Section 1 – EIGRP

Section 1 – EIGRP

642-902 Q&A – Implement an EIGRP based solution (66-68)

Section1 – Implement an EIGRP based solution, given a network design and a set of requirements

QUESTION NO: 66
You have implemented mutual route redistribution between OSPF and EIGRP on a border router.
When checking the routing table on one of the OSPF routers within the OSPF routing domain, you are seeing some, but not all of the expected routes. Which two things should you verify to troubleshoot this problem? Select 2 response(s).

Continue reading

642-902 Q&A – Implement an EIGRP based solution (56-60)

Section1 – Implement an EIGRP based solution, given a network design and a set of requirements

QUESTION NO: 56
Which of the following settings do not prevent two potential OSPF neighbors from becoming neighbors?
A. The interface used to connect to that neighbor being passive in the OSPF process
B. Duplicate OSPF router IDs
C. Mismatched dead timers
D. IP addresses of 10.1.1.1/24 and 10.2.2.2/24
E. Mismatched OSPF process IDs

Continue reading

642-902 Q&A – Implement an EIGRP based solution (36-40)

Section1 – Implement an EIGRP based solution, given a network design and a set of requirements

QUESTION NO: 36
Refer to the exhibit. EIGRP is configured with the default configuration on all routers. Auto summarization is enabled on routers R2 and R3, but it is disabled on router R1. Which two EIGRP routes will be seen in the routing table of router R3? (Choose two.)

Continue reading

642-902 Q&A – Implement an EIGRP based solution (31-35)

Section1 – Implement an EIGRP based solution, given a network design and a set of requirements

QUESTION NO: 31
Which two statements about the EIGRP DUAL process are correct? (Choose two.) Select 2 response(s).
A. An EIGRP route will go active if there are no successors or feasible successors in the EIGRP topology table.
B. An EIGRP route will go passive if there are no successors in the EIGRP topology table.
C. DUAL will trigger an EIGRP query process while placing the flapping routes in the holddown state.
D. A feasible successor in the EIGRP topology table can become the successor only after all the query requests have been replied to.
E. The stuck in active state is caused when the wait for the query replies have timed out.
F. EIGRP queries are sent during the loading state in the EIGRP neighbor establishment process.
Answer: A,E

Continue reading

642-902 Q&A – Implement an EIGRP based solution (26-30)

Section1 – Implement an EIGRP based solution, given a network design and a set of requirements

QUESTION NO: 26
Refer to the exhibit. EIGRP has been configured on all routers in the network. The command metric weights 0 0 1 0 0 has been added to the EIGRP process so that only the delay metric is used in the path calculations. Which router will R1 select as the successor and feasible successor for Network A?

Continue reading

642-902 Q&A – Implement an EIGRP based solution (21-25)

Section1 – Implement an EIGRP based solution, given a network design and a set of requirements

QUESTION NO: 21
Which three statements about the EIGRP routing protocol are true? (Choose three.)
A. EIGRP supports five generic packet types, including hello, database description (DBD), linkstate request(LSR), link-state update (LSU), and LSAck.
B. EIGRP sends periodic hello packets to the multicast IP address 224.0.0.10.
C. EIGRP will not form a neighbor relationship with another peer when their K values are mismatched.
D. EIGRP sends periodic hello packets to the multicast IP address 224.0.0.9.
E. EIGRP will form a neighbor relationship with another peer even when their K values are mismatched.
F. EIGRP supports five generic packet types, including hello, update, query, reply, and ACK packets.
Answer: B,C,F

Continue reading

Pages: 1 2