimes required in NBMA networks.