"title":"Match the description to the EIGRP packet type. (Not all options are used.)",
"images":[],
"fields":{
"f1":"used to propagate routing information to EIGRP neighbors",
"f2":"used to acknowledge the receipt of an EIGTP message that was sent using reliable delivery",
"f3":"used for neighbor discovery and to maintain neighbor adjacencies",
"f4":"send in response to an EIGRP query",
"f5":"used to query routes from neighbors"
},
"values":{
"v1":"hello packets",
"v2":"query packets",
"v3":"reply packets",
"v4":"update packets",
"v5":"acknowledgment packets",
"v6":"database description packets"
},
"correct":{
"f1":"v4",
"f2":"v5",
"f3":"v1",
"f4":"v3",
"f5":"v2"
}
},
{
"id":"ccna3-q38",
"type":2,
"title":"Match each description to its corresponding LSA type. (Not all options are used.)",
"images":[],
"fields":{
"f1":"generated by the DR on a multiaccess segment and flooded within an area",
"f2":"generated by ABRs and sent between areas",
"f3":"generated by ABRs and sent between areas to advertise the location of an AS",
"f4":"generated by all routers and flooded within an area"
},
"values":{
"v1":"type 1",
"v2":"type 2",
"v3":"type 3",
"v4":"type 4",
"v5":"type 5"
},
"correct":{
"f1":"v2",
"f2":"v3",
"f3":"v4",
"f4":"v1"
}
},
{
"id":"ccna3-q135",
"type":2,
"title":"Match the order in which the link-state routing process occurs on a router. (Not all options are used.)",
"images":[],
"fields":{
"f1":"step 1",
"f2":"step 2",
"f3":"step 3",
"f4":"step 4",
"f5":"step 5"
},
"values":{
"v1":"Each router is responsible for “saying hello” to its neighbors on directly connected networks.",
"v2":"Each router builds a Link-State Packet (LSP) containing the state of each directly connected link",
"v3":"Each router learns about its own directly connected networks",
"v4":"Each router increments the hop count for the destination network",
"v5":"Each router floods the LSP to all neighbors, who then store all LSPs received in a database",
"v6":"Each router uses the database to construct a complete map of the topology and computes the best"
},
"correct":{
"f1":"v3",
"f2":"v1",
"f3":"v2",
"f4":"v5",
"f5":"v6"
}
},
{
"id":"ccna3-q136",
"type":2,
"title":" Match the description to the term. (Not all options are used.)",
"images":[],
"fields":{
"f1":"This is the algorithm used by OSPF",
"f2":"This is where the details of the neighboring routers can be found",
"f3":"This is where you can find the topology table",
"f4":"All the routers are in the backbone area"
},
"values":{
"v1":"adjacency database",
"v2":"Shortest Path First",
"v3":"single-area OSPF",
"v4":"DUAL",
"v5":"link-state database",
"v6":"multiarea OSPF"
},
"correct":{
"f1":"v2",
"f2":"v1",
"f3":"v5",
"f4":"v3"
}
},
{
"id":"ccna3-q137",
"type":2,
"title":"Match the order of precedence to the process logic that an OSPFv3 network router goes through in choosing a router ID. (Not all options are used.)",
"images":[],
"fields":{
"f1":"priority 1",
"f2":"priority 2",
"f3":"priority 3",
"f4":"priority 4"
},
"values":{
"v1":"The router displays a console message to configure the router ID manually",
"v2":"The router uses the highest configured IPv4 address of an active interface",
"v3":"The router chooses the highest IPv6 address that is configured on the router",
"v4":"The router uses the highest configured IPv4 address of a loopback interface",
"v5":"The router uses the explicitly configured router ID if any"
},
"correct":{
"f1":"v5",
"f2":"v4",
"f3":"v2",
"f4":"v1"
}
},
{
"id":"ccna3-q140",
"type":2,
"title":"Match each OSPF router type description with its name. (Not all options are used.)",
"images":[],
"fields":{
"f1":"All the routers of this type have identical LSDBs",
"f2":"All the routers of this type mainrain separate LSDBs for each area to which they connect",
"f3":"All the routers of this type can import non-OSPF network information to the OSPF network and vice versa using route redistribution"
"title":"Refer to the exhibit. A company has an internal network of 192.168.10.0/24 for their employee workstations and a DMZ network of 192.168.3.0/24 to host servers. The company uses NAT when inside hosts connect to outside network. A network administrator issues the show ip nat translations command to check the NAT configurations. Which one of source IPv4 addresses is translated by R1 with PAT",
