Why is IPv6 packet processing more effective than IPv4 packet processing?
Why is IPv6 packet processing more effective than IPv4 packet processing?
Which two protocol functions allow this type of communication?
A user opens a webpage that requires the transmission of packets from the Web server to the
client’s browser. The packets transmitted from the Web server to the client exceed the smallest
MTU value on the communications path.
Which two protocol functions allow this type of communication? (Choose two.)
Which two statements are true about TCP communication?
Which two statements are true about TCP communication? (Choose two.)
Which two statements are true about optical networks?
Which two statements are true about optical networks? (Choose two.)
which layer of the OSI model does error checking occur with IPv6?
At which layer of the OSI model does error checking occur with IPv6?
Which statement is correct regarding IPv6 addresses?
Which statement is correct regarding IPv6 addresses?
Which two statements about MPLS label-switched paths (LSPs) are true?
Which two statements about MPLS label-switched paths (LSPs) are true? (Choose two.)
What are two ways that packet fragmentation is handled differently between IPv6 and IPv4?
What are two ways that packet fragmentation is handled differently between IPv6 and IPv4?
(Choose two.)
Which interface does the router use if traffic is sent to the 99.0.0.1 destination?
user@router> show route protocol static
inet.0: 15 destinations, 15 routes (15 active, 0 holddown, 0 hidden)
+ = Active Route, – = Last Active, * = Both
99.0.0.0/17 *[Static/5] 00:00:11
>to 10.1.1.2 via ge-0/0/1.0
99.0.0.0/19 *[Static/5] 00:00:11
>to 10.1.2.2 via ge-0/0/2.0
99.0.0.0/24 *[Static/5] 00:00:11
>to 10.1.3.2 via ge-0/0/3.0
99.0.0.0/26 *[Static/5] 00:00:11
>to 10.1.4.2 via ge-0/0/4.0
In the exhibit, there are four static routes that route traffic through different interfaces.
Which interface does the router use if traffic is sent to the 99.0.0.1 destination?
what is the equivalent of 11010101 01000010 01111111 11000010?
In dotted decimal notation, what is the equivalent of 11010101 01000010 01111111 11000010?