1.
What actions will occur after RouterA loses connectivity to network 114.125.16.0? (Choose two.)
RouterB will include network 123.92.76.0 and 136.125.85.0 in its update to RouterA.
During the next update interval, RouterB will send a RIP update out both ports that includes the inaccessible network.
During the next update interval, RouterC will send an update to RouterB stating that network 114.125.16.0 is accessible in 2 hops.
Router C will learn of the loss of connectivity to network 114.125.16.0 from RouterB.
RouterB will include network 123.92.76.0 and 136.125.85.0 in its update to RouterC.
RouterB will include network 123.92.76.0 and 136.125.85.0 in its update to RouterA.
During the next update interval, RouterB will send a RIP update out both ports that includes the inaccessible network.
During the next update interval, RouterC will send an update to RouterB stating that network 114.125.16.0 is accessible in 2 hops.
Router C will learn of the loss of connectivity to network 114.125.16.0 from RouterB.
RouterB will include network 123.92.76.0 and 136.125.85.0 in its update to RouterC.
2. What does a router running RIP do first with a new route that is received from an advertisement?
places it immediately in the routing table
adjusts the metric for the new route to show the added distance for the route
advertises this route out all other interfaces except the one that it came in on
sends a ping packet to verify that the path is a feasible route
places it immediately in the routing table
adjusts the metric for the new route to show the added distance for the route
advertises this route out all other interfaces except the one that it came in on
sends a ping packet to verify that the path is a feasible route
Refer to the exhibit. If all routers are using RIP, how many rounds of updates will occur before all routers know all networks?
1
2
3
4
5
6
1
2
3
4
5
6
4. Which of the following methods does split horizon use to reduce incorrect routing information?
Routing updates are split in half to reduce the update time.
Information learned from one source is not distributed back to that source.
New route information must be learned from multiple sources to be accepted.
The time between updates is split in half to speed convergence.
New route information is suppressed until the system has converged.
Routing updates are split in half to reduce the update time.
Information learned from one source is not distributed back to that source.
New route information must be learned from multiple sources to be accepted.
The time between updates is split in half to speed convergence.
New route information is suppressed until the system has converged.
5.
Refer to the exhibit. The routers in this network are running RIP. Router A has not received an update from Router B in over three minutes. How will Router A respond?
The Holddown timer will wait to remove the route from the table for 60 seconds.
The Invalid timer will mark the route as unusable if an update has not been received in 180 seconds.
The Update timer will request an update for routes that were learned from Router B.
The Hello timer will expire after 10 seconds and the route will be flushed out of the routing table.
The Holddown timer will wait to remove the route from the table for 60 seconds.
The Invalid timer will mark the route as unusable if an update has not been received in 180 seconds.
The Update timer will request an update for routes that were learned from Router B.
The Hello timer will expire after 10 seconds and the route will be flushed out of the routing table.
6.
The graphic shows a network that is configured to use RIP routing protocol. Router2 detects that the link to Router1 has gone down. It then advertises the network for this link with a hop count metric of 16. Which routing loop prevention mechanism is in effect?
split horizon
error condition
hold-down timer
route poisoning
count to infinity
split horizon
error condition
hold-down timer
route poisoning
count to infinity
7. Which two statements describe EIGRP? (Choose two.)
EIGRP can be used with Cisco and non-Cisco routers.
EIGRP sends triggered updates whenever there is a change in topology that influences the routing information.
EIGRP has an infinite metric of 16.
EIGRP sends a partial routing table update, which includes just routes that have been changed.
EIGRP broadcasts its updates to all routers in the network.
EIGRP can be used with Cisco and non-Cisco routers.
EIGRP sends triggered updates whenever there is a change in topology that influences the routing information.
EIGRP has an infinite metric of 16.
EIGRP sends a partial routing table update, which includes just routes that have been changed.
EIGRP broadcasts its updates to all routers in the network.
8. Which event will cause a triggered update?
an update routing timer expires
a corrupt update message is received
a route is installed in the routing table
the network is converged
an update routing timer expires
a corrupt update message is received
a route is installed in the routing table
the network is converged
9. Which of the following statements are correct about RIP?
uses a broadcast to update all other routers in the network every 60 seconds
uses a multicast address to update other routers every 90 seconds
will send out an update if there is a failure of a link
updates only contain information about routes that have changed since last update
uses a broadcast to update all other routers in the network every 60 seconds
uses a multicast address to update other routers every 90 seconds
will send out an update if there is a failure of a link
updates only contain information about routes that have changed since last update
10. Which two statements are true regarding the function of the RIPv1 routing updates? (Choose two).
updates are broadcast only when there are changes to the topology
updates are broadcast at regular intervals
broadcast are sent to 0.0.0.0
broadcasts are sent to 255.255.255.255
updates contain the entire network topology
only changes are included in the updates
updates are broadcast only when there are changes to the topology
updates are broadcast at regular intervals
broadcast are sent to 0.0.0.0
broadcasts are sent to 255.255.255.255
updates contain the entire network topology
only changes are included in the updates