I need help to discover how to identify how many host addresses are available on the mobile network using this subnet mask

I know the answer is 2^23-2 = 8388608 (8388606 - less subnet address and broadcast address)

But why is it this answer. The mobile network is a class A address that has 2^24-2 host addresses. So would the number of hosts on the subnet mask always be 1 less, is this why it is 23?

Or is this because as there is 128 shown after 255 and this is 1000 0000 that one bit is occupied and is less than 24?

I will be very grateful for an answer as I have looked everywhere. Thanks


Subnet masks and network classes are related but distinct.

You say that the base network is a class A network. That indicates to me that it is some network with an address range of n.0.0.0 to n.255.255.255, where n <= 127. (See https://en.wikipedia.org/wiki/Class_A_network#Introduction_of_address_classes.) This class A network itself has an effective subnet mask of, with 24 bits of freedom.

The subnet mask of represents an additional narrowing of the wider class A network. Apparently the class A network has been partitioned in two by reserving one extra bit. Normally it would be further allocated into fairly narrow subnets.

Because the subnet mask you provide fixes an additional bit beyond the class A mask, it has only 23 bits of freedom. This is why the exponent in your calculation is 23 rather than 24.

  • thank you very much for your answer, does this mean that if the subnet mask in this case was the number of hosts on the subnet would be 2^22-2? So would be 22 as 2 bits would be used? Thanks – Tim May 3 '11 at 23:52
  • @Tim - your understanding is correct (but the netmask number would be – Robᵩ May 4 '11 at 2:45
  • @Rob Thanks but how would the net mask be 192 when in binary 182 would occupy 11 the first two bits of 128 and 64 and the remaining zero's in the subnet mask would be 22, right? – Tim May 4 '11 at 8:50
  • @Tim - It would be 192 because 128 + 64 = 192. :) But you are right that there would be 22 remaining zero bits. – Scott Moonen May 4 '11 at 12:11

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