Q. In IPv4 datagram, padding is added if the size of a datagram is less than

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Q. In IPv4, the only thing encapsulated in a frame is

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Q. In Internetwork, network layer is responsible for

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Q. In IPv4 protocol, each datagram is handled

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Q. CCT stands for

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Q. In IPv4, fragmented datagram's fragment size should have the first byte number divisible by

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Q. IPv6 is designed to allow the extension of the

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Q. The total length of the IPv4 datagram is limited to 65,535 (2^16 - 1) bytes, the field length is

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Q. In IPv6, the base header can be followed by, up to

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Q. When HEADER LENGTH field of the IPv4 header is at its maximum size, the value of the field willl be

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Q. The flag field that does fragmentation of IPv4 segment is the

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Q. In an IPv6 datagram, the M bit is 0, the value of HLEN is 5, the value of total length is 200 and the offset value is

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Q. In IPv4, the code point subfield can be used in

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Q. In IPv4, a machine drops the header and trailer, when it receives a

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Q. A sender can choose a route so that its datagram does not travel through

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Q. In fragmentation of IPv4, the 13-bit field that shows the relative position of the fragment with respect to the whole datagram is called

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Q. An option that is used by the source to predetermine a route for the datagram as it travels through the Internet is known as

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Q. The router discards the datagram when it is decremented to

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Q. Datagram network uses the universal addresses defined in the network layer to route packets from the source to the

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Q. In IPv4, some physical networks are not able to encapsulate a datagram of

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