Pretend we are defining a new class of networks: 1 byte for network IDs and 1 byte for hostID. The definition of class A is: networkdID is : 0xxx-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s. The definition of class B is: networkdID is : 10xx-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s The definition of class C is: networkdID is : 110x-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s. How many total IP addresses can we have with the above definition?
Discrete Mathematic Question:
Pretend we are defining a new class of networks: 1 byte for network IDs and 1 byte for hostID.
The definition of class A is:
networkdID is : 0xxx-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s.
The definition of class B is:
networkdID is : 10xx-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s
The definition of class C is:
networkdID is : 110x-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s.
How many total IP addresses can we have with the above definition?
The definition of class A is:
networkdID is : 0xxx-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s.
The definition of class B is:
networkdID is : 10xx-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s
The definition of class C is:
networkdID is : 110x-xxxx and the one byte (8 bits) hostID cannot contain all 0s and 1s.
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