{ "title": "CCNA 2 Final Exam", "questions": [ { "id": "asd", "type": 2, "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" }, "values": { "v1": "internal router", "v2": "backbone router", "v3": "autonomus system boudary router (ASBR)", "v4": "area border router (ABR)" }, "correct": { "f1": "v1", "f2": "v4", "f3": "v3" } } ], "dead": [ { "id": "quest1", "type": 1, "title": "The buffers for packet processing and the running configuration file are temporarily stored in which type of router memory?", "images": [], "options": { "q1-1": "flash", "q1-2": "NVRAM", "q1-3": "RAM", "q1-4": "ROM" }, "correct": [ "q1-3" ] }, { "id": "quest2", "type": 1, "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", "images": [ "i258133v1n1_258133.png" ], "options": { "q2-1": "10.0.0.31", "q2-2": "192.168.3.5", "q2-3": "192.168.3.33", "q2-4": "192.168.10.35", "q2-5": "172.16.20.5" }, "correct": [ "q2-4", "q2-2" ] } ] }