Class C
C class
It belongs to the class A.
Class B Address
Class B, if you are referring to classful addressing schemes.
In classfull addressing schemes each address class limited the total number of clients per network. Other than that, there are no particular functions for each address class.
In classful addressing, the class of an IP address can be determined by the value in the first octet: 0 - 126 class A 128 - 191 class B 192 - 223 class C
The IPv4 address 163.208.199.8 belongs to the class B address range.Class A - 1.0.0.0 - 126.0.0.0Class B - 128.0.0.0 - 191.255.0.0Class C - 192.0.0.0 - 233.255.255.0
Depends on your subnet mask. If you are talking about a classful addressing scheme in a class B, then the network would be 172.32.0.0
An IP address is divided into the network and host (computer) portion. Where the division is made depends on the address class A/B/C or the now more usual classes addressing the netmask.
For classful addressing, the first octet identifies the class to which it belongs. There is also a way of looking at the first few bits of the first octet, but that makes it more difficult. For an IpV4 address, you have 4 octets for the IP address. Looking at the first octet, to determine the range, use the following: 1 - 126 class A 127 local loopback address 128 - 191 class B 192 - 223 class C 224 - 239 class D 240 - 254 class E
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.
The first 16 bits is the location of the Class B IPv4 address network ID based in classful addressing. 16 bit is an expression used for microcomputers with 16-bit microprocessors.
it is belong to the class INSECTA.:)