24 bits (8 bits per octet, so 3) are used for the network portion of a class C IP address
IPv4 addresses have 4 octets, each octet separated by a period. For example, at this time, one of Yahoo's servers has an ip address of 67.195.160.76.
Class B Class A are octets beginning in numbers 1-126 Class B are octets beginning in numbers 128-191 Class C are octets beginning in numbers 192-223
There are4 octets in an IP address as shown below:Octet1.Octet2.Octet3.Octet4Every IP class has different allocation of network and host ID.For class A, the network and host IDs' allocation is as follows:Network.Host.Host.HostFor class B, the network and host IDs' allocation is as follows:Network.Network.Host.HostFor class C, the network and host IDs' allocation is as follows:Network.Network.Network.HostYou may go to the following link get more info on IP address classes and their IDs:www.iphow.x10hosting.com
The last 3 octets represent the host portion in a class A address.
There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.
no
A class C network supports the most networks - the first three octets or 24 bits gives the largest grouping of networks.
Octets.
The first octet determines what class of network you are located on. From that, you can determine how many of the octets represent the network address, and which part represents the client or host portion. IP addresses in version 4 (iPv4) are divided into two segments: the network id and the host id. Knowing the range of network class addresses will help: Class A is 0 - 126 and uses only the first octet for the network portion Class B is 128 - 191 and uses the first two octets for the network id Class C is 192 - 223 and uses the first three octets for the network id An example would be: 192.168.1.5 is a class C address, so we use the first three octets for the network id. This gives a network id of 192.168.1.0 and a host id of 5 in that network.
No, because first three octets are suppose to be same and they are not.
There are 4 octets in an IP address as shown below:Octet1.Octet2.Octet3.Octet4 Every IP class has different allocation of network and host ID.For class A, the network and host IDs' allocation is as follows:Network.Host.Host.HostFor class B, the network and host IDs' allocation is as follows:Network.Network.Host.HostFor class C, the network and host IDs' allocation is as follows:Network.Network.Network.HostYou may go to the following link get more info on IP address classes and their IDs:www.iphow.co.cc
A classful class B network has a network range of 128 - 191. For host addresses, anything that is legal for an IP address in the last 2 octets would be a valid host address for a class B with no subnets.