hub
router
access point
Ethernet switch
Observable Description Max Value
1 correctness of response 2 points for Option 2
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.1.1 Routers are Computers
2 Which two router component and operation pair are correctly described? (Choose two.)
DRAM - loads the bootstrap
RAM - stores the operating system
Flash - executes diagnostics at bootup
NVRAM - stores the configuration file
ROM - stores the backup configuration file
POST - runs diagnostics on hardware modules
Observable Description Max Value
1 correctness of response Option 4 and Option 6 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.1.2 Router CPU and Memory
3 A router boots and enters setup mode. What is the reason for this?
The IOS image is corrupt.
Cisco IOS is missing from flash memory.
The configuration file is missing from NVRAM.
The POST process has detected hardware failure.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.1.4 Router Boot-up Process
4
Refer to the exhibit. Packets destined to which two networks will require the router to perform a recursive lookup? (Choose two.)
10.0.0.0/8
64.100.0.0/16
128.107.0.0/16
172.16.40.0/24
192.168.1.0/24
192.168.2.0/24
Observable Description Max Value
1 correctness of response Option 1 and Option 6 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.3.3 Cisco Discovery Protocol (CDP)
5 Which candidate route has the longest match for a packet with a destination address of 10.30.16.48?
10.30.0.0/16
10.30.15.0/23
10.30.16.0/24
10.30.16.32/27
10.30.16.32/30
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
8.2.2 Longest Match: Level 1 Network Routes
6
Refer to the exhibit. Routers R1 and R3 use different routing protocols with default administrative distance values. All devices are properly configured and the destination network is advertised by both protocols.
Which path will be used to transmit the data packets from PC1 to PC2?
The packets will travel via R2-R1.
The packets will travel via R2-R3.
The traffic will be load-balanced between two paths — via R2-R1 and via R2-R3.
The packets will travel via R2-R3, and the other path via R2-R1 will be retained as the backup path.
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.3.3 Load Balancing
7 In a complex lab test environment, a router has discovered four paths to 192.168.1.0/24 via the use of the RIP routing process. Which route will be installed in the routing table after the discovery of all four paths?
R 192.168.1.0/24 [120/3] via 192.168.110.1, 00:00:17, Serial0/1/0
R 192.168.1.0/24 [120/2] via 192.168.200.1, 00:00:17, Serial0/0/0
R 192.168.1.0/24 [120/1] via 192.168.100.1, 00:00:17, Serial0/0/1
R 192.168.1.0/24 [120/4] via 192.168.101.1, 00:00:17, Serial0/1/1
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
5.5.2 Propagating the Default Route in RIPv1
8
Refer to the exhibit. The router receives a packet that is destined for 192.168.5.79. How will the router handle this packet?
It will forward the packet via the FastEthernet0/0 interface.
It will forward the packet via the Serial0/0/0 interface.
It will forward the packet via the Serial0/0/1 interface.
It will drop the packet.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.6.2 Default Static Route
9 A network administrator uses the RIP routing protocol to implement routing within an autonomous system. What are two characteristics of this protocol? (Choose two.)
It uses the Bellman-Ford algorithm to determine the best path.
It displays an actual map of the network topology.
It offers rapid convergence in large networks.
It periodically sends complete routing tables to all connected devices.
It is beneficial in complex and hierarchically designed networks.
Observable Description Max Value
1 correctness of response Option 1 and Option 4 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.2.3 Distance Vector and Link State
10 Which two statements are true for link-state routing protocols? (Choose two.)
Routers that run a link-state protocol can establish a complete topology of the network.
Routers in a multipoint network that run a link-state protocol can exchange routing tables.
Routers use only hop count for routing decisions.
The shortest path first algorithm is used.
Split horizon is used to avoid routing loops.
Observable Description Max Value
1 correctness of response Option 1 and Option 4 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
10.1.1 Link-State Routing Protocols
11 Which two statements are true about classless routing protocols? (Choose two.)
They can be used for discontiguous subnets.
They can forward supernet routes in routing updates.
They cannot implement classful routes in routing tables.
They use only a hop count metric.
They do not include the subnet mask in routing updates.
Observable Description Max Value
1 correctness of response Option 1 and Option 2 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.2.4 Classful and Classless
12 Which statement is true regarding routing metrics?
All routing protocols use the same metrics.
EIGRP uses bandwidth as its only metric.
Routers compare metrics to determine the best route.
The larger metric generally represents the better path.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.3.1 Purpose of a Metric
13 Which routing protocol by default uses bandwidth and delay to calculate the metric of a route?
RIPv1
RIPv2
OSPF
EIGRP
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.3.2 Metrics and Routing Protocols
14 You have been asked to explain converged networks to a trainee. How would you accurately describe a converged network?
A network is converged when all routers have formed an adjacency.
A network is converged immediately after a topology change has occurred.
A network is converged when all routers flush the unreachable networks from their routing tables.
A network is converged after all routers share the same information, calculate best paths, and update their routing tables.
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.2.3 Distance Vector and Link State
15
Refer to the exhibit. All the routers are properly configured to use the RIP routing protocol with default settings, and the network is fully converged. Router A is forwarding data to router E. Which statement is true about the routing path?
Router A will send the data via the A-D-E path that is listed in the routing table.
Router A will load-balance the traffic between A-B-E and A-C-E.
Router A will determine that all paths have equal metric cost.
Router A will send the data through A-D-E and keep A-B-E and A-C-E as the backup paths.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
3.4.1 Purpose of Administrative Distance
16
Refer to the exhibit. A device is required to complete the connection between router R1 and the WAN. Which two devices can be used for this? (Choose two.)
a CSU/DSU device
a modem
an Ethernet switch
a hub
a bridge
Observable Description Max Value
1 correctness of response Option 1 and Option 2 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.2.5 Examining Router Interfaces
17 Which component is typically used to connect the WIC interface of a router to a CSU/DSU?
V.35 cable
RJ-45 adapter
crossover cable
straight-through cable
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.2.5 Examining Router Interfaces
18 Which router mode is accessed by entering the enable command?
user EXEC
privileged EXEC
global configuration
interface configuration
Observable Description Max Value
1 correctness of response 2 points for Option 2
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.2.2 Basic Router Configuration
19
Refer to the exhibit. What are the effects of the exhibited commands on the router?
All passwords are encrypted.
Only Telnet sessions are encrypted.
Only the enable password is encrypted.
Only the enable password and Telnet session are encrypted.
Enable and console passwords are encrypted.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.2.2 Basic Router Configuration
20
Refer to the exhibit. A technician has configured the interfaces on the Router, but upon inspection discovers that interface FastEthernet0/1 is not functioning. Which action will most likely correct the problem with FastEthernet0/1?
A clock rate should be added to the interface configuration.
The subnet mask should be added to the interface configuration.
An interface description needs to be added to the interface configuration.
The no shutdown command needs to be added to the interface configuration.
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.2.2 Basic Router Configuration
21
Refer to the exhibit. Which two facts can be derived from this output? (Choose two.)
Three network devices are directly connected to Router2.
The serial interface between Router2 and Router3 is up.
Router1 and Router3 are directly connected.
Six devices are up and running on the network.
Layer 3 functionality between routers is configured properly.
Observable Description Max Value
1 correctness of response Option 1 and Option 2 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.3.4 Using CDP for Network Discovery
22
Refer to the exhibit. Which route in the routing table of R1 will be discarded by its neighboring router?
192.168.2.0
192.168.3.0
192.168.4.0
192.168.9.0
192.168.10.0
192.168.11.0
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
5.1.2 RIPv1 Characteristics and Message Format
23
Refer to the exhibit. All interfaces are addressed and functioning correctly. The network administrator runs the tracert command on host A. Which two facts could be responsible for the output of this command? (Choose two.)
The gateway for Host A is missing or improperly configured.
The gateway for Host B is missing or improperly configured.
The entry for 192.168.1.0/24 is missing from the routing table of R1.
The entry for 192.168.1.0/24 is missing from the routing table of R2.
The entry for 192.168.2.0/24 is missing from the routing table of R1.
The entry for 192.168.2.0/24 is missing from the routing table of R2.
Observable Description Max Value
1 correctness of response Option 4 and Option 5 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.7.2 Troubleshooting a Missing Route
24 In which situation would a default static route be recommended?
when connecting an edge router to the Internet
when variable length subnet masking is in effect
when there is more than one valid route for a destination network
when a destination network has a larger mask than any routes in the routing table
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.6.2 Default Static Route
25 What is the advantage of configuring a static route with an exit interface instead of a next-hop address?
The router will perform a recursive lookup.
This route will automatically be used as the gateway of last resort.
The exit interface configuration consumes less router processing time.
The exit interface configuration has an administrative distance value of 1.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.5.1 Configuring a Static Route with an Exit Interface
26
Refer to the exhibit. On the basis of the show running-config output, which option correctly reflects the routes that will be listed in the R2 routing table?
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.5.1 Configuring a Static Route with an Exit Interface
2.6.2 Default Static Route
27 A static route has been configured on a router. However, the destination network no longer exists. What should an administrator do to remove the static route from the routing table?
Change the routing metric for that route.
Nothing. The static route will go away on its own.
Change the administrative distance for that route.
Remove the route using the no ip route command.
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.5.2 Modifying Static Routes
28
Refer to the exhibit. Hosts on the 192.168.1.0 network cannot communicate with hosts on the 172.16.1.1 network. The network administrator has run the show ip route command on R1.
What could be the cause of this problem?
The FastEthernet interface on R1 is disabled.
Autosummarization is enabled on R1.
The serial interface S0/0/0 of R1 is administratively down.
No static route or routing protocol is configured.
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.6.2 Default Static Route
29
Refer to the exhibit. The users on the local network 172.16.1.0/24 complain that they are unable to connect to the Internet. What step should be taken to remedy the problem?
A new static route must be configured on R1 with the R3 serial interface as the next hop.
A new default route must be configured on R1 with the R3 serial interface as the next hop.
The default route on R2 should be configured with the R3 serial interface as the next hop.
The default route on R2 must be replaced with a new static route and the next hop should be the R1 FastEthernet interface.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
2.6.2 Default Static Route
30 A network administrator needs to assign the very last usable IP address in the 172.24.64.0/18 network range to the router interface that serves this LAN. Which IP address should the administrator configure on the interface?
172.16.128.154/18
172.16.255.254/18
172.24.64.254/18
172.24.127.254/18
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
6.1.1 Classful IP Addressing
31
Refer to the exhibit. Which summarization should R1 use to advertise its networks to R2?
192.168.1.0/24
192.168.0.0/24
192.168.0.0/22
192.168.1.0/22
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
6.3.1 Route Summarization
32
Refer to the exhibit. Host A is unable to access the Internet. What is the reason for this?
The IP address of host A is incorrect.
The default gateway of host A is incorrect.
The Fa0/1 interfaces of the two routers are configured for different subnets.
The subnet mask for the Fa0/0 interface of R1 is incorrect.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
1.2.1 Implementing Basic Addressing Schemes
33
Refer to the exhibit. What does the highlighted entry for network 172.30.0.0/16 indicate?
Automatic summarization is enabled on R1.
The routing table of R2 contains only classful networks.
R2 will reject this update.
The routing protocol that is configured on both routers is RIPv1.
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
7.2.2 Auto-summary and RIPv2
34 Which additional piece of information is included in the updates of classless routing protocols to support the use of VLSM and discontiguous networks?
metric
network mask
neighbor router ID
administrative distance
Observable Description Max Value
1 correctness of response 2 points for Option 2
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
7.2.1 Enabling and Verifying RIPv2
35
Refer to the exhibit. The network is running the RIP routing protocol. Network 10.0.0.0 goes down. Which statement is true regarding how the routers in this topology will respond to this event?
Router4 will learn about the failed route 30 seconds later in the next periodic update.
Split horizon will prevent Router4 from fowarding packets to the 10.0.0.0 network until the holddown timer expires.
Router5 immediately flushes the unreachable route from its routing table.
Router5 will send Router4 a triggered update with a metric of 16 for network 10.0.0.0.
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
4.4.6 Split Horizon with Poison Reverse or Route Poisoning
36 What is the purpose of the TTL field within an IP packet header?
clears an unreachable route from the routing table after the invalid timer expires
prevents regular update messages from inappropriately reinstating a route that may have gone bad
removes an unreachable route from the routing table after the flush timer expires
limits the period of time or number of hops a packet can traverse through the network before it should be discarded
used to mark the route as unreachable in a routing update that is sent to other routers
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
4.4.7 IP and TTL
37 Which two technologies can be used in distance vector routing protocols to prevent routing loops? (Choose two.)
authentication
link-state advertisements
hold-down timers
Spanning Tree Protocol
split horizon
Observable Description Max Value
1 correctness of response Option 3 and Option 5 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
4.4.1 Definition and Implications
38
Refer to the exhibit. PC1 is unable to access the Internet. What is the cause of the problem?
An incorrect IP address is configured between the two routers.
No static route is configured on Router2.
A routing loop has occurred.
No routing protocol is configured on either of the two routers.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
4.4.6 Split Horizon with Poison Reverse or Route Poisoning
39
Refer to the exhibit. Both routers are using the RIPv2 routing protocol and static routes are undefined. R1 can ping 192.168.2.1 and 10.1.1.2, but is unable to ping 192.168.4.1.
What is the reason for the ping failure?
The serial interface between two routers is down.
R2 is not forwarding the routing updates.
The 192.168.4.0 network is not included in the RIP configuration of R2.
RIPv1 needs to be configured.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
7.2.1 Enabling and Verifying RIPv2
40 A sniffer program has captured a packet with a destination IP address of 224.0.0.10. Which protocol uses this IP address?
RIP
RIPv2
OSPF
EIGRP
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
9.1.2 EIGRP Message Format
41 When would the network administrator use the ip bandwidth-percent eigrp as-number percent command?
when there is a low bandwidth connection
when the connection is on a shared medium
when the connection is serial instead of Ethernet
when the link is always busy
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
9.5.5 Fine-tuning EIGRP
42
Refer to the exhibit. A network technician notes that there are missing EIGRP routes in the routing tables on each router in this network. Based on the exhibited output, what caused these missing routes?
The holdtime values are mismatched.
The autonomous system numbers are mismatched.
The interfaces on the link between RouterC and RouterD are shut down.
An EIGRP neighbor relationship has not been established between RouterA and RouterB.
Observable Description Max Value
1 correctness of response 2 points for Option 2
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
9.2.5 Verifying EIGRP
43
Refer to the exhibit. What will occur if the link to 192.168.2.0/24 through the FastEthernet0/0 interface fails?
The DUAL algorithm will place 192.168.2.0/24 in an active state.
The route to 192.168.2.0/24 will be dropped from the routing table.
The feasible successor through Serial0/0/0 will be installed in the routing table.
The 192.168.0.1 link through Serial0/0/0 will be recalculated to see if it is a feasible successor.
Packets that are destined for 192.168.2.0/24 will be broadcast through all interfaces until a successor route is determined.
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
9.4.5 Topology Table: No Feasible Successor
9.4.6 Finite State Machine
44
Refer to the exhibit. Host A is having problems accessing server A. All routers have the same EIGRP configuration as router RTR_A. What should be done so that host A can access server A?
Add the command no auto-summary on all routers.
Change the network statements to include a wildcard mask.
Adjust the EIGRP hello timers to account for the network delay.
Add the command eigrp log-neighbor-changes on all routers.
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
9.5.2 Disabling Automatic Summarization
45
Refer to the exhibit. R1 and R2 are unable to establish an adjacency. What two configuration changes will correct the problem? (Choose two.)
Set a lower priority on R2.
Configure the routers in the same area.
Set a lower cost on R2 compared to R1.
Add a backup designated router to the network.
Match the hello and dead timers on both routers.
Observable Description Max Value
1 correctness of response Option 2 and Option 5 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
11.2.5 Verifying OSPF
46
Refer to the exhibit. The IP addresses on all interfaces on router R1 were configured before the OSPF protocol had been enabled on the router. No OSPF router ID was manually configured. Which IP address will be selected by the router as an OSPF router ID?
10.10.10.1
172.16.1.1
172.16.2.1
192.168.1.1
192.168.100.1
Observable Description Max Value
1 correctness of response 2 points for Option 1
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
11.2.4 OSPF Router ID
47 What are two advantages of using a loopback interface on a router with OSPF enabled? (Choose two.)
A loopback interface has a much lower OSPF cost value by default.
A loopback interface provides a stable ID because the loopback interface cannot be shutdown.
A network administrator has more control over the DR/BDR election by using a loopback interface over a physical interface.
A loopback interface can be configured with a higher bandwidth value than can a physical interface.
The loopback interface address overrides any physical interface address or configured router-id value.
Observable Description Max Value
1 correctness of response Option 2 and Option 3 are correct.
1 point for each correct option.
0 points if more options are selected than required. 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
11.2.4 OSPF Router ID
48
Refer to the exhibit. A network administrator has configured OSPF using the following command:
network 192.168.1.32 0.0.0.31 area 0
Which router interface will participate in OSPF?
FastEthernet0/0
FastEthernet0/1
Serial0/0/0
Serial0/0/1
Observable Description Max Value
1 correctness of response 2 points for Option 3
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
11.2.3 The network Command
49
Refer to the exhibit. All interfaces are configured with the correct IP addresses and subnet masks. OSPF has been configured as the routing protocol. During troubleshooting, it is determined that hosts on network B can ping the Lo0 interface on R1 but are unable to reach hosts on network A. What is the cause of the problem?
Routers R1 and R2 have incorrect router IDs configured.
Router R1 is unable to form a neighbor relationship with router R2.
Routers R1 and R2 have been configured in different OSPF areas.
The configuration of router R1 fails to include network A in the OSPF routing process.
Observable Description Max Value
1 correctness of response 2 points for Option 4
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
11.2.5 Verifying OSPF
50
Refer to the exhibit. What does the state "FULL/ -" indicate?
The DR/BDR election is currently taking place.
The router with router ID 10.112.0.34 and RouterA are on a point-to-point network.
RouterA could not form a neighbor relationship with the router with router ID 10.112.0.34.
OSPF hello and dead timers between RouterA and the router with router ID 10.112.0.34 do not match.
Observable Description Max Value
1 correctness of response 2 points for Option 2
0 points for any other option 2
This item references content from the following areas:
CCNA Exploration: Routing Protocols and Concepts
11.4.1 Challenges in Multiaccess Networks
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