It means that the traditional limits of classes (A, B, and C) are not given much importance. You may have networks that are larger, or smaller, than a traditional "classful" network.
It means that the traditional limits of classes (A, B, and C) are not given much importance. You may have networks that are larger, or smaller, than a traditional "classful" network.
It means that the traditional limits of classes (A, B, and C) are not given much importance. You may have networks that are larger, or smaller, than a traditional "classful" network.
It means that the traditional limits of classes (A, B, and C) are not given much importance. You may have networks that are larger, or smaller, than a traditional "classful" network.
Class B, if you are referring to classful addressing schemes.
The First Octet is used to derive the Class of an IP address...... Eg: 192.168.1.1------ The IP class for this IP add is CLASS "C" as the first Octet is 192.
There are five IP classes that IP addresses are divided into. The IP address 185 is a class B address. Class B IP addresses have the first three numbers of 128 to 191.
192.168.0.254 is a valid "class C" IP address.
The number of possible IP address decreases as one steps down from Class A to Class C IP addresses because the availability of usable hosts. There is a decrease in the number of usable hosts from Class A to Class C IP addresses.
Class a
It belongs to the class A.
André is a IP Mother, he takes care of people in the IP class
The offset for a Class C IP address is 24 bits.
The difference between classful IP addressing and classless IP addressing is in selecting the number of bits used for the network ID portion of an IP address. In classful IP addressing, the network ID portion can take only the predefined number of bits 8, 16, or 24. In classless addressing, any number of bits can be assigned to the network ID.
IP address can really help to identify which type of network it is connected to. First we have to know the class of IP, there are 3 class of IP that we can use. Class A : 1.0.0.0 - - 126.255.255.255 (255.0.0.0) [Revised] Class B : 128.0.0.0 - - 191.255.255.255 (255.255.0.0) Class C : 192.0.0.0 - - 223.255.255.255 (255.255.255.0) Second, we have to identify if the given IP is from private or public range, every class of IP has its private range of IP. Class A : 10.0.0.0 - 10.255.255.255 Class B : 172.16.0.0 - 172.31.255.255 Class C : 192.168.0.0 - 192.168.255.255 After deciding that we can get a bulk piece of information about the network with which it is connected.
The no. of IP's that can be assigned to single computer depends on the subnet mask. if the subnet mask is of A class then the IP's assigned can be 16777216. If the subnet mask is of B class then the no. of IP's that can be assigned is 65536. And if the subnet mask is of C class then the IP's assigned can be 254.