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Question

In linux, in networking, class A addresses, have their first [...] bit segment represent the LAN, and the next [...] bits represent the host machine

Answer

8, 24

^^ normally class A is not too often used

^^^ Class A addresses are identified by 0 being the first bit (from left), so they are all 0.x.x.x to 127.x.x.x range

Question

In linux, in networking, class A addresses, have their first [...] bit segment represent the LAN, and the next [...] bits represent the host machine

Answer

Question

In linux, in networking, class A addresses, have their first [...] bit segment represent the LAN, and the next [...] bits represent the host machine

Answer

8, 24

^^ normally class A is not too often used

^^^ Class A addresses are identified by 0 being the first bit (from left), so they are all 0.x.x.x to 127.x.x.x range

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25. Introduction to IP
machine on the LAN. Now, because it was unknown at the time of specification whether there would one day be more LANs or more machines per LAN, three different classes of address were created. <span>Class A addresses begin with the first bit of the network part set to 0 (hence, a Class A address always has the first dotted decimal number less than 128 ). The next 7 bits give the identity of the LAN, and the remaining 24 bits give the identity of an actual machine on that LAN. A Class B address begins with a 1 and then a 0 (first decima

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status	not learned	measured difficulty	37% [default]	last interval [days]
repetition number in this series	0	memorised on		scheduled repetition
scheduled repetition interval		last repetition or drill

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