[{"_component":"text","_classes":"no-element-backgrounds","_isOptional":false,"_isAvailable":true,"title":"Text","displayTitle":"","_headingLevel":1,"body":"<h1><span><span style=\"color:#ffffff\"><span>Practice Final Exam</span></span></span></h1>","_id":"7d326d123e204528b42edf6a6df9dbd0","_parentId":"eb2d8e7281114e37b79f7f612cbb032d","_type":"component","_layout":"left","_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":false,"_isCompletionIndicatorEnabled":false},"_search":{"_isEnabled":true,"keywords":""},"instruction":""},{"_component":"text","_classes":"background-colour3 remove-padding-top no-element-backgrounds","_isOptional":false,"_isAvailable":true,"title":"Practice Final Exam","displayTitle":"","body":"<p><span style=\"color:#ffffff\">Scroll to begin<i class=\"fa fa-arrow-circle-down\"> </i></span></p>","_id":"8a091fc4fdb74b4da2001250362c3d94","_parentId":"68afea1506c046a0b4322a587312e27d","_type":"component","_layout":"left","_onScreen":{"_isEnabled":true,"_classes":"animated pulse infinite","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":false,"_isCompletionIndicatorEnabled":false},"_search":{"_isEnabled":true,"keywords":""},"instruction":""},{"_component":"text","_classes":"","_isOptional":false,"_isAvailable":true,"title":"CCNA: Switching, Routing, and Wireless Essentials Practice Final Exam","displayTitle":"","body":"<p><b>Cisco Networking Academy content is copyrighted and the unauthorized posting, distribution or sharing of this exam content is prohibited.</b><br /><br />This practice final exam will cover material from the CCNA2 - Switching, Routing, and Wireless Essentials (SRWE) curriculum.<br /><br />&#169; 2023, Cisco Systems, Inc.</p>","_id":"ef1be3883d124c1e91b9b64fbcac86c8","_parentId":"e0febceedabc4779ad876e14986fb17d","_type":"component","_layout":"full","_onScreen":{"_isEnabled":true,"_classes":"animated fadeIn","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":false,"_isCompletionIndicatorEnabled":false},"_mentor":{"_isEnabled":false,"_registeredMentors":[]},"_search":{"_isEnabled":true,"keywords":""},"_healthGauge":{"_isEnabled":false,"_onCorrectValue":1,"_onPartiallyCorrectValue":1,"_onIncorrectValue":1},"instruction":""},{"_component":"adaptiveStartScreen","_classes":"assessment-start-screen","_isOptional":false,"_isAvailable":true,"_isHidden":false,"_isVisible":true,"_ariaLevel":0,"_disableAccessibilityState":false,"title":"","displayTitle":"","body":"","_id":"f6f65b40b5524171b990a16d7e140a33","_parentId":"5ad6b2116ab74b7bb672592b80927e30","_type":"component","_layout":"full","secureAssessmentV2":true,"_labels":{"_topContainer":{"topIcon":{"src":"./assets/complete-mark.svg","alt":"alt text"},"title":"Congratulations","description":"You have successfully completed the My Knowledge Check activity.","preSubText":"You can view My Knowledge Check History by clicking on the ","afterSubText":"button.","viewDiagnosticBtnLabel":"My Knowledge Check History","preSkillText":"If you would like, you can retake the","preSkillTextBtnLabel":"My Knowledge Check","viewDiagnosticBtnIcon":{"src":"./assets/bars.svg","alt":"alt text"}},"_introScreen":{"bottomIcon":{"src":"./assets/thinking.png","alt":"alt text"},"title":"","moduleTitle":"Practice Final Exam","description":"","instructionTitle":"Instructions:","instructionDesc":"<p><ul><li>The exam consists of <b><span class='secure-question-count'>30</span></b> questions and <b><span class='secure-passing-score'>70</span></b>% is required to pass.</li><li>You have <b><span class='secure-attempts'>unlimited</span> <span class='secure-attempt-text'>attempts</span> </b>to pass the exam.</li> <li class='secure-dynamic-time'>You have <b><span class='secure-time'>no</span></b> per attempt to pass the exam.</li><li class='secure-static-intruction'>You have <b>no</b> time limit per attempt to pass the exam.</li><li class='secure-note'>Your responses will be automatically submitted once the given time has elapsed.</li></ul></p>","startTestBtnLabel":"Start"}}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">A small publishing company has a network design such that when a broadcast is sent on the LAN, 200 devices receive the transmitted broadcast. How can the network administrator reduce the number of devices that receive broadcast traffic?</span></p>","_id":"89d4c525a1bb458cae46abaff6c70714","_parentId":"0e6bcf645dbb4b50b0843c5570472965","_type":"component","_layout":"full","_ravennaSourceID":"206400","_smvWiseScoring":{"ident":"it_206400","outcomes":{"decvar":[{"_varname":"705366","_maxvalue":1,"title":"correctness of response"},{"_varname":"711352","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"705366","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"711352","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Add more switches so that fewer devices are on a particular switch.","_shouldBeSelected":false,"feedback":""},{"text":"Replace the switches with switches that have more ports per switch. This will allow more devices on a particular switch.","_shouldBeSelected":false,"feedback":""},{"text":"Segment the LAN into smaller LANs and route between them.","_shouldBeSelected":true,"feedback":""},{"text":"Replace at least half of the switches with hubs to reduce the size of the broadcast domain.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"By dividing the one big network into two smaller network, the network administrator has created two smaller broadcast domains. When a broadcast is sent on the network now, the broadcast will only be sent to the devices on the same Ethernet LAN. The other LAN will not receive the broadcast.","_incorrect":{"final":"By dividing the one big network into two smaller network, the network administrator has created two smaller broadcast domains. When a broadcast is sent on the network now, the broadcast will only be sent to the devices on the same Ethernet LAN. The other LAN will not receive the broadcast.","notFinal":""},"_partlyCorrect":{"final":"By dividing the one big network into two smaller network, the network administrator has created two smaller broadcast domains. When a broadcast is sent on the network now, the broadcast will only be sent to the devices on the same Ethernet LAN. The other LAN will not receive the broadcast.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What is the reason for disabling SSID broadcasting and changing the default SSID on a wireless access point?</span></p>","_id":"a681dadd458c49178d2df57ff48d8e54","_parentId":"dcdabb88fc2e4250b57dd44bda0da677","_type":"component","_layout":"full","_ravennaSourceID":"206628","_smvWiseScoring":{"ident":"it_206628","outcomes":{"decvar":[{"_varname":"462642","_maxvalue":1,"title":"correctness of response"},{"_varname":"462643","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"462642","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"462643","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Anyone with the default SSID can gain access to the access point and change the configuration.","_shouldBeSelected":false,"feedback":""},{"text":"Disabling SSID broadcasting frees up radio frequency bandwidth and increases the data throughput of the access point.","_shouldBeSelected":false,"feedback":""},{"text":"The access point stops broadcasting its own MAC address, thus preventing unauthorized wireless clients from connecting to the network.","_shouldBeSelected":false,"feedback":""},{"text":"Wireless clients must then have the SSID manually configured to connect to the wireless network.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The SSID is the name of the wireless network. Changing the default SSID forces device users to manually enter the SSID in order to gain access to the network. Broadcasting the SSID does not allow other devices to access the configuration, or to discover the MAC address of the device. SSID broadcasts do not affect radio frequency bandwidth.","_incorrect":{"final":"The SSID is the name of the wireless network. Changing the default SSID forces device users to manually enter the SSID in order to gain access to the network. Broadcasting the SSID does not allow other devices to access the configuration, or to discover the MAC address of the device. SSID broadcasts do not affect radio frequency bandwidth.","notFinal":""},"_partlyCorrect":{"final":"The SSID is the name of the wireless network. Changing the default SSID forces device users to manually enter the SSID in order to gain access to the network. Broadcasting the SSID does not allow other devices to access the configuration, or to discover the MAC address of the device. SSID broadcasts do not affect radio frequency bandwidth.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What address and prefix length is used when configuring an IPv6 default static route?</span></p>","_id":"cc8373136b984861a3f354a5d58c84bc","_parentId":"c2e4d5c2680e42d29fbe02a1091ecd2d","_type":"component","_layout":"full","_ravennaSourceID":"209377","_smvWiseScoring":{"ident":"it_209377","outcomes":{"decvar":[{"_varname":"488111","_maxvalue":1,"title":"correctness of response"}],"interpretvar":[{"_varname":"488111","_view":"All","interpret":"1 point for Option 10 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"::/0","_shouldBeSelected":true,"feedback":""},{"text":"::1/128","_shouldBeSelected":false,"feedback":""},{"text":"0.0.0.0/0","_shouldBeSelected":false,"feedback":""},{"text":"FF02::1/8","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The IPv6 address and prefix for a default static route is ::/0. This represents all zeros in the address and a prefix length of zero.","_incorrect":{"final":"The IPv6 address and prefix for a default static route is ::/0. This represents all zeros in the address and a prefix length of zero.","notFinal":""},"_partlyCorrect":{"final":"The IPv6 address and prefix for a default static route is ::/0. This represents all zeros in the address and a prefix length of zero.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_id":"f56dda5a65b94bfca53787025db6342c","_parentId":"72ae3104a0024e71ba6629889a080a5c","_type":"component","_component":"objectMatching","_classes":"","_layout":"full","title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Match the purpose with its DHCP message type. </span></p>","instruction":"","_attempts":1,"_isRandom":true,"_shouldDisplayAttempts":false,"_shouldResetAllAnswers":true,"_questionWeight":1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_recordInteraction":true,"_isQuestionRandom":true,"_isAnswerRandom":false,"_categoryTitle":"Categories:","_optionTitle":"Options:","_defaultAnswerBGColor":"#F2F2F2","placeholder":"Please select an option","_ravennaSourceID":"209429","_smvWiseScoring":{"ident":"it_209429","outcomes":{"decvar":[{"_varname":"obs0","_maxvalue":2,"title":""},{"_varname":"status","_maxvalue":0,"title":"status"}],"interpretvar":[{"_varname":"obs0","_view":"All"},{"_varname":"status","_view":"All","interpret":"status"}]}},"_items":[{"question":"DHCPREQUEST","answer":"A message that is used to locate any available DHCP server on a network","questionBGColor":"#B0F7C9"},{"question":"DHCPDISCOVER","answer":"A message that is used to identify the explicit server and lease offer to accept","questionBGColor":"#CAB5E6"},{"question":"DHCPNAK","answer":"A message that is used to acknowledge that the lease is successful","questionBGColor":"#FDE4F9"},{"question":"DHCPOFFER","answer":"A message that is used to suggest a lease to a client","questionBGColor":"#E7F0DA"},{"question":"DHCPACK","answer":"A message is used by a server to finalize a successful lease with a client","questionBGColor":"#FCC8A7"}],"_feedback":{"title":"","correct":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>DHCPREQUEST</td><td>A message that is used to locate any available DHCP server on a network</td></tr><tr><td>DHCPDISCOVER</td><td>A message that is used to identify the explicit server and lease offer to accept</td></tr><tr><td>DHCPNAK</td><td>A message that is used to acknowledge that the lease is successful</td></tr><tr><td>DHCPOFFER</td><td>A message that is used to suggest a lease to a client</td></tr><tr><td>DHCPACK</td><td>A message is used by a server to finalize a successful lease with a client</td></tr></table>","_incorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>DHCPREQUEST</td><td>A message that is used to locate any available DHCP server on a network</td></tr><tr><td>DHCPDISCOVER</td><td>A message that is used to identify the explicit server and lease offer to accept</td></tr><tr><td>DHCPNAK</td><td>A message that is used to acknowledge that the lease is successful</td></tr><tr><td>DHCPOFFER</td><td>A message that is used to suggest a lease to a client</td></tr><tr><td>DHCPACK</td><td>A message is used by a server to finalize a successful lease with a client</td></tr></table>","notFinal":""},"_partlyCorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>DHCPREQUEST</td><td>A message that is used to locate any available DHCP server on a network</td></tr><tr><td>DHCPDISCOVER</td><td>A message that is used to identify the explicit server and lease offer to accept</td></tr><tr><td>DHCPNAK</td><td>A message that is used to acknowledge that the lease is successful</td></tr><tr><td>DHCPOFFER</td><td>A message that is used to suggest a lease to a client</td></tr><tr><td>DHCPACK</td><td>A message is used by a server to finalize a successful lease with a client</td></tr></table>","notFinal":""}},"_comment":"","_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""},"_pageLevelProgress":{"_isEnabled":true},"_menuTOC":{"_isEnabled":false},"_courseProgress":{"_isEnabled":true}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i210868v1n2_210868.gif\" alt=\"The graphic shows two routers, R1 and ISP, that are connected together on two WAN links.  On the first WAN link, R1 connects to the ISP router through interface S0/0/0 and IP address 192.168.0.33/30, and the ISP router uses interface S0/0/0 and IP address 192.168.0.33/30. On the second WAN link R1 is connects to the ISP router through interface S0/0/1 and IP address 192.168.0.37/30,  and the ISP router uses interface S0/0/1 and IP address 192.168.0.38/30. OSPF is running as the routing protocol across the WAN link 192.168.0.32/30.\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. Router R1 has an OSPF neighbor relationship with the ISP router over the 192.168.0.32 network. The 192.168.0.36 network link should serve as a backup when the OSPF link goes down. The floating static route command <b>ip route 0.0.0.0 0.0.0.0 S0/0/1 100</b> was issued on R1 and now traffic is using the backup link even when the OSPF link is up and functioning. Which change should be made to the static route command so that traffic will only use the OSPF link when it is up?</span></p>","_id":"1c2b23b4fa11406eb12943b0355dcfd4","_parentId":"9fbc83ca0ce643b3b0a8253b799be7ef","_type":"component","_layout":"full","_ravennaSourceID":"210868","_smvWiseScoring":{"ident":"it_210868","outcomes":{"decvar":[{"_varname":"502340","_maxvalue":1,"title":"correctness of response"},{"_varname":"502341","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"502340","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"502341","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Add the next hop neighbor address of 192.168.0.36.","_shouldBeSelected":false,"feedback":""},{"text":"Change the administrative distance to 1.","_shouldBeSelected":false,"feedback":""},{"text":"Change the destination network to 192.168.0.34.","_shouldBeSelected":false,"feedback":""},{"text":"Change the administrative distance to 120.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The problem with the current floating static route is that the administrative distance is set too low. The administrative distance will need to be higher than that of OSPF, which is 110, so that the router will only use the OSPF link when it is up.","_incorrect":{"final":"The problem with the current floating static route is that the administrative distance is set too low. The administrative distance will need to be higher than that of OSPF, which is 110, so that the router will only use the OSPF link when it is up.","notFinal":""},"_partlyCorrect":{"final":"The problem with the current floating static route is that the administrative distance is set too low. The administrative distance will need to be higher than that of OSPF, which is 110, so that the router will only use the OSPF link when it is up.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">A network administrator is implementing DHCPv6 for the company. The administrator configures a router to send RA messages with M flag as 1 by using the interface command <b>ipv6 nd managed-config-flag</b>. What effect will this configuration have on the operation of the clients?</span></p>","_id":"05f6fa8b5b74432ab95d91dfb88d02b6","_parentId":"05b9f14840e0433091e47a3a6d5baadd","_type":"component","_layout":"full","_ravennaSourceID":"210896","_smvWiseScoring":{"ident":"it_210896","outcomes":{"decvar":[{"_varname":"491360","_maxvalue":1,"title":"correctness of response"},{"_varname":"499658","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"491360","_view":"All","interpret":"1 point for Option 20 points for any other option"},{"_varname":"499658","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Clients must use the information that is contained in RA messages.","_shouldBeSelected":false,"feedback":""},{"text":"Clients must use all configuration information that is provided by a DHCPv6 server.","_shouldBeSelected":true,"feedback":""},{"text":"Clients must use the prefix and prefix length that are provided by a DHCPv6 server and generate a random interface ID.","_shouldBeSelected":false,"feedback":""},{"text":"Clients must use the prefix and prefix length that are provided by RA messages and obtain additional information from a DHCPv6 server.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"Under stateful DHCPv6 configuration, which is indicated by setting M flag as 1 (through the interface command <b>ipv6 nd managed-config-flag</b>), the dynamic IPv6 address assignments are managed by the DHCPv6 server. Clients must obtain all configuration information from a DHCPv6 server.","_incorrect":{"final":"Under stateful DHCPv6 configuration, which is indicated by setting M flag as 1 (through the interface command <b>ipv6 nd managed-config-flag</b>), the dynamic IPv6 address assignments are managed by the DHCPv6 server. Clients must obtain all configuration information from a DHCPv6 server.","notFinal":""},"_partlyCorrect":{"final":"Under stateful DHCPv6 configuration, which is indicated by setting M flag as 1 (through the interface command <b>ipv6 nd managed-config-flag</b>), the dynamic IPv6 address assignments are managed by the DHCPv6 server. Clients must obtain all configuration information from a DHCPv6 server.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">An administrator has configured a DHCPv4 relay router and issued these commands:<br /><br />Router(config)# <b>interface g0/0</b><br />Router(config-if)# <b>ip address 10.0.1.1 255.255.255.0</b><br />Router(config-if)# <b>no shutdown</b><br />Router(config-if)# <b>exit</b><br />Router(config)# <b>ip dhcp pool RELAY</b><br />Router(dhcp-config)# <b>end</b><br /><br />The clients are not receiving IP parameters from the DHCPv4 server. What is a possible cause?</span></p>","_id":"5bc25b5547794281be2f085fcc0dbe2b","_parentId":"ec6e190e162841c1a875b9dfe9d0c405","_type":"component","_layout":"full","_ravennaSourceID":"210903","_smvWiseScoring":{"ident":"it_210903","outcomes":{"decvar":[{"_varname":"491560","_maxvalue":1,"title":"correctness of response"}],"interpretvar":[{"_varname":"491560","_view":"All","interpret":"1 point for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The pool cannot be named 'RELAY'.","_shouldBeSelected":false,"feedback":""},{"text":"The router is configured as a DHCPv4 client.","_shouldBeSelected":false,"feedback":""},{"text":"The IP address is incorrect for the subnet mask that is used.","_shouldBeSelected":false,"feedback":""},{"text":"The <b>ip helper-address</b> command is missing.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"This router should be configured with the <b>ip helper-address</b> command, followed with the IP address of the DHCPv4 server, because the router is meant to be used as a relay agent. The <b>ip dhcp pool RELAY</b> command just names the DHCPv4 pool, and it does not enable the relay function.","_incorrect":{"final":"This router should be configured with the <b>ip helper-address</b> command, followed with the IP address of the DHCPv4 server, because the router is meant to be used as a relay agent. The <b>ip dhcp pool RELAY</b> command just names the DHCPv4 pool, and it does not enable the relay function.","notFinal":""},"_partlyCorrect":{"final":"This router should be configured with the <b>ip helper-address</b> command, followed with the IP address of the DHCPv4 server, because the router is meant to be used as a relay agent. The <b>ip dhcp pool RELAY</b> command just names the DHCPv4 pool, and it does not enable the relay function.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_id":"df320a76bdbf46f480d1b4e5806842d9","_parentId":"2d4e68ab862b486ab6facbb2b25dd687","_type":"component","_component":"objectMatching","_classes":"","_layout":"full","title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Match the DTP mode with its function. </span></p>","instruction":"","_attempts":1,"_isRandom":true,"_shouldDisplayAttempts":false,"_shouldResetAllAnswers":true,"_questionWeight":1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_recordInteraction":true,"_isQuestionRandom":true,"_isAnswerRandom":false,"_categoryTitle":"Categories:","_optionTitle":"Options:","_defaultAnswerBGColor":"#F2F2F2","placeholder":"Please select an option","_ravennaSourceID":"211535","_smvWiseScoring":{"ident":"it_211535","outcomes":{"decvar":[{"_varname":"obs0","_maxvalue":2,"title":"Options placed in correct order."},{"_varname":"status","_maxvalue":0,"title":"status"}],"interpretvar":[{"_varname":"obs0","_view":"All","interpret":"Click on the question mark at the bottom of the item for the correct answer. There is no partial credit."},{"_varname":"status","_view":"All","interpret":"status"}]}},"_items":[{"question":"Dynamic auto","answer":"Passively waits for the neighbor to initiate trunking","questionBGColor":"#F9D8D6"},{"question":"Nonegotiate","answer":"Requires manual configuration of trunking or nontrunking","questionBGColor":"#B0F7C9"},{"question":"Dynamic desirable","answer":"Actively attempts to convert the link to a trunk","questionBGColor":"#D7DAFA"},{"question":"Trunk","answer":"Permanent trunking mode","questionBGColor":"#CAB5E6"}],"_feedback":{"title":"","correct":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>Dynamic auto</td><td>Passively waits for the neighbor to initiate trunking</td></tr><tr> <td>Nonegotiate</td><td>Requires manual configuration of trunking or nontrunking</td></tr><tr> <td>Dynamic desirable</td><td>Actively attempts to convert the link to a trunk</td></tr><tr><td>Trunk</td><td>Permanent trunking mode</td></tr></table>","_incorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr> <td>Dynamic auto</td><td>Passively waits for the neighbor to initiate trunking</td></tr><tr> <td>Nonegotiate</td><td>Requires manual configuration of trunking or nontrunking</td></tr><tr> <td>Dynamic desirable</td><td>Actively attempts to convert the link to a trunk</td></tr><tr><td>Trunk</td><td>Permanent trunking mode</td></tr></table>","notFinal":""},"_partlyCorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr> <td>Dynamic auto</td><td>Passively waits for the neighbor to initiate trunking</td></tr><tr> <td>Nonegotiate</td><td>Requires manual configuration of trunking or nontrunking</td></tr><tr> <td>Dynamic desirable</td><td>Actively attempts to convert the link to a trunk</td></tr><tr><td>Trunk</td><td>Permanent trunking mode</td></tr></table>","notFinal":""}},"_comment":"","_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""},"_pageLevelProgress":{"_isEnabled":true},"_menuTOC":{"_isEnabled":false},"_courseProgress":{"_isEnabled":true}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which type of traffic is designed for a native VLAN?</span></p>","_id":"bf48f15c498542ccb4ca426e4f3b37b6","_parentId":"66899175dfce4d139961ddac6ea4577b","_type":"component","_layout":"full","_ravennaSourceID":"211548","_smvWiseScoring":{"ident":"it_211548","outcomes":{"decvar":[{"_varname":"488071","_maxvalue":1,"title":"correctness of response"},{"_varname":"499757","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"488071","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"499757","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"user-generated","_shouldBeSelected":false,"feedback":""},{"text":"tagged","_shouldBeSelected":false,"feedback":""},{"text":"untagged","_shouldBeSelected":true,"feedback":""},{"text":"management","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"A native VLAN carries untagged traffic, which is traffic that does not come from a VLAN. A data VLAN carries user-generated traffic. A management VLAN carries management traffic.","_incorrect":{"final":"A native VLAN carries untagged traffic, which is traffic that does not come from a VLAN. A data VLAN carries user-generated traffic. A management VLAN carries management traffic.","notFinal":""},"_partlyCorrect":{"final":"A native VLAN carries untagged traffic, which is traffic that does not come from a VLAN. A data VLAN carries user-generated traffic. A management VLAN carries management traffic.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i211586v1n1_Question-5.png\" alt=\"Host PC-A is connected to Fa0/1 on switch ALS1. ALS1 is connected via Fa0/18 to switch ALS2. ALS2 is connected to host PC-B. The following CLI output accompanies the topology:  ALS1# show interfaces trunk Port        Mode             Encapsulation  Status        Native vlan Fa0/18      on               802.1q         trunking      99 Port        Vlans allowed on trunk Fa0/18      1,10,20,30,40,50,70,80,90,100,1001-1005 Port        Vlans allowed and active in management domain Fa0/18      1,10,20,30,40,50,70,80,90,100 Port        Vlans in spanning tree forwarding state and not pruned Fa0/18      1,10,20,30,40,50,70,80,90,100\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. PC-A and PC-B are both in VLAN 60. PC-A is unable to communicate with PC-B. What is the problem?</span></p>","_id":"035a046835604bf8b3512c301c5001ad","_parentId":"b7adbcb7e19d4ef992a8aea792fe017b","_type":"component","_layout":"full","_ravennaSourceID":"211586","_smvWiseScoring":{"ident":"it_211586","outcomes":{"decvar":[{"_varname":"488088","_maxvalue":1,"title":"correctness of response"},{"_varname":"490529","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"488088","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"490529","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The native VLAN should be VLAN 60.","_shouldBeSelected":false,"feedback":""},{"text":"The native VLAN is being pruned from the link.","_shouldBeSelected":false,"feedback":""},{"text":"The trunk has been configured with the <b>switchport nonegotiate</b> command.","_shouldBeSelected":false,"feedback":""},{"text":"The VLAN that is used by PC-A is not in the list of allowed VLANs on the trunk.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"Because PC-A and PC-B are connected to different switches, traffic between them must flow over the trunk link. Trunks can be configured so that they only allow traffic for particular VLANs to cross the link. In this scenario, VLAN 60, the VLAN that is associated with PC-A and PC-B, has not been allowed across the link, as shown by the output of <b>show interfaces trunk</b>.","_incorrect":{"final":"Because PC-A and PC-B are connected to different switches, traffic between them must flow over the trunk link. Trunks can be configured so that they only allow traffic for particular VLANs to cross the link. In this scenario, VLAN 60, the VLAN that is associated with PC-A and PC-B, has not been allowed across the link, as shown by the output of <b>show interfaces trunk</b>.","notFinal":""},"_partlyCorrect":{"final":"Because PC-A and PC-B are connected to different switches, traffic between them must flow over the trunk link. Trunks can be configured so that they only allow traffic for particular VLANs to cross the link. In this scenario, VLAN 60, the VLAN that is associated with PC-A and PC-B, has not been allowed across the link, as shown by the output of <b>show interfaces trunk</b>.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i211587v1n1_211587.png\" alt=\"CLI output that says the following:  DLS1# show interfaces trunk Port        Mode             Encapsulation  Status        Native vlan Fa0/1       on               802.1q         trunking      99 Port        Vlans allowed on trunk Fa0/1       1,10,20,30,99,1001-1005 Port        Vlans allowed and active in management domain Fa0/1       1,10,20,30,99 Port        Vlans in spanning tree forwarding state and not pruned Fa0/1       10,20,30,99 DLS1# *Mar  1 00:05:53.554: %CDP-4-NATIVE_VLAN_MISMATCH: Native VLAN mismatch discovered on FastEthernet0/1 (99), with DLS2 FastEthernet0/1 (66). DLS1#\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. DLS1 is connected to another switch, DLS2, via a trunk link. A host that is connected to DLS1 is not able to communicate to a host that is connected to DLS2, even though they are both in VLAN 99. Which command should be added to Fa0/1 on DLS1 to correct the problem?</span></p>","_id":"6f1bcb0260f344c0875f37a0a5ea1430","_parentId":"8f9297b5750f479e9a9c790c55bdfaeb","_type":"component","_layout":"full","_ravennaSourceID":"211587","_smvWiseScoring":{"ident":"it_211587","outcomes":{"decvar":[{"_varname":"488089","_maxvalue":1,"title":"correctness of response"},{"_varname":"490530","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"488089","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"490530","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"<b>switchport nonegotiate</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>switchport mode dynamic auto</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>switchport trunk native vlan 66</b>","_shouldBeSelected":true,"feedback":""},{"text":"<b>switchport trunk allowed vlan add 99</b>","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When configuring 802.1Q trunk links, the native VLAN must match on both sides of the link, or else CDP error messages will be generated, and traffic that is coming from or going to the native VLAN will not be handled correctly.","_incorrect":{"final":"When configuring 802.1Q trunk links, the native VLAN must match on both sides of the link, or else CDP error messages will be generated, and traffic that is coming from or going to the native VLAN will not be handled correctly.","notFinal":""},"_partlyCorrect":{"final":"When configuring 802.1Q trunk links, the native VLAN must match on both sides of the link, or else CDP error messages will be generated, and traffic that is coming from or going to the native VLAN will not be handled correctly.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i212661v1n3_212661.png\" alt=\"The exhibit shows 3 PCs connected to a switch through Fa0/2, Fa0/3, and Fa0/4 interfaces. The switch is connected to a router through the Fa0/1 interface. The exhibit also shows this partial output from the show running-config command: &lt;output omitted&gt; interface FastEthernet0/1  switchport trunk allowed vlan 10,20,30  switchport mode access  switchport nonegotiate ! interface FastEthernet0/2  switchport access vlan 10  switchport mode access  switchport nonegotiate ! interface FastEthernet0/3  switchport access vlan 20  switchport mode access  switchport nonegotiate ! interface FastEthernet0/4  switchport access vlan 30  switchport mode access  switchport nonegotiate\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. Inter-VLAN communication between VLAN 10, VLAN 20, and VLAN 30 is not successful.&#160;What is the problem?</span></p>","_id":"f9124fff4cc0477fbfc1176bda851ca1","_parentId":"88427ebff61242a085259f4f6af65a72","_type":"component","_layout":"full","_ravennaSourceID":"212661","_smvWiseScoring":{"ident":"it_212661","outcomes":{"decvar":[{"_varname":"489429","_maxvalue":1,"title":"correctness of response"},{"_varname":"499710","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"489429","_view":"All","interpret":"1 point for Option 20 points for any other option"},{"_varname":"499710","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The access interfaces do not have IP addresses and each should be configured with an IP address.","_shouldBeSelected":false,"feedback":""},{"text":"The switch interface FastEthernet0/1 is configured as an access interface and should be configured as a trunk interface.","_shouldBeSelected":true,"feedback":""},{"text":"The switch interface FastEthernet0/1 is configured to not negotiate and should be configured to negotiate.​","_shouldBeSelected":false,"feedback":""},{"text":"The switch interfaces FastEthernet0/2, FastEthernet0/3, and FastEthernet0/4 are configured to not negotiate and should be configured to negotiate.​","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"To forward all VLANs to the router, the switch interface Fa0/1 must be configured as a trunk interface with the <b>switchport mode trunk</b> command.","_incorrect":{"final":"To forward all VLANs to the router, the switch interface Fa0/1 must be configured as a trunk interface with the <b>switchport mode trunk</b> command.","notFinal":""},"_partlyCorrect":{"final":"To forward all VLANs to the router, the switch interface Fa0/1 must be configured as a trunk interface with the <b>switchport mode trunk</b> command.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">A network administrator is using the router-on-a-stick method to configure inter-VLAN routing. Switch port Gi1/1 is used to connect to the router. Which command should be entered to prepare this port for the task?</span></p>","_id":"b33edcd0c99b47e6a44f781196ec2381","_parentId":"2768139fca814ef8af6d6d9637768147","_type":"component","_layout":"full","_ravennaSourceID":"212678","_smvWiseScoring":{"ident":"it_212678","outcomes":{"decvar":[{"_varname":"489315","_maxvalue":1,"title":"correctness of response"},{"_varname":"499770","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"489315","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"499770","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Switch(config)# <b>interface gigabitethernet 1/1</b><br /> Switch(config-if)# <b>spanning-tree vlan 1</b><br />","_shouldBeSelected":false,"feedback":""},{"text":"Switch(config)# <b>interface gigabitethernet 1/1</b><br /> Switch(config-if)# <b>spanning-tree portfast</b><br />","_shouldBeSelected":false,"feedback":""},{"text":"Switch(config)# <b>interface gigabitethernet 1/1</b><br /> Switch(config-if)# <b>switchport mode trunk</b><br />","_shouldBeSelected":true,"feedback":""},{"text":"Switch(config)# <b>interface gigabitethernet 1/1</b><br /> Switch(config-if)# <b>switchport access vlan 1</b><br />","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"With the router-on-a-stick method, the switch port that connects to the router must be configured as trunk mode. This can be done with the command Switch(config-if)# <b>switchport mode trunk</b>. The other options do not put the switch port into trunk mode.","_incorrect":{"final":"With the router-on-a-stick method, the switch port that connects to the router must be configured as trunk mode. This can be done with the command Switch(config-if)# <b>switchport mode trunk</b>. The other options do not put the switch port into trunk mode.","notFinal":""},"_partlyCorrect":{"final":"With the router-on-a-stick method, the switch port that connects to the router must be configured as trunk mode. This can be done with the command Switch(config-if)# <b>switchport mode trunk</b>. The other options do not put the switch port into trunk mode.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which problem is evident if the <b>show ip interface</b> command shows that the interface is down and the line protocol is down?</span></p>","_id":"abe22759ba4f468e85a4ab0c2722aecf","_parentId":"95e39996463a40b0a0485a98fb0232f8","_type":"component","_layout":"full","_ravennaSourceID":"214367","_smvWiseScoring":{"ident":"it_214367","outcomes":{"decvar":[{"_varname":"491686","_maxvalue":1,"title":"correctness of response"},{"_varname":"499773","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"491686","_view":"All","interpret":"1 point for Option 20 points for any other option"},{"_varname":"499773","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"An encapsulation mismatch has occurred.","_shouldBeSelected":false,"feedback":""},{"text":"A cable has not been attached to the port.","_shouldBeSelected":true,"feedback":""},{"text":"The <b>no shutdown</b> command has not been issued on the interface.","_shouldBeSelected":false,"feedback":""},{"text":"There is an IP address conflict with the configured address on the interface.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"If an interface has not been brought up with the <b>no shutdown</b> command, the interface status shows administratively down. A duplicate IP address will not bring an interface down. An encapsulation error is normally found using the <b>show interfaces</b> command.","_incorrect":{"final":"If an interface has not been brought up with the <b>no shutdown</b> command, the interface status shows administratively down. A duplicate IP address will not bring an interface down. An encapsulation error is normally found using the <b>show interfaces</b> command.","notFinal":""},"_partlyCorrect":{"final":"If an interface has not been brought up with the <b>no shutdown</b> command, the interface status shows administratively down. A duplicate IP address will not bring an interface down. An encapsulation error is normally found using the <b>show interfaces</b> command.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i215024v1n1_215024.png\" alt=\"PCA attaches to SW1 through port Fa0/1. PCB attaches to SW1 through port Fa0/2. The Fa0/23 port of SW1 attaches to the Fa0/24 port of SW2. PCc attaches to SW2 through port Fa0/3. PCD attaches to SW2 through port Fa0/4.\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. How is a frame sent from PCA forwarded to PCC if the MAC address table on switch SW1 is empty?</span></p>","_id":"8a88a89b9aa44301bb62a78e387d67a1","_parentId":"d38851ded2a145938e63984202cefcbd","_type":"component","_layout":"full","_ravennaSourceID":"215024","_smvWiseScoring":{"ident":"it_215024","outcomes":{"decvar":[{"_varname":"488979","_maxvalue":1,"title":"correctness of response"},{"_varname":"488980","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"488979","_view":"All","interpret":"1 point for Option 20 points for any other option"},{"_varname":"488980","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"SW1 floods the frame on all ports on the switch, excluding the interconnected port to switch SW2 and the port through which the frame entered the switch.","_shouldBeSelected":false,"feedback":""},{"text":"SW1 floods the frame on all ports on SW1, excluding the port through which the frame entered the switch.","_shouldBeSelected":true,"feedback":""},{"text":"SW1 forwards the frame directly to SW2. SW2 floods the frame to all ports connected to SW2, excluding the port through which the frame entered the switch.","_shouldBeSelected":false,"feedback":""},{"text":"SW1 drops the frame because it does not know the destination MAC address.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When a switch powers on, the MAC address table is empty. The switch builds the MAC address table by examining the source MAC address of incoming frames. The switch forwards based on the destination MAC address found in the frame header. If a switch has no entries in the MAC address table or if the destination MAC address is not in the switch table, the switch will forward the frame out all ports except the port that brought the frame into the switch.","_incorrect":{"final":"When a switch powers on, the MAC address table is empty. The switch builds the MAC address table by examining the source MAC address of incoming frames. The switch forwards based on the destination MAC address found in the frame header. If a switch has no entries in the MAC address table or if the destination MAC address is not in the switch table, the switch will forward the frame out all ports except the port that brought the frame into the switch.","notFinal":""},"_partlyCorrect":{"final":"When a switch powers on, the MAC address table is empty. The switch builds the MAC address table by examining the source MAC address of incoming frames. The switch forwards based on the destination MAC address found in the frame header. If a switch has no entries in the MAC address table or if the destination MAC address is not in the switch table, the switch will forward the frame out all ports except the port that brought the frame into the switch.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i215830v1n1_215830.png\" alt=\"R1# show running-config &lt;output omitted&gt; ipv6 unicast-routing ! ipv6 dhcp pool LAN1  prefix-delegation 2001:DB8:5::/48 00030001000E84244E70  dns-server 2001:DB8:5::8  domain-name cisco.com ! interface FastEthernet0/0  no ip address  ipv6 address 2001:DB8:5::100/48  ipv6 dhcp server LAN1\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. The users on the LAN network of R1&#160;cannot receive an IPv6 address from the configured stateful&#160;DHCPv6 server. What is missing from the stateful DHCPv6 configuration on router R1?</span></p>","_id":"2c2406e7387e4f768b1e8818a42a0ae6","_parentId":"c063c049c21446bfa2fdeaa5cb4c893e","_type":"component","_layout":"full","_ravennaSourceID":"215830","_smvWiseScoring":{"ident":"it_215830","outcomes":{"decvar":[{"_varname":"518679","_maxvalue":1,"title":"correctness of response"},{"_varname":"522050","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"518679","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"522050","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"IPv6 has not been enabled globally on router R1.","_shouldBeSelected":false,"feedback":""},{"text":"The DHCPv6 pool has not been bound to the LAN interface.","_shouldBeSelected":false,"feedback":""},{"text":"The FA0/0 interface is missing the command that informs the clients to use stateful DHCPv6.","_shouldBeSelected":true,"feedback":""},{"text":"The DHCPv6 pool does not match the IPv6 address configured on interface FA0/0.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When configuring a router interface for stateful DHCPv6, the router must be able to inform the host PC&#39;s to receive IPv6 addressing from a stateful DHCPv6 server. The interface command is <b>ipv6 nd managed-config-flag</b>","_incorrect":{"final":"When configuring a router interface for stateful DHCPv6, the router must be able to inform the host PC&#39;s to receive IPv6 addressing from a stateful DHCPv6 server. The interface command is <b>ipv6 nd managed-config-flag</b>","notFinal":""},"_partlyCorrect":{"final":"When configuring a router interface for stateful DHCPv6, the router must be able to inform the host PC&#39;s to receive IPv6 addressing from a stateful DHCPv6 server. The interface command is <b>ipv6 nd managed-config-flag</b>","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which command would create a valid IPv6 default route?</span></p>","_id":"1bb046f6f0d8460bbfe08a721ae5b5c6","_parentId":"62de86970cc1422db820a4ace32c3459","_type":"component","_layout":"full","_ravennaSourceID":"215846","_smvWiseScoring":{"ident":"it_215846","outcomes":{"decvar":[{"_varname":"534546","_maxvalue":1,"title":"correctness of response"}],"interpretvar":[{"_varname":"534546","_view":"All","interpret":"1 point for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"<b>ipv6 route ::/0 fe80::1</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>ipv6 route 2001:db8:acad:1::/64 ::1</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>ipv6 route ::/0 2001:db8:acad:2::a</b>","_shouldBeSelected":true,"feedback":""},{"text":"<b>ipv6 route ::/128 2001:db8:acad:1::1</b>","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The correct prefix and prefix length for a default route is ::/0, which matches any address. ::/128 matches only the specific address of all zeros. When creating a static route that uses a link-local address as the next hop, an exit interface must also be specified for the route to be valid.","_incorrect":{"final":"The correct prefix and prefix length for a default route is ::/0, which matches any address. ::/128 matches only the specific address of all zeros. When creating a static route that uses a link-local address as the next hop, an exit interface must also be specified for the route to be valid.","notFinal":""},"_partlyCorrect":{"final":"The correct prefix and prefix length for a default route is ::/0, which matches any address. ::/128 matches only the specific address of all zeros. When creating a static route that uses a link-local address as the next hop, an exit interface must also be specified for the route to be valid.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which three components are combined to form a bridge ID? (Choose three.)</span></p>","_id":"4a63744257cc405285b69854b84a2514","_parentId":"f4ee80ab6aa44671bb4da815c369f20d","_type":"component","_layout":"full","_ravennaSourceID":"216367","_smvWiseScoring":{"ident":"it_216367","outcomes":{"decvar":[{"_varname":"499539","_maxvalue":1,"title":"correctness of response"},{"_varname":"504479","_maxvalue":3,"title":"correctness of response"}],"interpretvar":[{"_varname":"499539","_view":"All","interpret":"1 point for Option 3, Option 4, Option 50 points for any other option"},{"_varname":"504479","_view":"All","interpret":"Option 3, Option 4, and Option 5 are correct.1 point for each correct option.0 points if more options are selected than required."}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"port ID","_shouldBeSelected":false,"feedback":""},{"text":"IP address","_shouldBeSelected":false,"feedback":""},{"text":"extended system ID","_shouldBeSelected":true,"feedback":""},{"text":"MAC address","_shouldBeSelected":true,"feedback":""},{"text":"bridge priority","_shouldBeSelected":true,"feedback":""},{"text":"cost","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":3,"_feedback":{"title":"","correct":"The three components that are combined to form a bridge ID are bridge priority, extended system ID, and MAC address.","_incorrect":{"final":"The three components that are combined to form a bridge ID are bridge priority, extended system ID, and MAC address.","notFinal":""},"_partlyCorrect":{"final":"The three components that are combined to form a bridge ID are bridge priority, extended system ID, and MAC address.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What is an advantage of PVST+?</span></p>","_id":"a4d36fd776b0472fa548c75c18cf7797","_parentId":"2f866ff96dc54d0aaa1889d19bdbdf84","_type":"component","_layout":"full","_ravennaSourceID":"216413","_smvWiseScoring":{"ident":"it_216413","outcomes":{"decvar":[{"_varname":"502963","_maxvalue":1,"title":"correctness of response"},{"_varname":"504480","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"502963","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"504480","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"PVST+ requires fewer CPU cycles for all the switches in the network.","_shouldBeSelected":false,"feedback":""},{"text":"PVST+ reduces bandwidth consumption compared to traditional implementations of STP that use CST.","_shouldBeSelected":false,"feedback":""},{"text":"PVST+ optimizes performance on the network through autoselection of the root bridge.","_shouldBeSelected":false,"feedback":""},{"text":"PVST+ optimizes performance on the network through load sharing.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"PVST+ results in optimum load balancing.  However, this is accomplished by manually configuring switches to be elected as root bridges for different VLANs on the network. The root bridges are not automatically selected. Furthermore, having spanning-tree instances for each VLAN actually consumes more bandwidth and it increases the CPU cycles for all the switches in the network.","_incorrect":{"final":"PVST+ results in optimum load balancing.  However, this is accomplished by manually configuring switches to be elected as root bridges for different VLANs on the network. The root bridges are not automatically selected. Furthermore, having spanning-tree instances for each VLAN actually consumes more bandwidth and it increases the CPU cycles for all the switches in the network.","notFinal":""},"_partlyCorrect":{"final":"PVST+ results in optimum load balancing.  However, this is accomplished by manually configuring switches to be elected as root bridges for different VLANs on the network. The root bridges are not automatically selected. Furthermore, having spanning-tree instances for each VLAN actually consumes more bandwidth and it increases the CPU cycles for all the switches in the network.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_id":"c12f93fc452b46a692c86716a6551aed","_parentId":"818dcbe97466468c94beeb6c26e572cc","_type":"component","_component":"objectMatching","_classes":"","_layout":"full","title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Match the spanning-tree feature with the protocol type. </span></p>","instruction":"","_attempts":1,"_isRandom":true,"_shouldDisplayAttempts":false,"_shouldResetAllAnswers":true,"_questionWeight":1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_recordInteraction":true,"_isQuestionRandom":true,"_isAnswerRandom":false,"_categoryTitle":"Categories:","_optionTitle":"Options:","_defaultAnswerBGColor":"#F2F2F2","placeholder":"Please select an option","_ravennaSourceID":"216422","_smvWiseScoring":{"ident":"it_216422","outcomes":{"decvar":[{"_varname":"obs0","_maxvalue":2,"title":"Options matched to the correct selection"},{"_varname":"status","_maxvalue":0,"title":"status"}],"interpretvar":[{"_varname":"obs0","_view":"All","interpret":"Click on the question mark at the bottom of the item for the correct answer.There is no partial credit."},{"_varname":"status","_view":"All","interpret":"status"}]}},"_items":[{"question":"PVST+","answer":"Proprietary per VLAN implementation of IEEE 802.1w","questionBGColor":"#F9D8D6"},{"question":"RSTP","answer":"Cisco implementation of IEEE 802.1D","questionBGColor":"#D7FAD9"},{"question":"MSTP","answer":"Fast converging enhancement of IEEE 802.1D","questionBGColor":"#B0F7C9"},{"question":"MST","answer":"IEEE standard that reduces the number of STP instances ","questionBGColor":"#CAB5E6"}],"_feedback":{"title":"","correct":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>PVST+</td><td>Proprietary per VLAN implementation of IEEE 802.1w</td></tr><tr><td>RSTP</td><td>Cisco implementation of IEEE 802.1D</td></tr><tr><td>MSTP</td><td>Fast converging enhancement of IEEE 802.1D</td></tr><tr><td>MST</td><td>IEEE standard that reduces the number of STP instances</td></tr></table>","_incorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>PVST+</td><td>Proprietary per VLAN implementation of IEEE 802.1w</td></tr><tr><td>RSTP</td><td>Cisco implementation of IEEE 802.1D</td></tr><tr><td>MSTP</td><td>Fast converging enhancement of IEEE 802.1D</td></tr><tr><td>MST</td><td>IEEE standard that reduces the number of STP instances</td></tr></table>","notFinal":""},"_partlyCorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>PVST+</td><td>Proprietary per VLAN implementation of IEEE 802.1w</td></tr><tr><td>RSTP</td><td>Cisco implementation of IEEE 802.1D</td></tr><tr><td>MSTP</td><td>Fast converging enhancement of IEEE 802.1D</td></tr><tr><td>MST</td><td>IEEE standard that reduces the number of STP instances</td></tr></table>","notFinal":""}},"_comment":"","_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""},"_pageLevelProgress":{"_isEnabled":true},"_menuTOC":{"_isEnabled":false},"_courseProgress":{"_isEnabled":true}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">A network engineer is configuring a LAN with a redundant first hop to make better use of the available network resources. Which protocol should the engineer implement?</span></p>","_id":"de57480712894f0ba9d7946028fbf26e","_parentId":"96f79b93e8894e6f9128ff5bc6d8abaf","_type":"component","_layout":"full","_ravennaSourceID":"216428","_smvWiseScoring":{"ident":"it_216428","outcomes":{"decvar":[{"_varname":"494768","_maxvalue":1,"title":"correctness of response"},{"_varname":"522052","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"494768","_view":"All","interpret":"1 point for Option 20 points for any other option"},{"_varname":"522052","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"FHRP","_shouldBeSelected":false,"feedback":""},{"text":"GLBP","_shouldBeSelected":true,"feedback":""},{"text":"HSRP","_shouldBeSelected":false,"feedback":""},{"text":"VRRP","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"Gateway Load Balancing Protocol (GLBP) provides load sharing between a group of redundant routers while also protecting data traffic from a failed router or circuit.","_incorrect":{"final":"Gateway Load Balancing Protocol (GLBP) provides load sharing between a group of redundant routers while also protecting data traffic from a failed router or circuit.","notFinal":""},"_partlyCorrect":{"final":"Gateway Load Balancing Protocol (GLBP) provides load sharing between a group of redundant routers while also protecting data traffic from a failed router or circuit.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which combination of WLAN authentication and encryption is recommended as a best practice for home users?</span></p>","_id":"1a3c08e5be0a4800865872dcf17968f1","_parentId":"f60cf0d357d44a7da435b1ca50713848","_type":"component","_layout":"full","_ravennaSourceID":"217897","_smvWiseScoring":{"ident":"it_217897","outcomes":{"decvar":[{"_varname":"495150","_maxvalue":1,"title":"correctness of response"}],"interpretvar":[{"_varname":"495150","_view":"All","interpret":"1 point for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"WEP and TKIP","_shouldBeSelected":false,"feedback":""},{"text":"WPA2 and AES","_shouldBeSelected":true,"feedback":""},{"text":"EAP and AES","_shouldBeSelected":false,"feedback":""},{"text":"WPA and PSK","_shouldBeSelected":false,"feedback":""},{"text":"WEP and RC4","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"WPA2 is the Wi-Fi alliance version of 802.11i, the industry standard for authentication. Neither WEP nor WPA possess the level of authentication provided by WPA2. AES aligns with WPA2 as an encryption standard, and is stronger than TKIP or RC4. PSK refers to pre-shared passwords, an authentication method that can be used by either WPA or WPA2. EAP is intended for use with enterprise networks which use a RADIUS server.","_incorrect":{"final":"WPA2 is the Wi-Fi alliance version of 802.11i, the industry standard for authentication. Neither WEP nor WPA possess the level of authentication provided by WPA2. AES aligns with WPA2 as an encryption standard, and is stronger than TKIP or RC4. PSK refers to pre-shared passwords, an authentication method that can be used by either WPA or WPA2. EAP is intended for use with enterprise networks which use a RADIUS server.","notFinal":""},"_partlyCorrect":{"final":"WPA2 is the Wi-Fi alliance version of 802.11i, the industry standard for authentication. Neither WEP nor WPA possess the level of authentication provided by WPA2. AES aligns with WPA2 as an encryption standard, and is stronger than TKIP or RC4. PSK refers to pre-shared passwords, an authentication method that can be used by either WPA or WPA2. EAP is intended for use with enterprise networks which use a RADIUS server.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">An employee connects wirelessly to the company network using a cell phone. The employee then configures the cell phone to act as a wireless access point that will allow new employees to connect to the company network. Which type of security threat best describes this situation?</span></p>","_id":"de20726820954e65ac668d87c9631e35","_parentId":"91f5be705cba4bcea617f0e62726b08a","_type":"component","_layout":"full","_ravennaSourceID":"217911","_smvWiseScoring":{"ident":"it_217911","outcomes":{"decvar":[{"_varname":"520582","_maxvalue":1,"title":"correctness of response"},{"_varname":"520583","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"520582","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"520583","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"cracking","_shouldBeSelected":false,"feedback":""},{"text":"denial of service","_shouldBeSelected":false,"feedback":""},{"text":"rogue access point","_shouldBeSelected":true,"feedback":""},{"text":"spoofing","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"Configuring the cell phone to act as a wireless access point means that the cell phone is now a rogue access point. The employee unknowingly breached the security of the company network by allowing a user to access the network without connecting through the company access point. Cracking is the process of obtaining passwords from data stored or transmitted on a network. Denial of service attacks refer to sending large amounts of data to a networked device, such as a server, to prevent legitimate access to the server. Spoofing refers to access gained to a network or data by an attacker appearing to be a legitimate network device or user.","_incorrect":{"final":"Configuring the cell phone to act as a wireless access point means that the cell phone is now a rogue access point. The employee unknowingly breached the security of the company network by allowing a user to access the network without connecting through the company access point. Cracking is the process of obtaining passwords from data stored or transmitted on a network. Denial of service attacks refer to sending large amounts of data to a networked device, such as a server, to prevent legitimate access to the server. Spoofing refers to access gained to a network or data by an attacker appearing to be a legitimate network device or user.","notFinal":""},"_partlyCorrect":{"final":"Configuring the cell phone to act as a wireless access point means that the cell phone is now a rogue access point. The employee unknowingly breached the security of the company network by allowing a user to access the network without connecting through the company access point. Cracking is the process of obtaining passwords from data stored or transmitted on a network. Denial of service attacks refer to sending large amounts of data to a networked device, such as a server, to prevent legitimate access to the server. Spoofing refers to access gained to a network or data by an attacker appearing to be a legitimate network device or user.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i221269v1n1_221269.jpg\" alt=\"The exhibit displays the following information: S1# show __________ Port state    = Up Mstr Assoc In-Bndl Channel group = 1           Mode = Active         Gcchange = - Port-channel  = Po3         GC   =   -            Pseudo port-channel = Po3 Port index    = 0           Load = 0x00           Protocol =   LACP Flags: S - Device is sending Slow LACPDUs F - Device is sending fast LACPDUs.        A - Device is in active mode.      P - Device is in passive mode. Local information:                             LACP port     Admin     Oper    Port       Port Port      Flags   State     Priority      Key       Key     Number     State Fa0/11     SA      bndl      32768         0x1       0x1     0x101      0x3D  Partner&#39;s information:                   LACP port                       Admin  Oper   Port    Port Port      Flags   Priority  Dev ID          Age   key    Key    Number  State Fa0/11     SA      32768     0cd6.23d2.4000  11s   0x0    0x1    0x101   0x3D  &lt;Output omitted&gt;\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. A network administrator is troubleshooting a problem with EtherChannel. What command was used to produce the exhibited output?</span></p>","_id":"5ee8aad3755943d7bf53427d7a56a13f","_parentId":"0b1b053a89c248c0ab7b32a2db833099","_type":"component","_layout":"full","_ravennaSourceID":"221269","_smvWiseScoring":{"ident":"it_221269","outcomes":{"decvar":[{"_varname":"518848","_maxvalue":1,"title":"correctness of response"}],"interpretvar":[{"_varname":"518848","_view":"All","interpret":"1 point for Option 10 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"<b>show interfaces fastethernet 0/11 etherchannel</b>","_shouldBeSelected":true,"feedback":""},{"text":"<b>show etherchannel Port-channel</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>show etherchannel summary</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>show interfaces Port-channel11</b>","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The <b>show interfaces fastethernet 0/11 etherchannel</b> command will show the EtherChannel information for the FastEthernet 0/11 interface. The displayed information includes the port channel it belongs to, the current mode, and the channel group, among other information.","_incorrect":{"final":"The <b>show interfaces fastethernet 0/11 etherchannel</b> command will show the EtherChannel information for the FastEthernet 0/11 interface. The displayed information includes the port channel it belongs to, the current mode, and the channel group, among other information.","notFinal":""},"_partlyCorrect":{"final":"The <b>show interfaces fastethernet 0/11 etherchannel</b> command will show the EtherChannel information for the FastEthernet 0/11 interface. The displayed information includes the port channel it belongs to, the current mode, and the channel group, among other information.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which command will start the process to bundle two physical interfaces to create an EtherChannel group via&#160;LACP?</span></p>","_id":"c0ce76e78c424c97a06247b3ff54e95e","_parentId":"df15372fde5f45a0897f5668cd03e85d","_type":"component","_layout":"full","_ravennaSourceID":"222349","_smvWiseScoring":{"ident":"it_222349","outcomes":{"decvar":[{"_varname":"520095","_maxvalue":1,"title":"correctness of response"},{"_varname":"522105","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"520095","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"522105","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"<b>channel-group 2 mode auto</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>interface port-channel 2</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>channel-group 1 mode desirable</b>","_shouldBeSelected":false,"feedback":""},{"text":"<b>interface range GigabitEthernet 0/4 - 5</b>","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"To specify the interfaces in an EtherChannel group, use the <b>interface range</b> <i>interface</i> global configuration command for the range of interfaces used. The <b>interface range GigabitEthernet 0/4 - 5</b> command is the correct option because it specifies two interfaces for the EtherChannel group.","_incorrect":{"final":"To specify the interfaces in an EtherChannel group, use the <b>interface range</b> <i>interface</i> global configuration command for the range of interfaces used. The <b>interface range GigabitEthernet 0/4 - 5</b> command is the correct option because it specifies two interfaces for the EtherChannel group.","notFinal":""},"_partlyCorrect":{"final":"To specify the interfaces in an EtherChannel group, use the <b>interface range</b> <i>interface</i> global configuration command for the range of interfaces used. The <b>interface range GigabitEthernet 0/4 - 5</b> command is the correct option because it specifies two interfaces for the EtherChannel group.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What is a result of connecting two or more switches together?</span></p>","_id":"765e76a442574ed8aee8909ca7e301f5","_parentId":"02a1389ea6a045b1849c0125682f23b3","_type":"component","_layout":"full","_ravennaSourceID":"223316","_smvWiseScoring":{"ident":"it_223316","outcomes":{"decvar":[{"_varname":"520567","_maxvalue":1,"title":"correctness of response"},{"_varname":"520568","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"520567","_view":"All","interpret":"1 point for Option 20 points for any other option"},{"_varname":"520568","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The number of broadcast domains is increased.","_shouldBeSelected":false,"feedback":""},{"text":"The size of the broadcast domain is increased.","_shouldBeSelected":true,"feedback":""},{"text":"The number of collision domains is reduced.","_shouldBeSelected":false,"feedback":""},{"text":"The size of the collision domain is increased.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When two or more switches are connected together, the size of the broadcast domain is increased and so is the number of collision domains. The number of broadcast domains is increased only when routers are added.","_incorrect":{"final":"When two or more switches are connected together, the size of the broadcast domain is increased and so is the number of collision domains. The number of broadcast domains is increased only when routers are added.","notFinal":""},"_partlyCorrect":{"final":"When two or more switches are connected together, the size of the broadcast domain is increased and so is the number of collision domains. The number of broadcast domains is increased only when routers are added.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What is the best way to prevent a VLAN hopping attack?</span></p>","_id":"6cf9b129a7a74aa69a7cb1e5bf1fdb21","_parentId":"d03ceb0e427944b592b2759030efd15f","_type":"component","_layout":"full","_ravennaSourceID":"235952","_smvWiseScoring":{"ident":"it_235952","outcomes":{"decvar":[{"_varname":"563333","_maxvalue":1,"title":"correctness of response"},{"_varname":"563334","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"563333","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"563334","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Disable STP on all nontrunk ports.","_shouldBeSelected":false,"feedback":""},{"text":"Use ISL encapsulation on all trunk links.","_shouldBeSelected":false,"feedback":""},{"text":"Use VLAN 1 as the native VLAN on trunk ports.","_shouldBeSelected":false,"feedback":""},{"text":"Disable trunk negotiation for trunk ports and statically set nontrunk ports as access ports.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"VLAN hopping attacks rely on the attacker being able to create a trunk link with a switch. Disabling DTP and configuring user-facing ports as static access ports can help prevent these types of attacks.  Disabling the Spanning Tree Protocol (STP) will not eliminate VLAN hopping attacks.","_incorrect":{"final":"VLAN hopping attacks rely on the attacker being able to create a trunk link with a switch. Disabling DTP and configuring user-facing ports as static access ports can help prevent these types of attacks.  Disabling the Spanning Tree Protocol (STP) will not eliminate VLAN hopping attacks.","notFinal":""},"_partlyCorrect":{"final":"VLAN hopping attacks rely on the attacker being able to create a trunk link with a switch. Disabling DTP and configuring user-facing ports as static access ports can help prevent these types of attacks.  Disabling the Spanning Tree Protocol (STP) will not eliminate VLAN hopping attacks.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">After sticky learning of MAC addresses is enabled, what action is needed to prevent dynamically learned MAC addresses from being lost in the event that an associated interface goes down?</span></p>","_id":"bffd3f76177b4ce0b58f76c512d7089c","_parentId":"9f856bdc0a354b36bc3456674d71f9a0","_type":"component","_layout":"full","_ravennaSourceID":"245706","_smvWiseScoring":{"ident":"it_245706","outcomes":{"decvar":[{"_varname":"705594","_maxvalue":1,"title":"correctness of response"},{"_varname":"705595","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"705594","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"705595","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Shut down the interface then enable it again with the <b>no shutdown</b> command.","_shouldBeSelected":false,"feedback":""},{"text":"Configure port security for violation protect mode.","_shouldBeSelected":false,"feedback":""},{"text":"Reboot the switch.","_shouldBeSelected":false,"feedback":""},{"text":"Copy the running configuration to the startup configuration.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When sticky learning is enabled, dynamically learned MAC addresses are stored in the running configuration in RAM and will be lost if the switch is rebooted or an interface goes down. To prevent the loss of learned MAC addresses, an administrator can save the running configuration into the startup configuration in NVRAM.","_incorrect":{"final":"When sticky learning is enabled, dynamically learned MAC addresses are stored in the running configuration in RAM and will be lost if the switch is rebooted or an interface goes down. To prevent the loss of learned MAC addresses, an administrator can save the running configuration into the startup configuration in NVRAM.","notFinal":""},"_partlyCorrect":{"final":"When sticky learning is enabled, dynamically learned MAC addresses are stored in the running configuration in RAM and will be lost if the switch is rebooted or an interface goes down. To prevent the loss of learned MAC addresses, an administrator can save the running configuration into the startup configuration in NVRAM.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i254770v1n2_254770.png\" alt=\"At the top of the graphic is a router labeled R1 that connects to a switch through R1 Gi0/0 and the switch Gi0/1 port. Below the switch are two hosts labeled H1 and H2 that connect using ports Fa0/1 and Fa0/2. Below H1 are the words VLAN 10. Below H2 are the words VLAN 20.   Beside the router are the following commands: R1(config)# interface gi0/0  R1(config-if)# no shutdown R1(config-if)# interface gi0/0.10 R1(config-subif)# encapsulation dot1q 10 R1(config-subif)# ip address 192.168.10.1 255.255.255.0 R1(config-if)# interface gi0/0.20 R1(config-subif)# encapsulation dot1q 20 R1(config-subif)# ip address 192.168.20.1 255.255.255.0    Beside the switch are the following commands: S1(config)# interface gi0/1  S1(config-if)# switchport mode trunk S1(config)# interface fa0/1  S1(config-if)# switchport mode access S1(config)# interface fa0/2  S1(config-if)# switchport mode access\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. The configuration shows commands entered by a network administrator for inter-VLAN routing. However, host H1 cannot communicate with H2. Which part of the inter-VLAN configuration causes the problem?</span></p>","_id":"bb875d9c443d4b939e5615f54c452b8c","_parentId":"b544283250cc48f48214cfb95b0f64ce","_type":"component","_layout":"full","_ravennaSourceID":"254770","_smvWiseScoring":{"ident":"it_254770","outcomes":{"decvar":[{"_varname":"641423","_maxvalue":1,"title":"correctness of response"},{"_varname":"641424","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"641423","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"641424","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"trunking","_shouldBeSelected":false,"feedback":""},{"text":"port mode on the two switch FastEthernet ports","_shouldBeSelected":false,"feedback":""},{"text":"VLAN configuration","_shouldBeSelected":true,"feedback":""},{"text":"router port configuration","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"All Cisco switch ports are assigned to VLAN 1 by default. For VLAN implementation, ports Fa0/1 and Fa0/2 should be assigned to VLAN 10 and VLAN 20, respectively.  The missing commands on S1 are as follows: <b>switchport access vlan 10</b> and <b>switchport access vlan 20</b>.","_incorrect":{"final":"All Cisco switch ports are assigned to VLAN 1 by default. For VLAN implementation, ports Fa0/1 and Fa0/2 should be assigned to VLAN 10 and VLAN 20, respectively.  The missing commands on S1 are as follows: <b>switchport access vlan 10</b> and <b>switchport access vlan 20</b>.","notFinal":""},"_partlyCorrect":{"final":"All Cisco switch ports are assigned to VLAN 1 by default. For VLAN implementation, ports Fa0/1 and Fa0/2 should be assigned to VLAN 10 and VLAN 20, respectively.  The missing commands on S1 are as follows: <b>switchport access vlan 10</b> and <b>switchport access vlan 20</b>.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">In what situation would a Layer 2 switch have an IP address configured?</span></p>","_id":"574314ae56bc48668b620ad537e82bd0","_parentId":"eaa346e91a0344afbffc53cca84d94bb","_type":"component","_layout":"full","_ravennaSourceID":"261304","_smvWiseScoring":{"ident":"it_261304","outcomes":{"decvar":[{"_varname":"644458","_maxvalue":1,"title":"correctness of response"},{"_varname":"644459","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"644458","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"644459","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"when the Layer 2 switch needs to forward user traffic to another device","_shouldBeSelected":false,"feedback":""},{"text":"when the Layer 2 switch is the default gateway of user traffic","_shouldBeSelected":false,"feedback":""},{"text":"when the Layer 2 switch needs to be remotely managed","_shouldBeSelected":true,"feedback":""},{"text":"when the Layer 2 switch is using a routed port","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"Layer 2 switches can be configured with an IP address so that they can be remotely managed by an administrator. Layer 3 switches can use an IP address on routed ports. Layer 2 switches do not need a configured IP address to forward user traffic or act as a default gateway.","_incorrect":{"final":"Layer 2 switches can be configured with an IP address so that they can be remotely managed by an administrator. Layer 3 switches can use an IP address on routed ports. Layer 2 switches do not need a configured IP address to forward user traffic or act as a default gateway.","notFinal":""},"_partlyCorrect":{"final":"Layer 2 switches can be configured with an IP address so that they can be remotely managed by an administrator. Layer 3 switches can use an IP address on routed ports. Layer 2 switches do not need a configured IP address to forward user traffic or act as a default gateway.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Consider the following command:<br /><br /><b>ip route 192.168.10.0 255.255.255.0 10.10.10.2 5</b><br /><br />What does the 5 at the end of the command signify?</span></p>","_id":"6be5e2116b6341c99d9efb2e9dc46c20","_parentId":"249995317c18434ea22b97a997949106","_type":"component","_layout":"full","_ravennaSourceID":"271166","_smvWiseScoring":{"ident":"it_271166","outcomes":{"decvar":[{"_varname":"673072","_maxvalue":1,"title":"correctness of response"},{"_varname":"673073","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"673072","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"673073","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"metric","_shouldBeSelected":false,"feedback":""},{"text":"exit interface","_shouldBeSelected":false,"feedback":""},{"text":"administrative distance","_shouldBeSelected":true,"feedback":""},{"text":"maximum number of hops to the 192.168.10.0/24 network","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The 5 at the end of the command signifies administrative distance. This value is added to floating static routes or routes that only appear in the routing table when the preferred route has gone down. The 5 at the end of the command signifies administrative distance configured for the static route. This value indicates that the  floating static route will appear in the routing table when the preferred route (with an administrative distance less than 5) is down.","_incorrect":{"final":"The 5 at the end of the command signifies administrative distance. This value is added to floating static routes or routes that only appear in the routing table when the preferred route has gone down. The 5 at the end of the command signifies administrative distance configured for the static route. This value indicates that the  floating static route will appear in the routing table when the preferred route (with an administrative distance less than 5) is down.","notFinal":""},"_partlyCorrect":{"final":"The 5 at the end of the command signifies administrative distance. This value is added to floating static routes or routes that only appear in the routing table when the preferred route has gone down. The 5 at the end of the command signifies administrative distance configured for the static route. This value indicates that the  floating static route will appear in the routing table when the preferred route (with an administrative distance less than 5) is down.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">On which port should Dynamic ARP Inspection (DAI) be configured on a switch?</span></p>","_id":"4bb34cbf20f9499ca9f97ae3540bb1d8","_parentId":"055acf6c01594c1eb64a10ff90b0a739","_type":"component","_layout":"full","_ravennaSourceID":"272347","_smvWiseScoring":{"ident":"it_272347","outcomes":{"decvar":[{"_varname":"678620","_maxvalue":1,"title":"correctness of response"},{"_varname":"678621","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"678620","_view":"All","interpret":"1 point for Option 10 points for any other option"},{"_varname":"678621","_view":"All","interpret":"2 points for Option 10 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"an uplink port to another switch","_shouldBeSelected":true,"feedback":""},{"text":"any untrusted port","_shouldBeSelected":false,"feedback":""},{"text":"access ports only","_shouldBeSelected":false,"feedback":""},{"text":"on any port where DHCP snooping is disabled","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"DHCP snooping must be enabled on a port where DAI is configured, because DAI requires the DHCP snooping table to operate. Only a trusted interface, such as an uplink port between switches, is configured to implement DAI. All access ports are untrusted.","_incorrect":{"final":"DHCP snooping must be enabled on a port where DAI is configured, because DAI requires the DHCP snooping table to operate. Only a trusted interface, such as an uplink port between switches, is configured to implement DAI. All access ports are untrusted.","notFinal":""},"_partlyCorrect":{"final":"DHCP snooping must be enabled on a port where DAI is configured, because DAI requires the DHCP snooping table to operate. Only a trusted interface, such as an uplink port between switches, is configured to implement DAI. All access ports are untrusted.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i273090v1n1_Item-273090.png\" alt=\"The graphic contains the following configuration commands: S1(config)# interface fa0/1                       S1(config-if)# switchport port-security              Command rejected: FastEthernet0/1 is a dynamic port. S1(config-if)#​\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. The administrator wants to enable port security on an interface on switch S1, but the command was rejected. Which conclusion can be drawn?​</span></p>","_id":"fd51fed71364413bb9fc10cf70299755","_parentId":"8935601ed9f44bee980bd01df0d3a1da","_type":"component","_layout":"full","_ravennaSourceID":"273090","_smvWiseScoring":{"ident":"it_273090","outcomes":{"decvar":[{"_varname":"678200","_maxvalue":1,"title":"correctness of response"},{"_varname":"678201","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"678200","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"678201","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The interface must be initially configured with the <b>switchport mode trunk</b> command.","_shouldBeSelected":false,"feedback":""},{"text":"The interface needs to be configured initially with an IP address.","_shouldBeSelected":false,"feedback":""},{"text":"The interface must be initially configured with the <b>switchport mode access</b> command.","_shouldBeSelected":true,"feedback":""},{"text":"The interface needs to be previously configured with the <b>no shutdown</b> command.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"To enable port security, use the <b>switchport <b></b>port-security</b> interface configuration command on an access port. By default, Layer 2 switch ports are set to dynamic auto (trunking on); therefore, the port must be initially configured as an access port before port security can be enabled.","_incorrect":{"final":"To enable port security, use the <b>switchport <b></b>port-security</b> interface configuration command on an access port. By default, Layer 2 switch ports are set to dynamic auto (trunking on); therefore, the port must be initially configured as an access port before port security can be enabled.","notFinal":""},"_partlyCorrect":{"final":"To enable port security, use the <b>switchport <b></b>port-security</b> interface configuration command on an access port. By default, Layer 2 switch ports are set to dynamic auto (trunking on); therefore, the port must be initially configured as an access port before port security can be enabled.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What are the two methods that a wireless NIC can use to discover an AP? (Choose two.)</span></p>","_id":"eabf5f9920f548f2a3100f354e4a9a2a","_parentId":"057b5d84f6d04f628ec78099b9a7c8eb","_type":"component","_layout":"full","_ravennaSourceID":"278679","_smvWiseScoring":{"ident":"it_278679","outcomes":{"decvar":[{"_varname":"861683","_maxvalue":1,"title":"correctness of response"}],"interpretvar":[{"_varname":"861683","_view":"All","interpret":"1 point for Option 3, Option 50 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"sending an ARP request broadcast","_shouldBeSelected":false,"feedback":""},{"text":"sending a multicast frame","_shouldBeSelected":false,"feedback":""},{"text":"transmitting a probe request","_shouldBeSelected":true,"feedback":""},{"text":"initiating a three-way handshake","_shouldBeSelected":false,"feedback":""},{"text":"receiving a broadcast beacon frame","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":2,"_feedback":{"title":"","correct":"Two methods can be used by a wireless device to discover and register with an access point: passive mode and active mode. In passive mode, the AP sends a broadcast beacon frame that contains the SSID and other wireless settings. In active mode, the wireless device must be manually configured for the SSID, and then the device broadcasts a probe request.","_incorrect":{"final":"Two methods can be used by a wireless device to discover and register with an access point: passive mode and active mode. In passive mode, the AP sends a broadcast beacon frame that contains the SSID and other wireless settings. In active mode, the wireless device must be manually configured for the SSID, and then the device broadcasts a probe request.","notFinal":""},"_partlyCorrect":{"final":"Two methods can be used by a wireless device to discover and register with an access point: passive mode and active mode. In passive mode, the AP sends a broadcast beacon frame that contains the SSID and other wireless settings. In active mode, the wireless device must be manually configured for the SSID, and then the device broadcasts a probe request.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which term describes the role of a Cisco switch in the 802.1X port-based access control?</span></p>","_id":"c5dcd763cb4a44e3a2644a804806bbe5","_parentId":"c377988f06bd4d97a7e964eab536b7fb","_type":"component","_layout":"full","_ravennaSourceID":"279418","_smvWiseScoring":{"ident":"it_279418","outcomes":{"decvar":[{"_varname":"700150","_maxvalue":1,"title":"correctness of response"},{"_varname":"700151","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"700150","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"700151","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"agent","_shouldBeSelected":false,"feedback":""},{"text":"supplicant","_shouldBeSelected":false,"feedback":""},{"text":"authenticator","_shouldBeSelected":true,"feedback":""},{"text":"authentication server","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"802.1X port-based authentication defines specific roles for the devices in the network:<ul><li><b>Client (Supplicant)</b> - The device that requests access to LAN and switch services</li><li><b>Switch (Authenticator)</b> - Controls physical access to the network based on the authentication status of the client</li><li><b>Authentication server</b> - Performs the actual authentication of the client</li></ul>","_incorrect":{"final":"802.1X port-based authentication defines specific roles for the devices in the network:<ul><li><b>Client (Supplicant)</b> - The device that requests access to LAN and switch services</li><li><b>Switch (Authenticator)</b> - Controls physical access to the network based on the authentication status of the client</li><li><b>Authentication server</b> - Performs the actual authentication of the client</li></ul>","notFinal":""},"_partlyCorrect":{"final":"802.1X port-based authentication defines specific roles for the devices in the network:<ul><li><b>Client (Supplicant)</b> - The device that requests access to LAN and switch services</li><li><b>Switch (Authenticator)</b> - Controls physical access to the network based on the authentication status of the client</li><li><b>Authentication server</b> - Performs the actual authentication of the client</li></ul>","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_id":"5d5b187fad6740c0ba852c281a3aa1bb","_parentId":"c789d7febdd142508717a7fc57c17768","_type":"component","_component":"objectMatching","_classes":"","_layout":"full","title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Match the dynamic routing protocol component to the characteristic. </span></p>","instruction":"","_attempts":1,"_isRandom":true,"_shouldDisplayAttempts":false,"_shouldResetAllAnswers":true,"_questionWeight":1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_recordInteraction":true,"_isQuestionRandom":true,"_isAnswerRandom":false,"_categoryTitle":"Categories:","_optionTitle":"Options:","_defaultAnswerBGColor":"#F2F2F2","placeholder":"Please select an option","_ravennaSourceID":"281302","_smvWiseScoring":{"ident":"it_281302","outcomes":{"decvar":[{"_varname":"obs0","_maxvalue":2,"title":"title"},{"_varname":"status","_maxvalue":0,"title":"status"}],"interpretvar":[{"_varname":"obs0","_view":"All","interpret":"description"},{"_varname":"status","_view":"All","interpret":"status"}]}},"_items":[{"question":"Tables or databases that are stored in RAM","answer":"Data structures","questionBGColor":"#F7F7B0"},{"question":"Exchanges routing information and maintains accurate information about networks","answer":"Routing protocol messages","questionBGColor":"#B0F7EB"},{"question":"A finite list of steps used to determine the best path","answer":"Algorithm","questionBGColor":"#F9D8D6"}],"_feedback":{"title":"","correct":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>Tables or databases that are stored in RAM</td><td>Data structures</td></tr><tr><td>Exchanges routing information and maintains accurate information about networks</td><td>Routing protocol messages</td></tr><tr><td>A finite list of steps used to determine the best path</td><td>Algorithm</td></tr></table>","_incorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>Tables or databases that are stored in RAM</td><td>Data structures</td></tr><tr><td>Exchanges routing information and maintains accurate information about networks</td><td>Routing protocol messages</td></tr><tr><td>A finite list of steps used to determine the best path</td><td>Algorithm</td></tr></table>","notFinal":""},"_partlyCorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>Tables or databases that are stored in RAM</td><td>Data structures</td></tr><tr><td>Exchanges routing information and maintains accurate information about networks</td><td>Routing protocol messages</td></tr><tr><td>A finite list of steps used to determine the best path</td><td>Algorithm</td></tr></table>","notFinal":""}},"_comment":"","_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""},"_pageLevelProgress":{"_isEnabled":true},"_menuTOC":{"_isEnabled":false},"_courseProgress":{"_isEnabled":true}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">A small coffee shop is offering free Wi-Fi to customers. The network includes a wireless router and a DSL modem that is connected to the local phone company. What method is typically used to configure the connection to the phone company?</span></p>","_id":"d212a7ee87d74d02a606ce50b366e702","_parentId":"94fdfafb2b0c4c8e8bb22be95d46db2b","_type":"component","_layout":"full","_ravennaSourceID":"282165","_smvWiseScoring":{"ident":"it_282165","outcomes":{"decvar":[{"_varname":"708331","_maxvalue":1,"title":"correctness of response"},{"_varname":"708332","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"708331","_view":"All","interpret":"1 point for Option 10 points for any other option"},{"_varname":"708332","_view":"All","interpret":"2 points for Option 10 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Set the WAN connection in the wireless router as a DHCP client.","_shouldBeSelected":true,"feedback":""},{"text":"Set the DSL modem as a DHCP client to get a public IP address from the wireless router.","_shouldBeSelected":false,"feedback":""},{"text":"Set the connection between the wireless router and the DSL modem as a private IP network.","_shouldBeSelected":false,"feedback":""},{"text":"Set the DSL modem as a DHCP client to the phone company and a DHCP server for the internal connection.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"In a SOHO environment, a wireless router connects to an ISP via a DSL or cable modem. The IP address between the wireless router and ISP site is typically assigned by the ISP through DHCP. The DSL modem does not manage IP address allocation.","_incorrect":{"final":"In a SOHO environment, a wireless router connects to an ISP via a DSL or cable modem. The IP address between the wireless router and ISP site is typically assigned by the ISP through DHCP. The DSL modem does not manage IP address allocation.","notFinal":""},"_partlyCorrect":{"final":"In a SOHO environment, a wireless router connects to an ISP via a DSL or cable modem. The IP address between the wireless router and ISP site is typically assigned by the ISP through DHCP. The DSL modem does not manage IP address allocation.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i282903v1n1_Routing5.png\" alt=\"The graphic shows the following text: R1# show ipv6 route  &lt;output omitted&gt;  S ::/0 [1/0] via Serial0/0/0, directly connected C 2001:DB8:CAFE:1::/64 [0/0] via GigabitEthernet0/1, directly connected L 2001:DB8:CAFE:1::1/128 [0/0] via GigabitEthernet0/1, receive C 2001:DB8:CAFE:2::/64 [0/0] via GigabitEthernet0/0, directly connected L 2001:DB8:CAFE:2::1/128 [0/0] via GigabitEthernet0/0, receive C 2001:DB8:CAFE:3::/64 [0/0] via Serial0/0/0, directly connected L 2001:DB8:CAFE:3::1/128 [0/0] via Serial0/0/0, receive S 2001:DB8:CAFE:4::1/128 [1/0] via Serial0/0/0, directly connected L FF00::/8 [0/0] via Null0, receive\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. How was the host route 2001:DB8:CAFE:4::1/128 installed in the routing table?</span></p>","_id":"aa11e138280f461f990d871ebe2899bf","_parentId":"4924fe5f57424075b864fbfdb5c10104","_type":"component","_layout":"full","_ravennaSourceID":"282903","_smvWiseScoring":{"ident":"it_282903","outcomes":{"decvar":[{"_varname":"711233","_maxvalue":1,"title":"correctness of response"},{"_varname":"711234","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"711233","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"711234","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The route was automatically installed when an IP address was configured on an active interface.","_shouldBeSelected":false,"feedback":""},{"text":"The route was dynamically learned from another router.","_shouldBeSelected":false,"feedback":""},{"text":"The route was manually entered by an administrator.","_shouldBeSelected":true,"feedback":""},{"text":"The route was dynamically created by router R1.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"A host route is an IPv6 route with a 128-bit mask. A host route can be installed in a routing table automatically when an IP address is configured on a router interface or manually if a static route is created.","_incorrect":{"final":"A host route is an IPv6 route with a 128-bit mask. A host route can be installed in a routing table automatically when an IP address is configured on a router interface or manually if a static route is created.","notFinal":""},"_partlyCorrect":{"final":"A host route is an IPv6 route with a 128-bit mask. A host route can be installed in a routing table automatically when an IP address is configured on a router interface or manually if a static route is created.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i282908v1n1_282908.png\" alt=\" \" style=\"min-width: 50%;\"></p><p><br />Gateway of last resort is not set<br /><br /> 10.0.0.0/30 is subnetted, 2 subnets<br />C 10.0.0.0 is directly connected, Serial0/0/0<br />C 10.0.0.4 is directly connected, Serial0/0/1<br /> 192.168.10.0/26 is subnetted, 3 subnets<br />S 192.168.10.0 is directly connected, Serial0/0/0<br />C 192.168.10.64 is directly connected, FastEthernet0/0<br />S 192.168.10.128 [1/0] via 10.0.0.6<br /></p><p><span style=\"color:#000000\">What will router R2 do with a packet destined for 192.168.10.129?</span></p>","_id":"214e1d07282b42938e482512e9a31844","_parentId":"30fff49357534bca80a5d4952c3f1545","_type":"component","_layout":"full","_ravennaSourceID":"282908","_smvWiseScoring":{"ident":"it_282908","outcomes":{"decvar":[{"_varname":"711247","_maxvalue":1,"title":"correctness of response"},{"_varname":"711248","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"711247","_view":"All","interpret":"1 point for Option 30 points for any other option"},{"_varname":"711248","_view":"All","interpret":"2 points for Option 30 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"drop the packet","_shouldBeSelected":false,"feedback":""},{"text":"send the packet out interface Serial0/0/0","_shouldBeSelected":false,"feedback":""},{"text":"send the packet out interface Serial0/0/1","_shouldBeSelected":true,"feedback":""},{"text":"send the packet out interface FastEthernet0/0","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When a static route is configured with the next hop address (as in the case of the 192.168.10.128 network), the output of the <b>show ip route</b> command lists the route as &quot;via&quot; a particular IP address. The router has to look up that IP address to determine which interface to send the packet out. Because the IP address of 10.0.0.6 is part of network 10.0.0.4, the router sends the packet out interface Serial0/0/1.","_incorrect":{"final":"When a static route is configured with the next hop address (as in the case of the 192.168.10.128 network), the output of the <b>show ip route</b> command lists the route as &quot;via&quot; a particular IP address. The router has to look up that IP address to determine which interface to send the packet out. Because the IP address of 10.0.0.6 is part of network 10.0.0.4, the router sends the packet out interface Serial0/0/1.","notFinal":""},"_partlyCorrect":{"final":"When a static route is configured with the next hop address (as in the case of the 192.168.10.128 network), the output of the <b>show ip route</b> command lists the route as &quot;via&quot; a particular IP address. The router has to look up that IP address to determine which interface to send the packet out. Because the IP address of 10.0.0.6 is part of network 10.0.0.4, the router sends the packet out interface Serial0/0/1.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_id":"75b66e0d64b54feaac0ae84e4b56fe59","_parentId":"2d141117533d4951abea4f0e9f5ebe6b","_type":"component","_component":"objectMatching","_classes":"","_layout":"full","title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Refer to the exhibit. Match the description with the routing table entries. </span></p>","instruction":"","_attempts":1,"_isRandom":true,"_shouldDisplayAttempts":false,"_shouldResetAllAnswers":true,"_questionWeight":1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_recordInteraction":true,"_isQuestionRandom":true,"_isAnswerRandom":false,"_categoryTitle":"Categories:","_optionTitle":"Options:","_defaultAnswerBGColor":"#F2F2F2","placeholder":"Please select an option","_ravennaSourceID":"283589","_smvWiseScoring":{"ident":"it_283589","outcomes":{"decvar":[{"_varname":"obs0","_maxvalue":2,"title":"Options matched to the correct selection."},{"_varname":"status","_maxvalue":0,"title":"status"}],"interpretvar":[{"_varname":"obs0","_view":"All","interpret":"Click on the question mark at the bottom of the item for the correct answer. There is no partial credit."},{"_varname":"status","_view":"All","interpret":"status"}]}},"_items":[{"question":"Next hop","answer":"172.16.2.2","questionBGColor":"#FDE4F9"},{"question":"Destination network","answer":"10.3.0.0","questionBGColor":"#B0F7C9"},{"question":"Metric","answer":"21024000","questionBGColor":"#FCC8A7"},{"question":"Administrative distance","answer":"1","questionBGColor":"#CAB5E6"},{"question":"Route timestamp","answer":"00:22:15","questionBGColor":"#E7F0DA"},{"question":"Route source protocol","answer":"D","questionBGColor":"#F9D8D6"}],"_feedback":{"title":"","correct":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>next hop</td><td>172.16.2.2</td></tr><tr><td>Destination network</td><td>10.3.0.0</td></tr><tr><td>Metric</td><td>21024000</td></tr><tr><td>Administrative distance</td><td>1</td></tr><tr><td>Route timestamp</td><td>00:22:15</td></tr><tr><td>Route source protocol</td><td>D</td></tr></table>","_incorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>next hop</td><td>172.16.2.2</td></tr><tr><td>Destination network</td><td>10.3.0.0</td></tr><tr><td>Metric</td><td>21024000</td></tr><tr><td>Administrative distance</td><td>1</td></tr><tr><td>Route timestamp</td><td>00:22:15</td></tr><tr><td>Route source protocol</td><td>D</td></tr></table>","notFinal":""},"_partlyCorrect":{"final":"<p>Place the options in the following order:</p><table class='table-feedback'><tr><td>next hop</td><td>172.16.2.2</td></tr><tr><td>Destination network</td><td>10.3.0.0</td></tr><tr><td>Metric</td><td>21024000</td></tr><tr><td>Administrative distance</td><td>1</td></tr><tr><td>Route timestamp</td><td>00:22:15</td></tr><tr><td>Route source protocol</td><td>D</td></tr></table>","notFinal":""}},"_comment":"","_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""},"_pageLevelProgress":{"_isEnabled":true},"_menuTOC":{"_isEnabled":false},"_courseProgress":{"_isEnabled":true}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i284503v1n1_284503.gif\" alt=\"The exhibit displays the following command and some partial output: S1# show etherchannel summary &lt;output omitted&gt; Number of channel-groups in use: 1Number of aggregators: 1 Group   Port-channel   Protocol    Ports 1       Po1(SU)          -        Fa0/10(P)  Fa0/11(p)\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. Based on the command output shown, what is the status of the EtherChannel?</span></p>","_id":"f309dbb9e26d43e1aa19be850774a6ba","_parentId":"af87049c3fab4374822efe1c41c1740f","_type":"component","_layout":"full","_ravennaSourceID":"284503","_smvWiseScoring":{"ident":"it_284503","outcomes":{"decvar":[{"_varname":"724006","_maxvalue":1,"title":"correctness of response"},{"_varname":"724007","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"724006","_view":"All","interpret":"1 point for Option 40 points for any other option"},{"_varname":"724007","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"The EtherChannel is dynamic and is using ports Fa0/10 and Fa0/11 as passive ports.","_shouldBeSelected":false,"feedback":""},{"text":"The EtherChannel is down as evidenced by the protocol field being empty.","_shouldBeSelected":false,"feedback":""},{"text":"The EtherChannel is partially functional as indicated by the P flags for the FastEthernet ports.","_shouldBeSelected":false,"feedback":""},{"text":"The EtherChannel is in use and functional as indicated by the SU and P flags in the command output.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"The command output shows the port channel as <b>SU</b>, which means <b>Layer 2</b> and <b>in use</b>; and the FastEthernet 0/10 and 0/11 interfaces  are <b>bundled in port-channel</b> as indicated by the <b>P</b> flag. Configuring the EtherChannel using the <b>channel-group 1 mode on</b> command will cause the Protocol field in the command output to be empty.","_incorrect":{"final":"The command output shows the port channel as <b>SU</b>, which means <b>Layer 2</b> and <b>in use</b>; and the FastEthernet 0/10 and 0/11 interfaces  are <b>bundled in port-channel</b> as indicated by the <b>P</b> flag. Configuring the EtherChannel using the <b>channel-group 1 mode on</b> command will cause the Protocol field in the command output to be empty.","notFinal":""},"_partlyCorrect":{"final":"The command output shows the port channel as <b>SU</b>, which means <b>Layer 2</b> and <b>in use</b>; and the FastEthernet 0/10 and 0/11 interfaces  are <b>bundled in port-channel</b> as indicated by the <b>P</b> flag. Configuring the EtherChannel using the <b>channel-group 1 mode on</b> command will cause the Protocol field in the command output to be empty.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i344612v1n2_Routing.png\" alt=\"In this graphic there are two routers, two switches, and two PCs. Router R2 is connected on interface S0/0/1 to interface S0/0/0 on Router R1 via a serial link with the network 10.0.0.0/30. The letters PPP are above the serial link. Router R1 is connected on Gig0/0 to switch SW2 and switch SW2 is connected to PC2. PC2 has an IP address of 192.168.11.2/24. Router R1 is connected via Gig0/1 to switch SW1 and switch SW1 is connected to PC1. PC1 has an IP address of 192.168.10.2/24 Below the graphic is the following output: R1# show ip route &lt;output omitted&gt;  Gateway of last resort is 0.0.0.0 to network 0.0.0.0  10.0.0.0/8 is variably subnetted, 2 subnets, 2 masks C 10.0.0.0/30 is directly connected, Serial0/0/0 L 10.0.0.1/32 is directly connected, Serial0/0/0 192.168.10.0/24 is variably subnetted, 2 subnets, 2 masks C 192.168.10.0/24 is directly connected, GigabitEthernet0/1 L 192.168.10.1/32 is directly connected, GigabitEthernet0/1 192.168.11.0/24 is variably subnetted, 2 subnets, 2 masks C 192.168.11.0/24 is directly connected, GigabitEthernet0/0 L 192.168.11.1/32 is directly connected, GigabitEthernet0/0 S* 0.0.0.0/0 is directly connected, Serial0/0/0\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. When a packet arrives on interface Serial0/0/0 on R1, with a destination IP address of PC1, which two events occur? (Choose two)</span></p>","_id":"8509d69dfa1b4d45ba0a12ce9a822855","_parentId":"9ef05eed32644fe581e0eb9ac2a71e1d","_type":"component","_layout":"full","_ravennaSourceID":"344612","_smvWiseScoring":{"ident":"it_344612","outcomes":{"decvar":[{"_varname":"853524","_maxvalue":1,"title":"correctness of response"},{"_varname":"853525","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"853524","_view":"All","interpret":"1 point for Option 2, Option 50 points for any other option"},{"_varname":"853525","_view":"All","interpret":"Option 2 and Option 5 are correct.1 point for each correct option.0 points if more options are selected than required."}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Router R1 will forward the packet out Gig0/0.","_shouldBeSelected":false,"feedback":""},{"text":"Router R1 will forward the packet out Gig0/1.","_shouldBeSelected":true,"feedback":""},{"text":"Router R1 will forward the packet out S0/0/0.","_shouldBeSelected":false,"feedback":""},{"text":"Router R1 will de-encapsulate the packet and encapsulate it in a PPP frame.","_shouldBeSelected":false,"feedback":""},{"text":"Router R1 will de-encapsulate the packet and encapsulate it in an Ethernet frame.","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":2,"_feedback":{"title":"","correct":"A router will look in the routing table for a destination network and locate an exit interface to forward a packet to a destination. After the exit interface is determined, the router will encapsulate a packet into the correct frame type.","_incorrect":{"final":"A router will look in the routing table for a destination network and locate an exit interface to forward a packet to a destination. After the exit interface is determined, the router will encapsulate a packet into the correct frame type.","notFinal":""},"_partlyCorrect":{"final":"A router will look in the routing table for a destination network and locate an exit interface to forward a packet to a destination. After the exit interface is determined, the router will encapsulate a packet into the correct frame type.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which Cisco solution helps prevent ARP spoofing and ARP poisoning attacks?</span></p>","_id":"64119471c0324f2883cca2094d9c89b0","_parentId":"c3f3703c9af3455ca525c6a2e2349bb2","_type":"component","_layout":"full","_ravennaSourceID":"349013","_smvWiseScoring":{"ident":"it_349013","outcomes":{"decvar":[{"_varname":"860752","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"860752","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Port Security","_shouldBeSelected":false,"feedback":""},{"text":"DHCP Snooping","_shouldBeSelected":false,"feedback":""},{"text":"IP Source Guard","_shouldBeSelected":false,"feedback":""},{"text":"Dynamic ARP Inspection","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"Cisco provides solutions to help mitigate Layer 2 attacks. The solutions include the following:<br /><ul><li><b>IP Source Guard (IPSG)</b> - prevents MAC and IP address spoofing attacks</li><li><b>Dynamic ARP Inspection (DAI)</b> - prevents ARP spoofing and ARP poisoning attacks</li><li><b>DHCP Snooping</b> - prevents DHCP starvation and SHCP spoofing attacks</li><li><b>Port Security</b> - prevents many types of attacks including MAC table overflow attacks and DHCP starvation attacks</li></ul>","_incorrect":{"final":"Cisco provides solutions to help mitigate Layer 2 attacks. The solutions include the following:<br /><ul><li><b>IP Source Guard (IPSG)</b> - prevents MAC and IP address spoofing attacks</li><li><b>Dynamic ARP Inspection (DAI)</b> - prevents ARP spoofing and ARP poisoning attacks</li><li><b>DHCP Snooping</b> - prevents DHCP starvation and SHCP spoofing attacks</li><li><b>Port Security</b> - prevents many types of attacks including MAC table overflow attacks and DHCP starvation attacks</li></ul>","notFinal":""},"_partlyCorrect":{"final":"Cisco provides solutions to help mitigate Layer 2 attacks. The solutions include the following:<br /><ul><li><b>IP Source Guard (IPSG)</b> - prevents MAC and IP address spoofing attacks</li><li><b>Dynamic ARP Inspection (DAI)</b> - prevents ARP spoofing and ARP poisoning attacks</li><li><b>DHCP Snooping</b> - prevents DHCP starvation and SHCP spoofing attacks</li><li><b>Port Security</b> - prevents many types of attacks including MAC table overflow attacks and DHCP starvation attacks</li></ul>","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">Which statement describes the behavior of a switch when the MAC address table is full?</span></p>","_id":"1cdbab6cb2404a0ba49bcc3ac4a2f4f9","_parentId":"2bf775402bdf42f6a0e9c26cad5f308b","_type":"component","_layout":"full","_ravennaSourceID":"349016","_smvWiseScoring":{"ident":"it_349016","outcomes":{"decvar":[{"_varname":"860824","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"860824","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"It treats frames as unknown unicast and floods all incoming frames to all ports on the switch.","_shouldBeSelected":false,"feedback":""},{"text":"It treats frames as unknown unicast and floods all incoming frames to all ports within the local VLAN.","_shouldBeSelected":true,"feedback":""},{"text":"It treats frames as unknown unicast and floods all incoming frames to all ports within the collision domain.","_shouldBeSelected":false,"feedback":""},{"text":"It treats frames as unknown unicast and floods all incoming frames to all ports across multiple switches.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When the MAC address table is full, the switch treats the frame as an unknown unicast and begins to flood all incoming traffic to all ports only within the local VLAN.","_incorrect":{"final":"When the MAC address table is full, the switch treats the frame as an unknown unicast and begins to flood all incoming traffic to all ports only within the local VLAN.","notFinal":""},"_partlyCorrect":{"final":"When the MAC address table is full, the switch treats the frame as an unknown unicast and begins to flood all incoming traffic to all ports only within the local VLAN.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><img loading=\"eager\" src=\"en-US/assets/i349105v8n1_349105.png\" alt=\"The graphic shows configuration commands:\n\nSW1(config)# ip arp inspection validate ip\nSW1(config)# ip arp inspection validate src-mac\nSW1(config)# ip arp inspection validate dst-mac\nSW1(config)# end\nSW1(config)#\" style=\"min-width: 50%;\"></p><p><span style=\"color:#000000\">Refer to the exhibit. A network administrator is configuring DAI on switch SW1. What is the result of entering the exhibited commands?</span></p>","_id":"67f7c1dba91344f7af34970d16e5ba1d","_parentId":"e5640ca74c674703903092343e905a30","_type":"component","_layout":"full","_ravennaSourceID":"349105","_smvWiseScoring":{"ident":"it_349105","outcomes":{"decvar":[{"_varname":"861504","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"861504","_view":"All","interpret":"2 points for Option 20 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"DAI will validate only the IP addresses.","_shouldBeSelected":false,"feedback":""},{"text":"DAI will validate only the destination MAC addresses.","_shouldBeSelected":true,"feedback":""},{"text":"DAI will validate both source and destination MAC addresses as well as the IP addresses in the order specified. When one set of parameters are valid, the ARP packet is allowed to pass.","_shouldBeSelected":false,"feedback":""},{"text":"DAI will validate both source and destination MAC addresses as well as the IP addresses in the order specified. If all parameters are valid then the ARP packet is allowed to pass.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"DAI can be configured to check for destination MAC, source MAC, and IP addresses. However, only one <b>ip arp inspection validate</b> command can be configured. Entering multiple <b>ip arp inspection validate</b> commands overwrites the previous command.","_incorrect":{"final":"DAI can be configured to check for destination MAC, source MAC, and IP addresses. However, only one <b>ip arp inspection validate</b> command can be configured. Entering multiple <b>ip arp inspection validate</b> commands overwrites the previous command.","notFinal":""},"_partlyCorrect":{"final":"DAI can be configured to check for destination MAC, source MAC, and IP addresses. However, only one <b>ip arp inspection validate</b> command can be configured. Entering multiple <b>ip arp inspection validate</b> commands overwrites the previous command.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">A network administrator of a college is configuring WLAN security with WPA2 Enterprise authentication. Which server is required when deploying this type of authentication?</span></p>","_id":"7a6217c8a19648c6aa4238707bb0b543","_parentId":"1865582c682549158410094603321464","_type":"component","_layout":"full","_ravennaSourceID":"349525","_smvWiseScoring":{"ident":"it_349525","outcomes":{"decvar":[{"_varname":"861885","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"861885","_view":"All","interpret":"2 points for Option 40 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"AAA","_shouldBeSelected":false,"feedback":""},{"text":"DHCP","_shouldBeSelected":false,"feedback":""},{"text":"SNMP","_shouldBeSelected":false,"feedback":""},{"text":"RADIUS","_shouldBeSelected":true,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"WAP2 Enterprise provides stronger secure user authentication than WPA2 PSK does. Instead of using a pre-shared key for all users to access a WLAN, WPA2 Enterprise requires that users enter their own username and password credentials to be authenticated before they can access the WLAN. The RADIUS server is required for deploying WPA2 Enterprise authentication.","_incorrect":{"final":"WAP2 Enterprise provides stronger secure user authentication than WPA2 PSK does. Instead of using a pre-shared key for all users to access a WLAN, WPA2 Enterprise requires that users enter their own username and password credentials to be authenticated before they can access the WLAN. The RADIUS server is required for deploying WPA2 Enterprise authentication.","notFinal":""},"_partlyCorrect":{"final":"WAP2 Enterprise provides stronger secure user authentication than WPA2 PSK does. Instead of using a pre-shared key for all users to access a WLAN, WPA2 Enterprise requires that users enter their own username and password credentials to be authenticated before they can access the WLAN. The RADIUS server is required for deploying WPA2 Enterprise authentication.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What is a potential issue when using the WLC to upgrade and deploy the latest firmware image to all APs?</span></p>","_id":"c58a1cfe73a74fe6b27da7972f78084a","_parentId":"aa086b5a4a35497398ae2d1294808f12","_type":"component","_layout":"full","_ravennaSourceID":"349533","_smvWiseScoring":{"ident":"it_349533","outcomes":{"decvar":[{"_varname":"865758","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"865758","_view":"All","interpret":"2 points for Option 10 points for any other option"}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"Users will not be able to use the WLAN.","_shouldBeSelected":true,"feedback":""},{"text":"Only one of the two bands would work at a time.","_shouldBeSelected":false,"feedback":""},{"text":"Old 802.11 standards may not be supported anymore.","_shouldBeSelected":false,"feedback":""},{"text":"Usernames and passwords must be manually entered into the AP so that WLAN authentication continues during the upgrade.","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":1,"_feedback":{"title":"","correct":"When APs are performing a firmware upgrade, users will be disconnected from the WLAN and the internet until the upgrade finishes. The wireless router may need to reboot several times before normal network operations are restored.","_incorrect":{"final":"When APs are performing a firmware upgrade, users will be disconnected from the WLAN and the internet until the upgrade finishes. The wireless router may need to reboot several times before normal network operations are restored.","notFinal":""},"_partlyCorrect":{"final":"When APs are performing a firmware upgrade, users will be disconnected from the WLAN and the internet until the upgrade finishes. The wireless router may need to reboot several times before normal network operations are restored.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What are two switch characteristics that could help alleviate network congestion? (Choose two.)</span></p>","_id":"8dc5690bb167467a8f6038b56b07eed3","_parentId":"ecbdac3c5bd34a05a80c0667a3dabc32","_type":"component","_layout":"full","_ravennaSourceID":"349631","_smvWiseScoring":{"ident":"it_349631","outcomes":{"decvar":[{"_varname":"862335","_maxvalue":2,"title":"correctness of response"}],"interpretvar":[{"_varname":"862335","_view":"All","interpret":"Option 1 and Option 3 are correct.1 point for each correct option.0 points if more options are selected than required."}]}},"_onScreen":{"_isEnabled":false,"_classes":"","_percentInviewVertical":50},"_pageLevelProgress":{"_isEnabled":true,"_isCompletionIndicatorEnabled":false},"_courseProgress":{"_isEnabled":true},"instruction":"","_items":[{"text":"fast internal switching","_shouldBeSelected":true,"feedback":""},{"text":"frame check sequence (FCS) check","_shouldBeSelected":false,"feedback":""},{"text":"large frame buffers","_shouldBeSelected":true,"feedback":""},{"text":"low port density","_shouldBeSelected":false,"feedback":""},{"text":"store-and-forward switching","_shouldBeSelected":false,"feedback":""}],"_attempts":-1,"_canShowModelAnswer":false,"_canShowFeedback":false,"_canShowMarking":true,"_shouldDisplayAttempts":false,"_isRandom":true,"_recordInteraction":true,"_questionWeight":1,"_selectable":2,"_feedback":{"title":"","correct":"Switch characteristics that help alleviate network congestion include fast port speeds, fast internal switching, large frame buffers, and high port density.","_incorrect":{"final":"Switch characteristics that help alleviate network congestion include fast port speeds, fast internal switching, large frame buffers, and high port density.","notFinal":""},"_partlyCorrect":{"final":"Switch characteristics that help alleviate network congestion include fast port speeds, fast internal switching, large frame buffers, and high port density.","notFinal":""}},"_buttons":{"_submit":{"buttonText":"","ariaLabel":""},"_reset":{"buttonText":"","ariaLabel":""},"_showCorrectAnswer":{"buttonText":"","ariaLabel":""},"_hideCorrectAnswer":{"buttonText":"","ariaLabel":""},"_showFeedback":{"buttonText":"","ariaLabel":""},"remainingAttemptsText":"","remainingAttemptText":""}},{"_component":"mcq","_classes":"background-colour1","_isOptional":false,"_isAvailable":true,"title":"Question","displayTitle":"Question","body":"<p><span style=\"color:#000000\">What are two characteristics of Cisco Express Forwarding (CEF)? 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