Posted on CCNA 200-301 Practice Test 2 CCNA 200-301 Practice Test 2 This practice test is comprised of 50 matching type questions designed to prepare you for CCNA 200-301 exam. (pass score is 80%) 1 / 50 Match the IPv6 address type on the left with the description. link local Select an answerauto-configured, routing adjacency, prefix FE80::/10prefix FF00::/8IPv6 host identifier derived from MAC address, FFFE addedprivate global, starts with prefix FD00::/8 unique local Select an answerauto-configured, routing adjacency, prefix FE80::/10prefix FF00::/8IPv6 host identifier derived from MAC address, FFFE addedprivate global, starts with prefix FD00::/8 multicast Select an answerauto-configured, routing adjacency, prefix FE80::/10prefix FF00::/8IPv6 host identifier derived from MAC address, FFFE addedprivate global, starts with prefix FD00::/8 EUI-64 Select an answerauto-configured, routing adjacency, prefix FE80::/10prefix FF00::/8IPv6 host identifier derived from MAC address, FFFE addedprivate global, starts with prefix FD00::/8 2 / 50 Match the subnet mask on the left with the maximum number of assignable host addresses. 255.255.255.248 Select an answer626141262 255.255.255.192 Select an answer626141262 255.255.255.128 Select an answer626141262 255.255.255.240 Select an answer626141262 255.255.255.252 Select an answer626141262 3 / 50 Match the route source on the left with the administrative distance value. IS-IS Select an answer115255200120 RIP Select an answer115255200120 iBGP Select an answer115255200120 unreachable Select an answer115255200120 4 / 50 Match the network message type on the left with the network event. unicast Select an answerOSPFMAC address learningload balancingARP broadcast Select an answerOSPFMAC address learningload balancingARP multicast Select an answerOSPFMAC address learningload balancingARP anycast Select an answerOSPFMAC address learningload balancingARP 5 / 50 Match the protocol on the left with the multicast address. HSRP Select an answer224.0.0.102224.0.0.6224.0.0.10224.0.0.5 OSPF Select an answer224.0.0.102224.0.0.6224.0.0.10224.0.0.5 EIGRP Select an answer224.0.0.102224.0.0.6224.0.0.10224.0.0.5 OSPF DR Select an answer224.0.0.102224.0.0.6224.0.0.10224.0.0.5 6 / 50 Match the protocol feature on the left with the protocol or description. duplex autonegotiation Select an answer802.11ac1000BASE-Tcollision detection802.11ax 5 GHz band only Select an answer802.11ac1000BASE-Tcollision detection802.11ax CSMA/CD Select an answer802.11ac1000BASE-Tcollision detection802.11ax dual band wireless Select an answer802.11ac1000BASE-Tcollision detection802.11ax 7 / 50 Match the protocol or command on the left with the description. TFTP Select an answerdata and control channelHTTPS connection to router download IP phone configurationencapsulation protocol ip http secure-server Select an answerdata and control channelHTTPS connection to router download IP phone configurationencapsulation protocol FTP Select an answerdata and control channelHTTPS connection to router download IP phone configurationencapsulation protocol IPsec Select an answerdata and control channelHTTPS connection to router download IP phone configurationencapsulation protocol 8 / 50 Match the wireless controller interface type on the left with the description. virtual interface Select an answerDHCP relay placeholderout-of-band managementmapping WLANs to wired VLANs CAPWAP tunnel addressingLACP etherchannel distribution system Select an answerDHCP relay placeholderout-of-band managementmapping WLANs to wired VLANs CAPWAP tunnel addressingLACP etherchannel service port Select an answerDHCP relay placeholderout-of-band managementmapping WLANs to wired VLANs CAPWAP tunnel addressingLACP etherchannel dynamic interface Select an answerDHCP relay placeholderout-of-band managementmapping WLANs to wired VLANs CAPWAP tunnel addressingLACP etherchannel ap-manager interface Select an answerDHCP relay placeholderout-of-band managementmapping WLANs to wired VLANs CAPWAP tunnel addressingLACP etherchannel 9 / 50 Match the wireless noise source on the left with the description. co-channel interference Select an answerbluetooth interferencesignal strength that wireless client detects from APfrequency overlap between access point neighborsAP neighbors assigned to same channel adjacent interference Select an answerbluetooth interferencesignal strength that wireless client detects from APfrequency overlap between access point neighborsAP neighbors assigned to same channel non-802.11 noise Select an answerbluetooth interferencesignal strength that wireless client detects from APfrequency overlap between access point neighborsAP neighbors assigned to same channel RSSI Select an answerbluetooth interferencesignal strength that wireless client detects from APfrequency overlap between access point neighborsAP neighbors assigned to same channel 10 / 50 Match the wireless standard on the left with the description. 802.11k Select an answerwireless client requests neighbor report from AP (ESS)prevents radar interference (DFS)move 2.4 GHz clients to less congested 5 GHz bandfast transition eliminates reauthentication to new APAP sends neighbor report to wireless client (ESS) 802.11r Select an answerwireless client requests neighbor report from AP (ESS)prevents radar interference (DFS)move 2.4 GHz clients to less congested 5 GHz bandfast transition eliminates reauthentication to new APAP sends neighbor report to wireless client (ESS) 802.11v Select an answerwireless client requests neighbor report from AP (ESS)prevents radar interference (DFS)move 2.4 GHz clients to less congested 5 GHz bandfast transition eliminates reauthentication to new APAP sends neighbor report to wireless client (ESS) 802.11h Select an answerwireless client requests neighbor report from AP (ESS)prevents radar interference (DFS)move 2.4 GHz clients to less congested 5 GHz bandfast transition eliminates reauthentication to new APAP sends neighbor report to wireless client (ESS) client band select Select an answerwireless client requests neighbor report from AP (ESS)prevents radar interference (DFS)move 2.4 GHz clients to less congested 5 GHz bandfast transition eliminates reauthentication to new APAP sends neighbor report to wireless client (ESS) 11 / 50 Match the wireless security method on the left with the description. 802.1X Select an answerstatic key authenticationSSIDencryption of AP association packetsRADIUS server WPA2-PSK Select an answerstatic key authenticationSSIDencryption of AP association packetsRADIUS server association Select an answerstatic key authenticationSSIDencryption of AP association packetsRADIUS server PMF Select an answerstatic key authenticationSSIDencryption of AP association packetsRADIUS server 12 / 50 Match the application on the left with the application port. RADIUS Select an answerUDP 1812UDP 1985TCP 22TCP 49TCP 8080 Ansible Select an answerUDP 1812UDP 1985TCP 22TCP 49TCP 8080 TACACS+ Select an answerUDP 1812UDP 1985TCP 22TCP 49TCP 8080 HTTP Select an answerUDP 1812UDP 1985TCP 22TCP 49TCP 8080 HSRP Select an answerUDP 1812UDP 1985TCP 22TCP 49TCP 8080 13 / 50 Match the wireless concept on the left with the description. predictive AI Select an answerlocal switching failovercontroller authentication and authorizationdetect and minimize cell coverage gapsfast roaming to reduce network latency split-mac architecture Select an answerlocal switching failovercontroller authentication and authorizationdetect and minimize cell coverage gapsfast roaming to reduce network latency 802.11r Select an answerlocal switching failovercontroller authentication and authorizationdetect and minimize cell coverage gapsfast roaming to reduce network latency Flexconnect Select an answerlocal switching failovercontroller authentication and authorizationdetect and minimize cell coverage gapsfast roaming to reduce network latency 14 / 50 Match the protocol on the left with the TCP/IP networking model layer. 1000BASE-T Select an answerLayer 2Layer 3Layer 1Application Layer CDP Select an answerLayer 2Layer 3Layer 1Application Layer DHCP Select an answerLayer 2Layer 3Layer 1Application Layer IPsec Select an answerLayer 2Layer 3Layer 1Application Layer 15 / 50 Match the data center architecture on the left with the description. 2-Tier Select an answerselected when there is mostly north-south trafficlowest latency and eliminates spanning tree issuesdesigned for external cloud connectivitycollapsed core design 3-Tier Select an answerselected when there is mostly north-south trafficlowest latency and eliminates spanning tree issuesdesigned for external cloud connectivitycollapsed core design Spine/Leaf Select an answerselected when there is mostly north-south trafficlowest latency and eliminates spanning tree issuesdesigned for external cloud connectivitycollapsed core design hybrid Select an answerselected when there is mostly north-south trafficlowest latency and eliminates spanning tree issuesdesigned for external cloud connectivitycollapsed core design 16 / 50 Match the cabling type on the left with the description. crossover cable Select an answerswitch to switch connectionhost connection to switchconsole portWAN straight-through Select an answerswitch to switch connectionhost connection to switchconsole portWAN serial Select an answerswitch to switch connectionhost connection to switchconsole portWAN rollover Select an answerswitch to switch connectionhost connection to switchconsole portWAN 17 / 50 Match the protocol on the left with the description. CDP Select an answerimplements slow start for congestion controldetects duplex and native VLAN mismatchresolves hostnames for routing purposeslearns MAC address of a destination hostprovides best effort packet delivery DNS Select an answerimplements slow start for congestion controldetects duplex and native VLAN mismatchresolves hostnames for routing purposeslearns MAC address of a destination hostprovides best effort packet delivery TCP Select an answerimplements slow start for congestion controldetects duplex and native VLAN mismatchresolves hostnames for routing purposeslearns MAC address of a destination hostprovides best effort packet delivery UDP Select an answerimplements slow start for congestion controldetects duplex and native VLAN mismatchresolves hostnames for routing purposeslearns MAC address of a destination hostprovides best effort packet delivery ARP Select an answerimplements slow start for congestion controldetects duplex and native VLAN mismatchresolves hostnames for routing purposeslearns MAC address of a destination hostprovides best effort packet delivery 18 / 50 Match the protocol feature on the left with the description. congestion control Select an answerUDPDHCPTCPTCP and UDPICMP unordered packets Select an answerUDPDHCPTCPTCP and UDPICMP tracert Select an answerUDPDHCPTCPTCP and UDPICMP source IP 0.0.0.0 Select an answerUDPDHCPTCPTCP and UDPICMP DNS Select an answerUDPDHCPTCPTCP and UDPICMP 19 / 50 Match the spanning tree enhancement on the left with the description. Root Guard Select an answermitigates effect of unidirectional link failure on fiber mediaenabled on designated ports to detect superior BPDUsdisables spanning tree protocolswitch port only transmits BPDUs Loop Guard Select an answermitigates effect of unidirectional link failure on fiber mediaenabled on designated ports to detect superior BPDUsdisables spanning tree protocolswitch port only transmits BPDUs BPDU Filter Select an answermitigates effect of unidirectional link failure on fiber mediaenabled on designated ports to detect superior BPDUsdisables spanning tree protocolswitch port only transmits BPDUs BDPU Guard Select an answermitigates effect of unidirectional link failure on fiber mediaenabled on designated ports to detect superior BPDUsdisables spanning tree protocolswitch port only transmits BPDUs 20 / 50 Match the IOS command on the left with the protocol or interface. channel-group 1 mode active Select an answerLACPsubinterfaceLAGPAgP channel-group 1 mode desirable Select an answerLACPsubinterfaceLAGPAgP channel-group 1 mode on Select an answerLACPsubinterfaceLAGPAgP encapsulation dot1q 10 Select an answerLACPsubinterfaceLAGPAgP 21 / 50 Match the 802.1w spanning tree setting on the left with the description. Loop Guard Select an answerviolation causes port inconsistent-statealternate non-designatedblockingdiscarding RSTP port state Select an answerviolation causes port inconsistent-statealternate non-designatedblockingdiscarding 802.1d port state Select an answerviolation causes port inconsistent-statealternate non-designatedblockingdiscarding RSTP port role Select an answerviolation causes port inconsistent-statealternate non-designatedblockingdiscarding 802.1d port role Select an answerviolation causes port inconsistent-statealternate non-designatedblockingdiscarding 22 / 50 Match the protocol on the left with the Cisco default setting. DTP Select an answerdefault is auto modedefault is passive modedefault is disableddefault is desirable mode VTY Select an answerdefault is auto modedefault is passive modedefault is disableddefault is desirable mode LACP Select an answerdefault is auto modedefault is passive modedefault is disableddefault is desirable mode PAgP Select an answerdefault is auto modedefault is passive modedefault is disableddefault is desirable mode 23 / 50 Match the route selection attribute on the left with the description. administrative distance Select an answerdetermines what routes are installed in routing tabledetermines what routes are installed when multiple routes exist to same destinationtriggered when next hop is not directly connecteddetermines what route is used for packet forwarding longest prefix match Select an answerdetermines what routes are installed in routing tabledetermines what routes are installed when multiple routes exist to same destinationtriggered when next hop is not directly connecteddetermines what route is used for packet forwarding metric Select an answerdetermines what routes are installed in routing tabledetermines what routes are installed when multiple routes exist to same destinationtriggered when next hop is not directly connecteddetermines what route is used for packet forwarding recursive Select an answerdetermines what routes are installed in routing tabledetermines what routes are installed when multiple routes exist to same destinationtriggered when next hop is not directly connecteddetermines what route is used for packet forwarding 24 / 50 Match the routing protocol on the left with the protocol metric. OSPF Select an answercostweighthop countdelay0 EIGRP Select an answercostweighthop countdelay0 RIP Select an answercostweighthop countdelay0 static Select an answercostweighthop countdelay0 BGP Select an answercostweighthop countdelay0 25 / 50 Match the OSPF feature on the left with the description. process identifier Select an answercalculates path costrepresents a VLAN or subnetsecurity featureuniquely assigned to each link state database DR/BDR Select an answercalculates path costrepresents a VLAN or subnetsecurity featureuniquely assigned to each link state database reference bandwidth Select an answercalculates path costrepresents a VLAN or subnetsecurity featureuniquely assigned to each link state database passive interface Select an answercalculates path costrepresents a VLAN or subnetsecurity featureuniquely assigned to each link state database 26 / 50 Match the wildcard mask on the left with the description. How to calculate a wildcard mask in seconds 0.0.0.31 Select an answer255.255.255.240255.255.255.224255.255.255.252255.255.255.248 0.0.0.7 Select an answer255.255.255.240255.255.255.224255.255.255.252255.255.255.248 0.0.0.3 Select an answer255.255.255.240255.255.255.224255.255.255.252255.255.255.248 0.0.0.15 Select an answer255.255.255.240255.255.255.224255.255.255.252255.255.255.248 27 / 50 Match the show command on the left with the operational output provided. show ip interface Select an answerACL filterbandwidthhello timerlink state informationarea type show ip ospf interface Select an answerACL filterbandwidthhello timerlink state informationarea type show ip ospf Select an answerACL filterbandwidthhello timerlink state informationarea type show ip ospf database Select an answerACL filterbandwidthhello timerlink state informationarea type show interface Select an answerACL filterbandwidthhello timerlink state informationarea type 28 / 50 Match the protocol on the left with the configuration setting. HSRP Select an answerhello timer 5 seconds (ethernet)active/standby rolesautomatic route summarization not supportedmaster/backup roles VRRP Select an answerhello timer 5 seconds (ethernet)active/standby rolesautomatic route summarization not supportedmaster/backup roles OSPF Select an answerhello timer 5 seconds (ethernet)active/standby rolesautomatic route summarization not supportedmaster/backup roles EIGRP Select an answerhello timer 5 seconds (ethernet)active/standby rolesautomatic route summarization not supportedmaster/backup roles 29 / 50 Match the HTTP header on the left with the description. content-type Select an answerkeepalivegziptokenpublicjson connection Select an answerkeepalivegziptokenpublicjson authorization Select an answerkeepalivegziptokenpublicjson content-encoding Select an answerkeepalivegziptokenpublicjson cache-control Select an answerkeepalivegziptokenpublicjson 30 / 50 Match the IaC application on the left with the feature. Ansible Select an answernorthbound interfacecontrollerHCL orchestration toolconfiguration management Terraform Select an answernorthbound interfacecontrollerHCL orchestration toolconfiguration management Catalyst Center Select an answernorthbound interfacecontrollerHCL orchestration toolconfiguration management REST API Select an answernorthbound interfacecontrollerHCL orchestration toolconfiguration management 31 / 50 Match the traditional network and fabric concepts on the left with the description. RSTP Select an answertraditional networkcontrolleroverlayunderlay VXLAN Select an answertraditional networkcontrolleroverlayunderlay OSPF Select an answertraditional networkcontrolleroverlayunderlay Catalyst Center Select an answertraditional networkcontrolleroverlayunderlay 32 / 50 Match the protocol on the left with the automation concept. data modeling Select an answerSSHNETCONFJSONYANG data serialization Select an answerSSHNETCONFJSONYANG management protocol Select an answerSSHNETCONFJSONYANG communication protocol Select an answerSSHNETCONFJSONYANG 33 / 50 Match the HTTP verb on the left with the CRUD operation. POST Select an answerDELETEREADUPDATECREATE GET Select an answerDELETEREADUPDATECREATE PUT Select an answerDELETEREADUPDATECREATE DELETE Select an answerDELETEREADUPDATECREATE 34 / 50 Match the AI concept on the left with the description. Generative AI Select an answercreate ansible script, support chatbotssubnet of AI that uses algorithms to analyze data and make predictionsChatGPTcyber security threat analysis, performance optimization, troubleshooting Predictive AI Select an answercreate ansible script, support chatbotssubnet of AI that uses algorithms to analyze data and make predictionsChatGPTcyber security threat analysis, performance optimization, troubleshooting LLM Select an answercreate ansible script, support chatbotssubnet of AI that uses algorithms to analyze data and make predictionsChatGPTcyber security threat analysis, performance optimization, troubleshooting machine learning Select an answercreate ansible script, support chatbotssubnet of AI that uses algorithms to analyze data and make predictionsChatGPTcyber security threat analysis, performance optimization, troubleshooting 35 / 50 Match the DHCP message on the left with the description. DISCOVER Select an answerDHCP message with IP address sent to clientDHCP message with lease time sent to clientDHCP message sent from client to extend leaseDHCP message sent from client with source IP 0.0.0.0 OFFER Select an answerDHCP message with IP address sent to clientDHCP message with lease time sent to clientDHCP message sent from client to extend leaseDHCP message sent from client with source IP 0.0.0.0 REQUEST Select an answerDHCP message with IP address sent to clientDHCP message with lease time sent to clientDHCP message sent from client to extend leaseDHCP message sent from client with source IP 0.0.0.0 ACKNOWLEDGE Select an answerDHCP message with IP address sent to clientDHCP message with lease time sent to clientDHCP message sent from client to extend leaseDHCP message sent from client with source IP 0.0.0.0 36 / 50 Match the IOS command on the left with the description. ip name-server Select an answerDNS resolverenables FQDN and RSA key nameenable DNS service on routerstatic DNS record on router ip domain-lookup Select an answerDNS resolverenables FQDN and RSA key nameenable DNS service on routerstatic DNS record on router ip host Select an answerDNS resolverenables FQDN and RSA key nameenable DNS service on routerstatic DNS record on router ip domain-name Select an answerDNS resolverenables FQDN and RSA key nameenable DNS service on routerstatic DNS record on router 37 / 50 Match the NTP feature on the left with the description. ntp master Select an answerbidirectional communication for selecting clock sourcedesignate a router as failover authoritative clock sourceconfigures local router as an NTP clientmanagement interface for NTP packets ntp server Select an answerbidirectional communication for selecting clock sourcedesignate a router as failover authoritative clock sourceconfigures local router as an NTP clientmanagement interface for NTP packets ntp peer Select an answerbidirectional communication for selecting clock sourcedesignate a router as failover authoritative clock sourceconfigures local router as an NTP clientmanagement interface for NTP packets ntp source Select an answerbidirectional communication for selecting clock sourcedesignate a router as failover authoritative clock sourceconfigures local router as an NTP clientmanagement interface for NTP packets 38 / 50 Match the Layer 2 security technique on the left with the attack type prevented. port security and VLAN segmentation Select an answerARP spoofingVLAN hoppingMAC floodingDHCP spoofing dynamic ARP inspection Select an answerARP spoofingVLAN hoppingMAC floodingDHCP spoofing DHCP snooping Select an answerARP spoofingVLAN hoppingMAC floodingDHCP spoofing disable DTP and non-default native VLAN Select an answerARP spoofingVLAN hoppingMAC floodingDHCP spoofing 39 / 50 Match the protocol on the left with the description. DHCP option 82 Select an answerVLAN taggingchannel-group 1 mode passive commandswitchport mode dynamic desirable commanddefault port state is untrustedchannel-group 1 mode desirable commandidentify source information DHCP snooping Select an answerVLAN taggingchannel-group 1 mode passive commandswitchport mode dynamic desirable commanddefault port state is untrustedchannel-group 1 mode desirable commandidentify source information DTP Select an answerVLAN taggingchannel-group 1 mode passive commandswitchport mode dynamic desirable commanddefault port state is untrustedchannel-group 1 mode desirable commandidentify source information LACP Select an answerVLAN taggingchannel-group 1 mode passive commandswitchport mode dynamic desirable commanddefault port state is untrustedchannel-group 1 mode desirable commandidentify source information PAgP Select an answerVLAN taggingchannel-group 1 mode passive commandswitchport mode dynamic desirable commanddefault port state is untrustedchannel-group 1 mode desirable commandidentify source information 802.1q Select an answerVLAN taggingchannel-group 1 mode passive commandswitchport mode dynamic desirable commanddefault port state is untrustedchannel-group 1 mode desirable commandidentify source information 40 / 50 Match the transport protocol on the left with the application traffic. TFTP Select an answerTCP 443TCP 22UDP 123UDP 161UDP 69 Ansible Select an answerTCP 443TCP 22UDP 123UDP 161UDP 69 NTP Select an answerTCP 443TCP 22UDP 123UDP 161UDP 69 HTTPS Select an answerTCP 443TCP 22UDP 123UDP 161UDP 69 SNMP Select an answerTCP 443TCP 22UDP 123UDP 161UDP 69 41 / 50 Match the ACL type or interface on the left with the description. standard numbered ACL Select an answerip access-list extended commandip access-class command2000-2699 number rangeip access-group commandapply near destination extended numbered ACL Select an answerip access-list extended commandip access-class command2000-2699 number rangeip access-group commandapply near destination named ACL Select an answerip access-list extended commandip access-class command2000-2699 number rangeip access-group commandapply near destination VTY lines Select an answerip access-list extended commandip access-class command2000-2699 number rangeip access-group commandapply near destination interface command Select an answerip access-list extended commandip access-class command2000-2699 number rangeip access-group commandapply near destination 42 / 50 Match the Ethernet standard on the left with the network media description. 1000BASE-T Select an answermulti-mode fibersingle-mode fibercopper media maximum distance 100mcopper media maximum distance of 10m 1000BASE-SX Select an answermulti-mode fibersingle-mode fibercopper media maximum distance 100mcopper media maximum distance of 10m 1000BASE-LX Select an answermulti-mode fibersingle-mode fibercopper media maximum distance 100mcopper media maximum distance of 10m Twinax Select an answermulti-mode fibersingle-mode fibercopper media maximum distance 100mcopper media maximum distance of 10m 43 / 50 Match the password security on the left with the algorithm. type 9 password Select an answeralgorithm-type scryptalgorithm-type sha-256MD5vigenere algorithm type 5 password Select an answeralgorithm-type scryptalgorithm-type sha-256MD5vigenere algorithm type 7 password Select an answeralgorithm-type scryptalgorithm-type sha-256MD5vigenere algorithm type 8 password Select an answeralgorithm-type scryptalgorithm-type sha-256MD5vigenere algorithm 44 / 50 Match the IOS command on the left with the description. show protocols Select an answershow OSPF reference bandwidthshow operational status of an interfaceshow cabling typeshow operational status of interface and subnet maskshow administrative status of an interface show ip protocols Select an answershow OSPF reference bandwidthshow operational status of an interfaceshow cabling typeshow operational status of interface and subnet maskshow administrative status of an interface show interface switchport Select an answershow OSPF reference bandwidthshow operational status of an interfaceshow cabling typeshow operational status of interface and subnet maskshow administrative status of an interface show interface status Select an answershow OSPF reference bandwidthshow operational status of an interfaceshow cabling typeshow operational status of interface and subnet maskshow administrative status of an interface show ip interface brief Select an answershow OSPF reference bandwidthshow operational status of an interfaceshow cabling typeshow operational status of interface and subnet maskshow administrative status of an interface 45 / 50 Match the QoS technique on the left with the description. traffic shaping Select an answerassigned to voice and video trafficcongestion avoidancepacket markingqueuing of excess packets when congestion occursdrop or remark packets when congestion occurs traffic policing Select an answerassigned to voice and video trafficcongestion avoidancepacket markingqueuing of excess packets when congestion occursdrop or remark packets when congestion occurs WRED Select an answerassigned to voice and video trafficcongestion avoidancepacket markingqueuing of excess packets when congestion occursdrop or remark packets when congestion occurs PQ Select an answerassigned to voice and video trafficcongestion avoidancepacket markingqueuing of excess packets when congestion occursdrop or remark packets when congestion occurs DSCP Select an answerassigned to voice and video trafficcongestion avoidancepacket markingqueuing of excess packets when congestion occursdrop or remark packets when congestion occurs 46 / 50 Match the OSPF configuration feature on the left with the description. router ID Select an answermanually configured 32-bit dotted decimal address preferredOSPF default priority on a Layer 3 switchswitch default spanning tree priorityexcluded from OSPF DR/BDR electionrouter with highest priority preferred DR Select an answermanually configured 32-bit dotted decimal address preferredOSPF default priority on a Layer 3 switchswitch default spanning tree priorityexcluded from OSPF DR/BDR electionrouter with highest priority preferred priority 0 Select an answermanually configured 32-bit dotted decimal address preferredOSPF default priority on a Layer 3 switchswitch default spanning tree priorityexcluded from OSPF DR/BDR electionrouter with highest priority preferred 1 Select an answermanually configured 32-bit dotted decimal address preferredOSPF default priority on a Layer 3 switchswitch default spanning tree priorityexcluded from OSPF DR/BDR electionrouter with highest priority preferred 32768 Select an answermanually configured 32-bit dotted decimal address preferredOSPF default priority on a Layer 3 switchswitch default spanning tree priorityexcluded from OSPF DR/BDR electionrouter with highest priority preferred 47 / 50 Match the interface type on the left with the matching IOS command. router subinterface Select an answer::/128system-priorityswitchport mode dynamic autoencapsulation dot1q 10interface vlan 10no switchport switched virtual interface Select an answer::/128system-priorityswitchport mode dynamic autoencapsulation dot1q 10interface vlan 10no switchport Layer 3 port channel Select an answer::/128system-priorityswitchport mode dynamic autoencapsulation dot1q 10interface vlan 10no switchport LACP select active ports Select an answer::/128system-priorityswitchport mode dynamic autoencapsulation dot1q 10interface vlan 10no switchport Cisco default interface setting Select an answer::/128system-priorityswitchport mode dynamic autoencapsulation dot1q 10interface vlan 10no switchport temporary interface address Select an answer::/128system-priorityswitchport mode dynamic autoencapsulation dot1q 10interface vlan 10no switchport 48 / 50 Match the IOS command on the left with the description for LACP Etherchannel. show etherchannel summary Select an answeroperational flagsinterface errorssystem priorityprotocol mode show etherchannel detail Select an answeroperational flagsinterface errorssystem priorityprotocol mode show etherchannel port-channel Select an answeroperational flagsinterface errorssystem priorityprotocol mode show interface po1 Select an answeroperational flagsinterface errorssystem priorityprotocol mode 49 / 50 Match the destination IP address on the left with the prefix that is within range. 172.16.1.40 Select an answer172.16.1.0/27172.16.1.32/27172.16.1.0/29172.16.1.0/26 172.16.1.6 Select an answer172.16.1.0/27172.16.1.32/27172.16.1.0/29172.16.1.0/26 172.16.1.29 Select an answer172.16.1.0/27172.16.1.32/27172.16.1.0/29172.16.1.0/26 172.16.1.60 Select an answer172.16.1.0/27172.16.1.32/27172.16.1.0/29172.16.1.0/26 50 / 50 Match the wireless feature on the left with the wireless controller GUI configuration tab. WebAuth Select an answerSecurity / AAA Server TabSecurity / Layer 3 TabSecurity / Layer 2 TabAdvanced Tab authentication key management Select an answerSecurity / AAA Server TabSecurity / Layer 3 TabSecurity / Layer 2 TabAdvanced Tab RADIUS Select an answerSecurity / AAA Server TabSecurity / Layer 3 TabSecurity / Layer 2 TabAdvanced Tab client band select Select an answerSecurity / AAA Server TabSecurity / Layer 3 TabSecurity / Layer 2 TabAdvanced Tab Your score is 0% By WordPress Quiz plugin