- How to configure RIPv2? (Choose two)
Show (Hide) Explanation/Reference“Enable RIP” is surely correct to configure RIPv2 but “enable auto-summary” is not recommended. Maybe there is another suitable option for this question (like “use ‘version 2’ command” or “Allowing Unicast Updates for RIP”).
- A. Enable RIP*
- B. Connect RIP to WAN interface
- C. Enable auto-summary*
- D. Enable authentication
- Which two options are requirements for configuring RIPv2 for IPv4 (Choose two)?
Show (Hide) Explanation/ReferenceTo enable RIP surely we have to enable it first (with the “router rip” command in global configuration mode) -> E is correct.
- A. enabling RIP authentication
- B. connecting RIP to a WAN Interface
- C. enabling auto route summarization
- D. allowing unicast updates for RIP*
- E. enabling RIP on the router*
RIPv2 sends its updates via multicast but in Nonbroadcast Multiple Access (NBMA) environment, multicast is not allowed so we have to use unicast to send RIPv2 updates -> D is correct.
- What does split-horizon do?
Show (Hide) Explanation/ReferenceThe split-horizon rule states that “a router never sends information about a route back in same direction which is original information came”. This rule is used in distance vector protocol (like RIP or EIGRP) to prevent Layer 3 routing loop.
- A. Prevent routing loop in distance vector protocol*
- B. Prevent switching loop in distance vector protocol
- C. Prevent switching loop in link-state protocol
- D. Prevent routing loop in link-state protocol
- Which effect of the passive-interface command on R1 is true?
R1 interface FastEthernet0/0 description site id:14254489 ip address 172.16.0.1 255.255.0.0 interface FastEthernet0/1 description site id:14254489 ip address 172.17.0.1 255.255.0.0 router rip passive-interface FastEthernet0/0 network 172.16.0.0 network 172.17.0.0 version 2
Show (Hide) Explanation/ReferenceA passive-interface with RIP prevents that interface from sending RIP advertisements but it is still receiving RIP updates from other RIP neighbors. This behavior is different from EIGRP and OSPF where the passive-interface statement stops forming neighbor adjacencies over that link.
- A. It prevents interface Fa0/0 from sending updates.*
- B. Interface Fa0/0 operates in RIPv1 mode.
- C. It removes the 172.16.0.0 network from all updates on all interfaces on R1.
- D. It removes the 172.17.0.0 network from all updates on all interfaces on R1.
- Which type of routing protocol operates by exchanging the entire routing information?
Show (Hide) Explanation/ReferenceDistance vector protocols (like RIP) exchanges the entire routing information each time the routers send the updates.
- A. distance vector protocols*
- B. link state protocols
- C. path vector protocols
- D. exterior gateway protocols
Note: EIGRP is considered an advanced distance vector protocol so it does not send the whole routing table for each update.
- Refer to the exhibit. After you apply the given configuration to R1, you determine that it is failing to advertise the 172.16.10.32/28 network .Which action most likely to correct the problem?
R1 interface FastEthernet0/0 ip address 172.16.10.1 255.255.255.224 interface FastEthernet0/1 ip address 172.16.10.33 255.255.255.240 router rip network 172.16.0.0 no auto-summary
Show (Hide) Explanation/ReferenceThe difference between RIPv1 and RIPv2 is RIPv1 is a classful protocol (no support for VLSM or CIDR) while RIPv2 is a classless protocol (which supports VLSM and CIDR). Therefore in this question if we forget to enable RIPv2 then the router will use RIPv1 and it only advertise major network 172.16.0.0/16 to other routers. By enabling RIPv2 (via the “version 2” command) the router will advertise two subnets 172.16.10.0/27 & 172.16.10.32/28.
- A. Enable passive interface
- B. Enable RIPv2*
- C. Enable manual summarization
- D. Enable autosummarization
- Which two statements about RIPv2 are true? (Choose two)
- A. It must be manually enabled after RIP is configured as the routing protocol*
- B. It uses multicast address 22.214.171.124 to share routing information between peers
- C. Its default administrative distances 120*
- D. It is a link-state routing protocol
- E. It is an EGP routing protocol
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