350-401 · topic practice

NetFlow and Telemetry practice questions

Practise ENCOR 350-401 NetFlow and Telemetry practice questions — original exam-style scenarios with answer choices, explanations, and analysis of common mistakes.

Courseiva uses original exam-style practice questions designed for learning and revision. The goal is to understand the concepts, recognise exam patterns, and improve through explanations — not memorise copied exam dumps.

Reviewed byJohnson Ajibi· MSc IT Security
20 questionsDomain: NetFlow and Telemetry

What the exam tests

What to know about NetFlow and Telemetry

NetFlow and Telemetry questions test whether you can apply the concept in context, not just recognise a definition.

How the topic appears in realistic exam-style scenarios.

Which detail in the question changes the correct answer.

How to eliminate plausible but wrong options.

How to connect the question back to the wider exam objective.

Watch out for

Common NetFlow and Telemetry exam traps

  • Answering from memory before reading the full scenario.
  • Missing a constraint such as cost, availability, security, scope or command context.
  • Choosing a broad answer when the question asks for the most specific fix.
  • Ignoring why the wrong options are tempting.

Practice set

NetFlow and Telemetry questions

20 questions · select your answer, then reveal the explanation

A network engineer is troubleshooting intermittent packet loss on a WAN link connecting two data centers. The engineer suspects that certain traffic types are being dropped but needs to confirm this without impacting production. The engineer has access to Cisco IOS-XE routers at both ends. Which approach should the engineer use to identify the specific flows being dropped?

Question 2mediummultiple choice
Open the full BGP breakdown →

A large enterprise is migrating from traditional SNMP-based monitoring to streaming telemetry for better scalability and real-time visibility. The network team has Cisco Nexus 9000 switches running NX-OS. They want to stream interface counters and BGP neighbor state changes to a collector. Which telemetry technology should they implement?

A network engineer is configuring NetFlow on a Cisco ISR 4451 router to analyze traffic patterns. The engineer wants to export flow data to a collector every 60 seconds. After applying the configuration, the engineer notices that the export packets are not reaching the collector. The collector is reachable via ICMP. What is the most likely cause?

A service provider is using Cisco ASR 9000 routers and needs to collect NetFlow data from multiple customers' traffic. The engineer wants to ensure that flow records from different customers are not mixed and can be identified separately. The router supports Flexible NetFlow. What is the best approach?

A network operations center (NOC) is deploying streaming telemetry from Cisco IOS-XE devices to a Kafka-based analytics platform. The engineer needs to ensure that the telemetry data is encoded in a compact, efficient format for high-volume streaming. Which encoding format should the engineer configure?

A network engineer is troubleshooting a performance issue on a Cisco Catalyst 9300 switch. The engineer suspects that a specific application is using excessive bandwidth. The switch supports Flexible NetFlow. The engineer wants to monitor only the traffic from that application without affecting the switch's CPU. What is the most efficient way to configure this?

A company is deploying Cisco DNA Center and wants to use streaming telemetry from its network devices to provide real-time visibility. The network consists of Cisco Catalyst 9000 switches running IOS-XE. The engineer needs to configure the devices to stream telemetry data to DNA Center. Which protocol should the engineer use for the telemetry transport?

A network engineer is configuring NetFlow on a Cisco Nexus 7000 switch to monitor traffic between two data centers. The engineer wants to ensure that flow records are exported even if the export destination is temporarily unreachable. Which feature should the engineer enable?

A network engineer is deploying streaming telemetry from a Cisco ASR 1000 router to a collector using gRPC. The engineer notices that the telemetry data is not being received by the collector. The router shows that the gRPC server is running and the collector is reachable. What is the most likely cause?

Question 10mediummultiple choice
Review the full OSPF breakdown →

A network engineer runs the following command on Router R1:

R1# show ip ospf neighbor

Neighbor ID     Pri   State           Dead Time   Address         Interface
10.0.0.2          1   FULL/DR         00:00:34    192.168.1.2     GigabitEthernet0/0
10.0.0.3          1   2WAY/DROTHER    00:00:38    192.168.1.3     GigabitEthernet0/0

Based on this output, what can be concluded?

Question 11mediummultiple choice
Open the full BGP breakdown →

A network engineer runs the following command on Router R1:

R1# show bgp summary

BGP router identifier 192.168.1.1, local AS number 65001 BGP table version is 10, main routing table version 10

Neighbor        V           AS MsgRcvd MsgSent   TblVer  InQ OutQ Up/Down  State/PfxRcd
192.168.1.2     4        65002    1024    1020       10    0    0 00:12:34       15
192.168.1.3     4        65003    2048    2040       10    0    0 00:24:56       20

Based on this output, what can be concluded?

Question 12easymultiple choice
Review the full OSPF breakdown →

A network engineer runs the following command on Router R1:

R1# show ip route 192.168.2.0

Routing entry for 192.168.2.0/24 Known via "ospf 1", distance 110, metric 20, type inter area Last update from 10.0.0.2 on GigabitEthernet0/0, 00:05:23 ago Routing Descriptor Blocks:

* 10.0.0.2, via GigabitEthernet0/0, 00:05:23 ago

Route metric is 20, traffic share count is 1

Based on this output, what can be concluded?

Question 13easymultiple choice
Open the full VLAN trunking answer →

A network engineer runs the following command on Switch SW1:

SW1# show vlan brief

VLAN Name                             Status    Ports

---- -------------------------------- --------- ------------------------------- 1 default active Gi0/1, Gi0/2, Gi0/3 10 Sales active Gi0/4, Gi0/5 20 Engineering active Gi0/6, Gi0/7 1002 fddi-default act/unsup 1003 token-ring-default act/unsup 1004 fddinet-default act/unsup 1005 trnet-default act/unsup

Based on this output, what can be concluded?

Question 14mediummultiple choice
Open the full VLAN trunking answer →

A network engineer runs the following command on Switch SW1:

SW1# show spanning-tree vlan 10

VLAN0010 Spanning tree enabled protocol ieee Root ID Priority 32778 Address 0011.2233.4455 Cost 19 Port 1 (GigabitEthernet0/1) Hello Time 2 sec Max Age 20 sec Forward Delay 15 sec

Bridge ID Priority 32778 (priority 32768 sys-id-ext 10) Address 0011.2233.4466 Hello Time 2 sec Max Age 20 sec Forward Delay 15 sec Aging Time 300 sec

Interface           Role Sts Cost      Prio.Nbr Type

------------------- ---- --- --------- -------- -------------------------------- Gi0/1 Root FWD 19 128.1 P2p Gi0/2 Altn BLK 19 128.2 P2p

Based on this output, what can be concluded?

Question 15mediummultiple choice
Read the full EtherChannel explanation →

A network engineer runs the following command on Switch SW1:

SW1# show etherchannel summary

Flags: D - down P - bundled in port-channel I - stand-alone s - suspended H - Hot-standby (LACP only) R - Layer3 S - Layer2 U - in use N - not in use, no aggregation f - failed to allocate aggregator

M - not in use, minimum links not met u - unsuitable for bundling w - waiting to be aggregated d - default port

Number of channel-groups in use: 1 Number of aggregators: 1

Group Port-channel Protocol Ports ------+-------------+-----------+-------------------------------------------- 1 Po1(SU) LACP Gi0/1(P) Gi0/2(P) Gi0/3(D)

Based on this output, what can be concluded?

Question 16mediummultiple choice
Read the full network assurance explanation →

A network engineer runs the following command on Router R1:

R1# show ip nat translations

Pro Inside global Inside local Outside local Outside global --- 192.168.1.10:1024 10.0.0.10:1024 203.0.113.5:80 203.0.113.5:80 tcp 192.168.1.10:1025 10.0.0.10:1025 203.0.113.5:80 203.0.113.5:80 --- 192.168.1.11:2048 10.0.0.11:2048 198.51.100.2:443 198.51.100.2:443

Based on this output, what can be concluded?

Question 17hardmultiple choice
Read the full MPLS explanation →

A network engineer runs the following command on Router R1:

R1# show mpls ldp neighbor

Peer LDP Ident: 10.0.0.2:0, Local LDP Ident: 10.0.0.1:0 TCP connection: 10.0.0.2.646 - 10.0.0.1.179 State: Oper; Msgs sent/rcvd: 100/95; Downstream Up time: 00:10:00 LDP discovery sources: GigabitEthernet0/0, Src IP: 10.0.0.2 Addresses bound to peer LDP Ident:

10.0.0.2        192.168.2.2

Peer LDP Ident: 10.0.0.3:0, Local LDP Ident: 10.0.0.1:0 TCP connection: 10.0.0.3.646 - 10.0.0.1.179 State: Oper; Msgs sent/rcvd: 200/190; Downstream Up time: 00:20:00 LDP discovery sources: GigabitEthernet0/1, Src IP: 10.0.0.3 Addresses bound to peer LDP Ident:

10.0.0.3        192.168.3.3

Based on this output, what can be concluded?

Question 18hardmultiple choice
Study the full multicast explanation →

A network engineer runs the following command on Router R1:

R1# show ip pim neighbor

PIM Neighbor Table

Neighbor Address  Interface          Uptime    Expires    Mode
10.0.0.2          GigabitEthernet0/0 00:10:00  00:01:30   Dense
10.0.0.3          GigabitEthernet0/1 00:20:00  00:01:20   Sparse

Based on this output, what can be concluded?

Question 19mediummultiple choice
Read the full network assurance explanation →

Examine the following configuration snippet:

interface GigabitEthernet0/1
 ip flow monitor FLOW-MONITOR input
 ip flow monitor FLOW-MONITOR output

! flow monitor FLOW-MONITOR exporter EXPORTER-1 record netflow ipv4 original-input ! flow exporter EXPORTER-1 destination 192.168.1.100 transport udp 2055 !

What is the effect of this configuration?

Question 20mediummultiple choice
Read the full network assurance explanation →

Consider the following configuration:

flow exporter EXPORTER-1 destination 10.0.0.1 source Loopback0 transport udp 9996 template data timeout 60 !

Which statement about this configuration is true?

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Frequently asked questions

What does the 350-401 exam test about NetFlow and Telemetry?
NetFlow and Telemetry questions test whether you can apply the concept in context, not just recognise a definition.
How should I use these practice questions?
Select your answer before revealing the explanation. Then read why each option is right or wrong — this active recall approach builds retention far faster than re-reading notes.
Can I practise just NetFlow and Telemetry questions in a focused session?
Yes — the session launcher on this page draws every question from the NetFlow and Telemetry domain. Use a 10-question session first to gauge your baseline, then move to 20 or 30 once the weak spots are clear.
Where can I practise other 350-401 topics?
Use the topic links above to move to related areas, or go back to the 350-401 question bank to see all topics.
Are these real exam questions or dumps?
These are original practice questions written to test the same concepts the 350-401 exam covers. They are not copied from any real exam or dump site.