Posted on by adminCCNA 200-301 Practice Test 1 CCNA 200-301 Practice Test 1 This practice test is comprised of 50 matching type questions designed to prepare you for CCNA 200-301 certification exam. (pass score is 80%) 1 / 50 Match the IPv6 addressing method on the left with the description? DHCPv6 Select an answerautoconfiguration based on prefix of default gatewayhost identifier portion based on MAC addresscentralized scalable solutionmanually configured SLAAC Select an answerautoconfiguration based on prefix of default gatewayhost identifier portion based on MAC addresscentralized scalable solutionmanually configured static Select an answerautoconfiguration based on prefix of default gatewayhost identifier portion based on MAC addresscentralized scalable solutionmanually configured EUI-64 Select an answerautoconfiguration based on prefix of default gatewayhost identifier portion based on MAC addresscentralized scalable solutionmanually configured 2 / 50 Match the IPv6 route type on the left with the description. floating static route Select an answeripv6 route 2001:DB8:2:1::/64 Gi1/0 FE80::2ipv6 route 2001:DB8:2:1::/64 Gi1/0ipv6 route ::/0 2001:DB8:3C4D:1::1ipv6 route 2001:DB8:3C4D:1::/127 Se1/0ipv6 route 2001:DB8:2:1::/64 Gi1/0 200 directly attached static route Select an answeripv6 route 2001:DB8:2:1::/64 Gi1/0 FE80::2ipv6 route 2001:DB8:2:1::/64 Gi1/0ipv6 route ::/0 2001:DB8:3C4D:1::1ipv6 route 2001:DB8:3C4D:1::/127 Se1/0ipv6 route 2001:DB8:2:1::/64 Gi1/0 200 fully specified static route Select an answeripv6 route 2001:DB8:2:1::/64 Gi1/0 FE80::2ipv6 route 2001:DB8:2:1::/64 Gi1/0ipv6 route ::/0 2001:DB8:3C4D:1::1ipv6 route 2001:DB8:3C4D:1::/127 Se1/0ipv6 route 2001:DB8:2:1::/64 Gi1/0 200 default route Select an answeripv6 route 2001:DB8:2:1::/64 Gi1/0 FE80::2ipv6 route 2001:DB8:2:1::/64 Gi1/0ipv6 route ::/0 2001:DB8:3C4D:1::1ipv6 route 2001:DB8:3C4D:1::/127 Se1/0ipv6 route 2001:DB8:2:1::/64 Gi1/0 200 serial interface attached static route Select an answeripv6 route 2001:DB8:2:1::/64 Gi1/0 FE80::2ipv6 route 2001:DB8:2:1::/64 Gi1/0ipv6 route ::/0 2001:DB8:3C4D:1::1ipv6 route 2001:DB8:3C4D:1::/127 Se1/0ipv6 route 2001:DB8:2:1::/64 Gi1/0 200 3 / 50 Match the route source on the left with the administrative distance value. static Select an answer110190200 EIGRP Select an answer110190200 connected Select an answer110190200 OSPF Select an answer110190200 external BGP Select an answer110190200 4 / 50 Match the application on the left with the assigned application port. SMTP Select an answerUDP 123TCP 22UDP 24576UDP 53TCP 21TCP 25 SSH Select an answerUDP 123TCP 22UDP 24576UDP 53TCP 21TCP 25 FTP Select an answerUDP 123TCP 22UDP 24576UDP 53TCP 21TCP 25 NTP Select an answerUDP 123TCP 22UDP 24576UDP 53TCP 21TCP 25 DNS Select an answerUDP 123TCP 22UDP 24576UDP 53TCP 21TCP 25 RTP Select an answerUDP 123TCP 22UDP 24576UDP 53TCP 21TCP 25 5 / 50 Match the protocol on the left with the IP protocol number. ICMP Select an answer18911288 VRRP Select an answer18911288 EIGRP Select an answer18911288 OSPF Select an answer18911288 6 / 50 Match the address type on the left with the prefix. RFC 1918 Select an answer169.254.0.0/16172.16.0.0/12192.0.2.1/24same interface address assigned to different routers224.0.0.0/4 anycast Select an answer169.254.0.0/16172.16.0.0/12192.0.2.1/24same interface address assigned to different routers224.0.0.0/4 multicast Select an answer169.254.0.0/16172.16.0.0/12192.0.2.1/24same interface address assigned to different routers224.0.0.0/4 APIPA Select an answer169.254.0.0/16172.16.0.0/12192.0.2.1/24same interface address assigned to different routers224.0.0.0/4 wireless controller virtual interface Select an answer169.254.0.0/16172.16.0.0/12192.0.2.1/24same interface address assigned to different routers224.0.0.0/4 7 / 50 Match the wireless QoS profile on the left with the traffic type. platinum Select an answervoicevideobest effort (default)background bronze Select an answervoicevideobest effort (default)background gold Select an answervoicevideobest effort (default)background silver Select an answervoicevideobest effort (default)background 8 / 50 Match the wireless LAP mode on the left with the description. local mode Select an answercommunication between access pointslocal branch office switchingcentralized switchingdetects rogue devices on wireless networklistens to MAC addresses from all VLANs on trunk Flexconnect mode Select an answercommunication between access pointslocal branch office switchingcentralized switchingdetects rogue devices on wireless networklistens to MAC addresses from all VLANs on trunk client mode Select an answercommunication between access pointslocal branch office switchingcentralized switchingdetects rogue devices on wireless networklistens to MAC addresses from all VLANs on trunk monitor mode Select an answercommunication between access pointslocal branch office switchingcentralized switchingdetects rogue devices on wireless networklistens to MAC addresses from all VLANs on trunk rogue mode Select an answercommunication between access pointslocal branch office switchingcentralized switchingdetects rogue devices on wireless networklistens to MAC addresses from all VLANs on trunk 9 / 50 Match the wireless concept on the left with the description. ESS Select an answermultiple AP, multiple cells with single SSID roamingaccess point MAC addresssingle hub AP, single cell with single SSIDwireless client peering connection without AP BSS Select an answermultiple AP, multiple cells with single SSID roamingaccess point MAC addresssingle hub AP, single cell with single SSIDwireless client peering connection without AP IBSS Select an answermultiple AP, multiple cells with single SSID roamingaccess point MAC addresssingle hub AP, single cell with single SSIDwireless client peering connection without AP BSSID Select an answermultiple AP, multiple cells with single SSID roamingaccess point MAC addresssingle hub AP, single cell with single SSIDwireless client peering connection without AP 10 / 50 Match the wireless concept on the left with the description. Fast Transition Select an answernot recommended for delay-sensitive trafficmove clients to 5 GHz frequency to avoid radareliminates reauthentication to access pointencryption of wireless control frames Dynamic Channel Assignment (DCA) Select an answernot recommended for delay-sensitive trafficmove clients to 5 GHz frequency to avoid radareliminates reauthentication to access pointencryption of wireless control frames PMF Select an answernot recommended for delay-sensitive trafficmove clients to 5 GHz frequency to avoid radareliminates reauthentication to access pointencryption of wireless control frames Dynamic Frequency Detection (DFS) Select an answernot recommended for delay-sensitive trafficmove clients to 5 GHz frequency to avoid radareliminates reauthentication to access pointencryption of wireless control frames 11 / 50 Match the wireless encryption algorithm on the left with the wireless security standard. AES/CCMP Select an answerWPA3WPAWPA2WEP TKIP Select an answerWPA3WPAWPA2WEP SAE Select an answerWPA3WPAWPA2WEP RC4 Select an answerWPA3WPAWPA2WEP 12 / 50 Match the application on the left with the application port. DHCP Select an answerUDP 514UDP 161TCP 23UDP 68UDP 1546 CAPWAP Select an answerUDP 514UDP 161TCP 23UDP 68UDP 1546 Syslog Select an answerUDP 514UDP 161TCP 23UDP 68UDP 1546 SNMP Select an answerUDP 514UDP 161TCP 23UDP 68UDP 1546 Telnet Select an answerUDP 514UDP 161TCP 23UDP 68UDP 1546 13 / 50 Match the wireless protocol on the left with the description. 802.11g Select an answerprevent radar interferencedual bandmore coverage and interference than 5 GHz bandhigher frequency and less interference than 2.4 GHz band 802.11ax Select an answerprevent radar interferencedual bandmore coverage and interference than 5 GHz bandhigher frequency and less interference than 2.4 GHz band 802.11a Select an answerprevent radar interferencedual bandmore coverage and interference than 5 GHz bandhigher frequency and less interference than 2.4 GHz band 802.11h Select an answerprevent radar interferencedual bandmore coverage and interference than 5 GHz bandhigher frequency and less interference than 2.4 GHz band 14 / 50 Match the network device on the left with the description. IPS Select an answeractive threat blockingtraffic aggregationstateful packet inspectionphysical default gateway router Select an answeractive threat blockingtraffic aggregationstateful packet inspectionphysical default gateway firewall Select an answeractive threat blockingtraffic aggregationstateful packet inspectionphysical default gateway L3 switch Select an answeractive threat blockingtraffic aggregationstateful packet inspectionphysical default gateway 15 / 50 Match the protocol on the left with the TCP/IP networking model layer. UDP Select an answerLayer 2Layer 1Layer 4Layer 3 PPP Select an answerLayer 2Layer 1Layer 4Layer 3 T1 Select an answerLayer 2Layer 1Layer 4Layer 3 ICMP Select an answerLayer 2Layer 1Layer 4Layer 3 16 / 50 Match the network media type on the left with the description. multi-mode fiber (MMF) Select an answerlaser light sourcelimited distance high bandwidth coppermodal dispersionsusceptible to EMI UTP/STP Select an answerlaser light sourcelimited distance high bandwidth coppermodal dispersionsusceptible to EMI Twinax Select an answerlaser light sourcelimited distance high bandwidth coppermodal dispersionsusceptible to EMI single-mode fiber (SMF) Select an answerlaser light sourcelimited distance high bandwidth coppermodal dispersionsusceptible to EMI 17 / 50 Match the spanning tree protocol enhancement on the left with the description. Root Guard Select an answerviolation causes err-disabled shutdown statedesignated ports onlyalternate/backup ports, violation causes inconsistent stateprevents sending and receiving BPDUs Loop Guard Select an answerviolation causes err-disabled shutdown statedesignated ports onlyalternate/backup ports, violation causes inconsistent stateprevents sending and receiving BPDUs BPDU Guard Select an answerviolation causes err-disabled shutdown statedesignated ports onlyalternate/backup ports, violation causes inconsistent stateprevents sending and receiving BPDUs BPDU Filter Select an answerviolation causes err-disabled shutdown statedesignated ports onlyalternate/backup ports, violation causes inconsistent stateprevents sending and receiving BPDUs 18 / 50 Match the protocol feature on the left with the transport protocol. OSPF Select an answerIPTCPTCP and UDPUDP error recovery Select an answerIPTCPTCP and UDPUDP data integrity checksum Select an answerIPTCPTCP and UDPUDP error detection Select an answerIPTCPTCP and UDPUDP 19 / 50 Match the switching feature on the left with the description. MAC learning Select an answerpacket forwarding out all switch portsremoving MAC address from switch tableunicast flooding out all ports in a VLAN except where frame arrivedexamine source and destination field of an Ethernet frame ARP request Select an answerpacket forwarding out all switch portsremoving MAC address from switch tableunicast flooding out all ports in a VLAN except where frame arrivedexamine source and destination field of an Ethernet frame frame switching Select an answerpacket forwarding out all switch portsremoving MAC address from switch tableunicast flooding out all ports in a VLAN except where frame arrivedexamine source and destination field of an Ethernet frame MAC aging Select an answerpacket forwarding out all switch portsremoving MAC address from switch tableunicast flooding out all ports in a VLAN except where frame arrivedexamine source and destination field of an Ethernet frame 20 / 50 Match the configuration feature on the left with the IOS command. InterVLAN connectivity Select an answerencapsulation dot1qswitchport mode dynamic desirablelacp port-priorityno switchportlacp system-priority designating a switch to select forwarding LACP ports Select an answerencapsulation dot1qswitchport mode dynamic desirablelacp port-priorityno switchportlacp system-priority Layer 3 port channel Select an answerencapsulation dot1qswitchport mode dynamic desirablelacp port-priorityno switchportlacp system-priority manual selection of forwarding LACP ports Select an answerencapsulation dot1qswitchport mode dynamic desirablelacp port-priorityno switchportlacp system-priority DTP Select an answerencapsulation dot1qswitchport mode dynamic desirablelacp port-priorityno switchportlacp system-priority 21 / 50 Match the virtualization component on the left with the description. multithreading Select an answervirtual machineallocates physical hardwaresoftware processing across CPU coresshare host operating systemorchestration software container Select an answervirtual machineallocates physical hardwaresoftware processing across CPU coresshare host operating systemorchestration software Kubernetes Select an answervirtual machineallocates physical hardwaresoftware processing across CPU coresshare host operating systemorchestration software guest operating system Select an answervirtual machineallocates physical hardwaresoftware processing across CPU coresshare host operating systemorchestration software hypervisor Select an answervirtual machineallocates physical hardwaresoftware processing across CPU coresshare host operating systemorchestration software 22 / 50 Match the spanning tree switch port role on the left with the description. non-designated Select an answerlowest path cost portroot bridge ports802.1d port roleRSTP backup to root port alternate port Select an answerlowest path cost portroot bridge ports802.1d port roleRSTP backup to root port designated port Select an answerlowest path cost portroot bridge ports802.1d port roleRSTP backup to root port root port Select an answerlowest path cost portroot bridge ports802.1d port roleRSTP backup to root port 23 / 50 Match the route type on the left with the routing table protocol code. default route Select an answerD*LIA Host Select an answerD*LIA EIGRP Select an answerD*LIA OSPF Select an answerD*LIA 24 / 50 Match the route type on the left with the configuration. floating static route Select an answerip route 192.168.1.0 255.255.255.224 192.168.3.1ip route 172.16.2.1 255.255.255.255 Ethernet0/0ip route 192.168.1.0 255.255.255.224 192.168.2.1 2ip route 0.0.0.0 0.0.0.0 Gi1/0 static route Select an answerip route 192.168.1.0 255.255.255.224 192.168.3.1ip route 172.16.2.1 255.255.255.255 Ethernet0/0ip route 192.168.1.0 255.255.255.224 192.168.2.1 2ip route 0.0.0.0 0.0.0.0 Gi1/0 static host route Select an answerip route 192.168.1.0 255.255.255.224 192.168.3.1ip route 172.16.2.1 255.255.255.255 Ethernet0/0ip route 192.168.1.0 255.255.255.224 192.168.2.1 2ip route 0.0.0.0 0.0.0.0 Gi1/0 default route Select an answerip route 192.168.1.0 255.255.255.224 192.168.3.1ip route 172.16.2.1 255.255.255.255 Ethernet0/0ip route 192.168.1.0 255.255.255.224 192.168.2.1 2ip route 0.0.0.0 0.0.0.0 Gi1/0 25 / 50 Match the protocol on the left with the characteristic. TFTP Select an answerunequal path cost load balancingbackup configuration scriptsusername/password authenticationCPU intensive routing protocol FTP Select an answerunequal path cost load balancingbackup configuration scriptsusername/password authenticationCPU intensive routing protocol OSPF Select an answerunequal path cost load balancingbackup configuration scriptsusername/password authenticationCPU intensive routing protocol EIGRP Select an answerunequal path cost load balancingbackup configuration scriptsusername/password authenticationCPU intensive routing protocol 26 / 50 Match the OSPF adjacency state on the left with the description. 2-Way Select an answerrouter ID not included in hello packetsDR/BDR communication startsdatabase descriptor packets advertised to neighborslink state database advertised between neighborsDR/BDR elected for a network segment Init Select an answerrouter ID not included in hello packetsDR/BDR communication startsdatabase descriptor packets advertised to neighborslink state database advertised between neighborsDR/BDR elected for a network segment Exstart Select an answerrouter ID not included in hello packetsDR/BDR communication startsdatabase descriptor packets advertised to neighborslink state database advertised between neighborsDR/BDR elected for a network segment Exchange Select an answerrouter ID not included in hello packetsDR/BDR communication startsdatabase descriptor packets advertised to neighborslink state database advertised between neighborsDR/BDR elected for a network segment Loading Select an answerrouter ID not included in hello packetsDR/BDR communication startsdatabase descriptor packets advertised to neighborslink state database advertised between neighborsDR/BDR elected for a network segment 27 / 50 Match the subnet mask on the left with the equivalent CIDR notation. 255.255.255.240 Select an answer/29/30/28/27/22 255.255.255.248 Select an answer/29/30/28/27/22 255.255.252.0 Select an answer/29/30/28/27/22 255.255.255.252 Select an answer/29/30/28/27/22 255.255.255.224 Select an answer/29/30/28/27/22 28 / 50 Match the protocol on the left with the configuration setting. NTP Select an answer0000.5E00:0101 (mac address)update timer 60 secondsUDP 1230000.0C9F.F001 (mac address)overlay CDP Select an answer0000.5E00:0101 (mac address)update timer 60 secondsUDP 1230000.0C9F.F001 (mac address)overlay VRRP Select an answer0000.5E00:0101 (mac address)update timer 60 secondsUDP 1230000.0C9F.F001 (mac address)overlay HSRP Select an answer0000.5E00:0101 (mac address)update timer 60 secondsUDP 1230000.0C9F.F001 (mac address)overlay CAPWAP Select an answer0000.5E00:0101 (mac address)update timer 60 secondsUDP 1230000.0C9F.F001 (mac address)overlay 29 / 50 Match the HSRP state on the left with the description. Initial Select an answerrouter sends/receive hello messages to elect active/standby routersvirtual IP address known and receiving hello messagesinterface is enabledmonitor active router and go active when active router failsrouter is actively forwarding data traffic for the groupwaiting for hello messages Listen Select an answerrouter sends/receive hello messages to elect active/standby routersvirtual IP address known and receiving hello messagesinterface is enabledmonitor active router and go active when active router failsrouter is actively forwarding data traffic for the groupwaiting for hello messages Learn Select an answerrouter sends/receive hello messages to elect active/standby routersvirtual IP address known and receiving hello messagesinterface is enabledmonitor active router and go active when active router failsrouter is actively forwarding data traffic for the groupwaiting for hello messages Standby Select an answerrouter sends/receive hello messages to elect active/standby routersvirtual IP address known and receiving hello messagesinterface is enabledmonitor active router and go active when active router failsrouter is actively forwarding data traffic for the groupwaiting for hello messages Active Select an answerrouter sends/receive hello messages to elect active/standby routersvirtual IP address known and receiving hello messagesinterface is enabledmonitor active router and go active when active router failsrouter is actively forwarding data traffic for the groupwaiting for hello messages Speak Select an answerrouter sends/receive hello messages to elect active/standby routersvirtual IP address known and receiving hello messagesinterface is enabledmonitor active router and go active when active router failsrouter is actively forwarding data traffic for the groupwaiting for hello messages 30 / 50 Match the API authentication method on the left with the description. basic Select an answerusername/password string encodedstateful authorization protocol delegation frameworkstateless granular user-level security with tokensapplication-level authentication with encrypted string JWT Select an answerusername/password string encodedstateful authorization protocol delegation frameworkstateless granular user-level security with tokensapplication-level authentication with encrypted string API keys Select an answerusername/password string encodedstateful authorization protocol delegation frameworkstateless granular user-level security with tokensapplication-level authentication with encrypted string OAuth2 Select an answerusername/password string encodedstateful authorization protocol delegation frameworkstateless granular user-level security with tokensapplication-level authentication with encrypted string 31 / 50 Match the SDN feature on the left with the network service. control plane Select an answerTelnet, SSHOpenFlow, Ansiblebuild network tablesREST APIrouting table lookup data plane Select an answerTelnet, SSHOpenFlow, Ansiblebuild network tablesREST APIrouting table lookup northbound interface Select an answerTelnet, SSHOpenFlow, Ansiblebuild network tablesREST APIrouting table lookup southbound interface Select an answerTelnet, SSHOpenFlow, Ansiblebuild network tablesREST APIrouting table lookup management plane Select an answerTelnet, SSHOpenFlow, Ansiblebuild network tablesREST APIrouting table lookup 32 / 50 Match the automation function on the left with the description. REST API authentication Select an answerUTF-8CREATEPUTJWTJSON character set encoding Select an answerUTF-8CREATEPUTJWTJSON data serialization Select an answerUTF-8CREATEPUTJWTJSON CRUD operation Select an answerUTF-8CREATEPUTJWTJSON HTTP verb Select an answerUTF-8CREATEPUTJWTJSON 33 / 50 Match the serialization example on the left with the application. "interface":"GigabitEthernet0/1", Select an answerYANGXMLJSONYAML – name: router-1 Select an answerYANGXMLJSONYAML <interface>:GigabitEthernet0/1</name> Select an answerYANGXMLJSONYAML identity:interface-type { Select an answerYANGXMLJSONYAML 34 / 50 Match the JSON syntax on the left with the description. {"hostname" : "R1", "IP" : "192.168.1.1"} Select an answerobjectarraykey pairkey "interface":"Ethernet0", Select an answerobjectarraykey pairkey "description" Select an answerobjectarraykey pairkey ["Ethernet0/0","Ethernet0/1"] Select an answerobjectarraykey pairkey 35 / 50 Match the protocol on the left with the correct sequence when a host connects to a web server. TCP handshake to web server Select an answer4321 proxy ARP broadcast Select an answer4321 DNS query Select an answer4321 DHCP request Select an answer4321 36 / 50 Match the DHCP feature on the left with the description. DHCP option 150 Select an answerIP-to-MAC address mapping from DHCP databaseenable connection to DHCP server on remote subnetidentify source of DHCP request for security purposesprovide list of TFTP servers to DHCP clients DHCP relay Select an answerIP-to-MAC address mapping from DHCP databaseenable connection to DHCP server on remote subnetidentify source of DHCP request for security purposesprovide list of TFTP servers to DHCP clients DHCP bindings Select an answerIP-to-MAC address mapping from DHCP databaseenable connection to DHCP server on remote subnetidentify source of DHCP request for security purposesprovide list of TFTP servers to DHCP clients DHCP option 82 Select an answerIP-to-MAC address mapping from DHCP databaseenable connection to DHCP server on remote subnetidentify source of DHCP request for security purposesprovide list of TFTP servers to DHCP clients 37 / 50 Match the NAT address concept on the left with the description. ip nat inside source static Select an answerdynamic pool1:1 address mappinginside global addressoverload keywordRFC 1918 address inside local address Select an answerdynamic pool1:1 address mappinginside global addressoverload keywordRFC 1918 address ip nat outside interface Select an answerdynamic pool1:1 address mappinginside global addressoverload keywordRFC 1918 address ip nat inside source list 199 Select an answerdynamic pool1:1 address mappinginside global addressoverload keywordRFC 1918 address port address translation Select an answerdynamic pool1:1 address mappinginside global addressoverload keywordRFC 1918 address 38 / 50 Match the Syslog message on the left with the severity level. warnings Select an answer632401 emergencies Select an answer632401 critical Select an answer632401 alerts Select an answer632401 informational Select an answer632401 errors Select an answer632401 39 / 50 Match the protocol on the left with the description. CDP Select an answerRSTPconnect Arista and Cisco switchRPVST+update timer 60 seconds open standard spanning tree protocol Select an answerRSTPconnect Arista and Cisco switchRPVST+update timer 60 seconds support for multiple VLANs Select an answerRSTPconnect Arista and Cisco switchRPVST+update timer 60 seconds LLDP Select an answerRSTPconnect Arista and Cisco switchRPVST+update timer 60 seconds 40 / 50 Match the default transport protocol on the left with the application traffic. DCHP Select an answerUDP 53TCP 22TCP 25TCP 21UDP 67/68 DNS Select an answerUDP 53TCP 22TCP 25TCP 21UDP 67/68 SMTP Select an answerUDP 53TCP 22TCP 25TCP 21UDP 67/68 FTP Select an answerUDP 53TCP 22TCP 25TCP 21UDP 67/68 SSH Select an answerUDP 53TCP 22TCP 25TCP 21UDP 67/68 41 / 50 Match the cyber security concept on the left with the description. mitigation Select an answeremail phishing or spoofingsoftware bugsoftware updatesmalware threat Select an answeremail phishing or spoofingsoftware bugsoftware updatesmalware exploit Select an answeremail phishing or spoofingsoftware bugsoftware updatesmalware vulnerability Select an answeremail phishing or spoofingsoftware bugsoftware updatesmalware 42 / 50 Match the AAA server on the left with the description. RADIUS Select an answerCisco default settinguser exec modeencrypts password onlyencrypt data security level 15 Select an answerCisco default settinguser exec modeencrypts password onlyencrypt data security level 1 Select an answerCisco default settinguser exec modeencrypts password onlyencrypt data TACACS+ Select an answerCisco default settinguser exec modeencrypts password onlyencrypt data 43 / 50 Match the network feature on the left with the description. DNS table Select an answerIP to MAC address mappingWindows host commandLinux host commandhostname to IP mapping ip address show Select an answerIP to MAC address mappingWindows host commandLinux host commandhostname to IP mapping DHCP binding table Select an answerIP to MAC address mappingWindows host commandLinux host commandhostname to IP mapping ipconfig /all Select an answerIP to MAC address mappingWindows host commandLinux host commandhostname to IP mapping 44 / 50 Match the cyber security concept on the left with the example. multi-factor possession Select an answerfingerprinttraditional authenticationtokensecurity question AAA Select an answerfingerprinttraditional authenticationtokensecurity question multi-factor knowledge Select an answerfingerprinttraditional authenticationtokensecurity question multi-factor inherence Select an answerfingerprinttraditional authenticationtokensecurity question 45 / 50 Match the management protocol on the left with the supported feature. SSH Select an answerTCP 20 (data channel)out-of-band managementcommunity stringsusers and groupsTCP 22 SNMPv3 Select an answerTCP 20 (data channel)out-of-band managementcommunity stringsusers and groupsTCP 22 FTP Select an answerTCP 20 (data channel)out-of-band managementcommunity stringsusers and groupsTCP 22 SNMPv2c Select an answerTCP 20 (data channel)out-of-band managementcommunity stringsusers and groupsTCP 22 console Select an answerTCP 20 (data channel)out-of-band managementcommunity stringsusers and groupsTCP 22 46 / 50 Match the Cisco configuration feature on the left with the default setting. MAC aging timer Select an answer40 seconds (ethernet)132768300 seconds14400 seconds router priority Select an answer40 seconds (ethernet)132768300 seconds14400 seconds ARP aging timer Select an answer40 seconds (ethernet)132768300 seconds14400 seconds OSPF dead timer Select an answer40 seconds (ethernet)132768300 seconds14400 seconds switch priority Select an answer40 seconds (ethernet)132768300 seconds14400 seconds 47 / 50 Match the OSPF configuration feature for directly connected neighbors on the left with the description. passive interface Select an answersecurity implementationpoint-to-point network typeOSPF adjacency would formlocally significant onlyOSPF adjacency would fail router ID mismatch Select an answersecurity implementationpoint-to-point network typeOSPF adjacency would formlocally significant onlyOSPF adjacency would fail process identifier Select an answersecurity implementationpoint-to-point network typeOSPF adjacency would formlocally significant onlyOSPF adjacency would fail MTU mismatch Select an answersecurity implementationpoint-to-point network typeOSPF adjacency would formlocally significant onlyOSPF adjacency would fail tunnel interface Select an answersecurity implementationpoint-to-point network typeOSPF adjacency would formlocally significant onlyOSPF adjacency would fail 48 / 50 Match the IPv6 address on the left with the description. 2001:db8:3c4d:1:0/127 Select an answermaximum one hostmaximum two hostsminimum prefix length for autoconfigurationmaximum four hosts 2001:db8:3c4d:1:2/126 Select an answermaximum one hostmaximum two hostsminimum prefix length for autoconfigurationmaximum four hosts 2001:db8:3c4d:1::/64 Select an answermaximum one hostmaximum two hostsminimum prefix length for autoconfigurationmaximum four hosts 2001:db8:3c4d:1:1/128 Select an answermaximum one hostmaximum two hostsminimum prefix length for autoconfigurationmaximum four hosts 49 / 50 Match the operational plane on the left with the description. control plane Select an answerQoS and encryptionSDN architecture layeroriginating trafficSSH management plane Select an answerQoS and encryptionSDN architecture layeroriginating trafficSSH application plane Select an answerQoS and encryptionSDN architecture layeroriginating trafficSSH data plane Select an answerQoS and encryptionSDN architecture layeroriginating trafficSSH 50 / 50 Match the IEEE standard on the left with the description. 802.3ad Select an answerRSTPLACPport-based authenticationPoE 802.3at Select an answerRSTPLACPport-based authenticationPoE 802.1w Select an answerRSTPLACPport-based authenticationPoE 802.1X Select an answerRSTPLACPport-based authenticationPoE Your score is 0% By WordPress Quiz plugin
