CCNA 3 v5.03 Chapter 5

Description

sophomore CCNA 3 Quiz on CCNA 3 v5.03 Chapter 5, created by Christina Evans on 28/06/2016.
Christina Evans
Quiz by Christina Evans, updated more than 1 year ago
Christina Evans
Created by Christina Evans over 7 years ago
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Resource summary

Question 1

Question
Refer to the exhibit. What three conclusions can be drawn from the displayed output? (Choose three.)
Answer
  • The DR can be reached through the GigabitEthernet 0/0 interface.
  • This interface is using the default priority.
  • The BDR has three neighbors.
  • The router ID on the DR router is 3.3.3.3
  • The router ID values were not the criteria used to select the DR and the BDR.
  • There have been 9 seconds since the last hello packet sent

Question 2

Question
Refer to the exhibit. Which conclusion can be drawn from this OSPF multiaccess network?​
Answer
  • When a DR is elected all other non-DR routers become DROTHER.
  • ​All DROTHER routers will send LSAs to the DR and BDR to multicast 224.0.0.5.
  • If the DR stops producing Hello packets, a BDR will be elected, and then it promotes itself to assume the role of DR.​
  • With an election of the DR, the number of adjacencies is reduced from 6 to 3.

Question 3

Question
When checking a routing table, a network technician notices the following entry: O*E2 0.0.0.0/0 [110/1] via 192.168.16.3, 00:20:22, Serial0/0/0 What information can be gathered from this output?
Answer
  • This route is a propagated default route.
  • The route is located two hops away.
  • The metric for this route is 110.
  • The edge of the OSPF area 0 is the interface that is addressed 192.168.16.3.

Question 4

Question
Which command will a network engineer issue to verify the configured hello and dead timer intervals on a point-to-point WAN link between two routers that are running OSPFv2?
Answer
  • show ip ospf neighbor
  • show ip ospf interface serial 0/0/0
  • show ipv6 ospf interface serial 0/0/0
  • show ip ospf interface fastethernet 0/1

Question 5

Question
A network engineer suspects that OSPFv3 routers are not forming neighbor adjacencies because there are interface timer mismatches. Which two commands can be issued on the interface of each OSFPv3 router to resolve all timer mismatches? (Choose two.)
Answer
  • no ipv6 ospf hello-interval
  • no ipv6 ospf dead-interval
  • ip ospf hello-interval 10
  • ip ospf dead-interval 40
  • no ipv6 ospf cost 10
  • no ipv6 router ospf 10

Question 6

Question
Refer to the exhibit. What kind of OSPF authentication has been configured on this interface?
Answer
  • simple
  • null
  • plain text
  • MD5

Question 7

Question
Which two pieces of information are used by the OSPF MD5 algorithm to generate a signature? (Choose two.)
Answer
  • secret key
  • OSPF message
  • OSPF router ID
  • router hostname
  • interface IP address

Question 8

Question
What is a recommended method of authentication for OSPFv3?
Answer
  • MD5 authentication
  • IPsec to secure routing updates
  • the passive-interface command
  • a VPN tunnel between each OSPF neighbor adjacency

Question 9

Question
A network engineer is troubleshooting convergence and adjacency issues in an OSPFv2 network and has noted that some expected network route entries are not displayed in the routing table. Which two commands will provide additional information about the state of router adjacencies, timer intervals, and the area ID? (Choose two.)
Answer
  • show ip protocols
  • show ip ospf interface
  • show ip route ospf
  • show ip ospf neighbor
  • show running-configuration

Question 10

Question
When OSPFv2 neighbors are establishing adjacencies, in which state do they elect a DR and BDR router?
Answer
  • Exchange state
  • Init state
  • Two-Way state
  • Loading state

Question 11

Question
A network engineer is troubleshooting an OSPFv2 network and discovers that two routers connected by a point-to-point WAN serial link are not establishing an adjacency. The OSPF routing process, network commands and area ID are all confirmed as correct, and the interfaces are not passive. Testing shows that the cabling is correct, that the link is up, and pings between the interfaces are successful. What is most likely the problem?
Answer
  • The subnet masks on the two connected serial interfaces do not match.
  • A clock rate has not been set on the DCE interface of the serial link.
  • The OSPFv2 process IDs on each router do not match.
  • A DR election has not taken place.

Question 12

Question
A network engineer is troubleshooting OSPFv2 routing issues on two connected routers. Which two requirements to form an adjacency need to be verified? (Choose two.)
Answer
  • Verify that one of the interfaces that connects the two routers is active and the other passive.
  • Verify that one of the routers is the DR or BDR and the other router a DRother.
  • Verify that the interfaces that connect the two routers are in the same subnet.
  • Verify that the interfaces that connect the two routers are in the same area.
  • Verify that both routers are using the same OSPFv2 process ID.

Question 13

Question
Which command is used to verify that OSPF is enabled and also provides a list of the networks that are being advertised by the network?​
Answer
  • show ip protocols
  • show ip ospf interface
  • show ip interface brief
  • show ip route ospf

Question 14

Question
A fully converged five router OSPF network has been running successfully for several weeks. All configurations have been saved and no static routes are used. If one router loses power and reboots, what information will be in its routing table after the configuration file is loaded but before OSPF has converged?
Answer
  • All routes for the entire network will be present.
  • Directly connected networks that are operational will be in the routing table.
  • Because the SPF algorithm has not completed all calculations, no routes will be in the table.
  • A summary route for all previously learned routes will automatically appear in the routing table until all LSPs have been received by the router.

Question 15

Question
Refer to the exhibit. R1 and R2 are connected to the same LAN segment and are configured to run OSPFv3. They are not forming a neighbor adjacency. What is the cause of the problem?
Answer
  • The IPv6 addresses of R1 and R2 are not in the same subnet.
  • The OSPFv3 process IDs of R1 and R2 are different.
  • The timer intervals of R1 and R2 do not match.
  • The priority value of both R1 and R2 is 1.

Question 16

Question
Refer to the exhibit. Four routers are connected to an Ethernet LAN segment and are configured to run OSPFv3. However, none of the routers are receiving routing updates. What is the cause of the problem?
Answer
  • The routers are using IPv4 addresses for router IDs.
  • All of the routers have an OSPFv3 interface priority of 0.
  • The network type has been set to BROADCAST instead of NBMA.
  • The routers are using IPv6 link local addresses to communicate.

Question 17

Question
Refer to the exhibit. These two routers are configured to run OSPFv3 but they are not forming a neighbor adjacency. What is the cause of the problem?
Answer
  • The routers have the same priority.
  • The routers have both been elected as the DR.
  • The routers are configured with the same router ID.
  • The routers do not have global IPv6 addresses that are configured on the Fa0/0 interfaces.

Question 18

Question
During verification or troubleshooting of the OPSFv3 configuration on a router, which three parameters are displayed by the show ipv6 ospf interface command? (Choose three.)
Answer
  • the hello and dead intervals
  • the global unicast IPv6 address of the interface
  • the metric of the route that is attached to the interface
  • the OSPFv3 area that the interface is in
  • the process ID that is assigned to the interface
  • the number of interfaces in the area

Question 19

Question
Refer to the exhibit. Fill in the blank. Do not use abbreviations. The command [blank_start]show ipv6 route[blank_end] can be issued on router R2 to verify the propagation of a static default route from R1 to R2.
Answer
  • show ipv6 route

Question 20

Question
Fill in the blank. Do not use abbreviations. When IPv4 and OSPFv2 are being used, the command [blank_start]show ip ospf neighbor[blank_end] is used to verify that a router has formed an adjacency with its neighboring routers.
Answer
  • show ip ospf neighbor

Question 21

Question
Match each OSPF state to its function. (Not all options are used.)
Answer
  • _ Full State _
  • _ Loading state _
  • _ ExStart state _

Question 22

Question
Match each OSPF election criterion to its sequential order for the OSPF DR and BDR election process. (Not all options are used.)
Answer
  • _ third _
  • _ second _
  • _ first _
  • _ fourth _

Question 23

Question
The PT initialization was skipped. You will not be able to view the PT activity. Open the PT Activity. Perform the tasks in the activity instructions and then answer the question. Which task has to be performed on Router 1 for it to establish an OSPF adjacency with Router 2?
Answer
  • Issue the clear ip ospf process command.
  • Remove the passive interface command from interface FastEthernet 0/0.
  • Add the network 10.0.1.0 0.0.0.255 area 0 command to the OSPF process.
  • Change the subnet mask of interface FastEthernet 0/0 to 255.255.255.0.
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