activity map
DESCRIPTION
aTRANSCRIPT
Purpose
What is this?This document outlines the course content for Introduction to Networks v5.0 and details all labs and activities, including Hands-on Labs, Packet Tracer Activities, Interactive Media Activities, and Syntax Checker Activities.Where are the objectives for each section and chapter?A complete listing of the course objectives is located at CCNA Routing and Switching (Instructor Resources).Why do I want this document?This document is intended to show instructors how each chapter's labs and activities integrate into the course content, and to assist instructors in planning how students can complete those activities within the time constraints of their course offering. An instructor might use this as a resource while creating weekly lesson plans. For example, an instructor will make decisions on when to provide direct instruction; and will plan when and where students will complete labs and activities both in class and outside of class.How is this document structured?There is a worksheet for each chapter of this course which provides an outline of the chapter content and how the activities are placed within that content.
There are tabs for each course chapter. Each tab outlines the chapter and details all labs and activities. The details of each lab or activity include its page within the course, the type of activity, the learning objectives, and equipment needed to complete the lab.How do I display specific types of activities for a chapter?Each column contains an AutoFilter dropdown list.
Selecting (NonBlanks) in the Activity/Lab column will display all of the labs and activities for that chapter.
Additional filters can be used to display only the: Hands-on Labs PT Activities Interactive Media Activities Syntax Checker ActivitiesWhat are Hands-on Labs?These activities use physical equipment in a classroom. Routers, switches, and different types of cabling are used to provide learning support for the curriculum content. In some instances, the PDF accompanying the Hands-on Labs may require students to answer general and reflection questions about the objectives specified in the labs.What are the different types of Packet Tracer activities?There are two types of PT activities included in the course: PT Activity: Skills Practice -- These e-doing activities guide students through a specific skillset, providing just-in-time skills reinforcement and practice. PT Activity: Skills Integration Challenge -- These summary activities provide a skills integration challenge which build upon skills learned in this chapter and in previous chapters.
It is important to note that Packet Tracer was not designed to replace the use of physical equipment in a classroom. Packet Tracer is more than a network lab simulator, providing many other opportunities for instruction and learning.What are Syntax Checker and Interactive Media Activities?Syntax Checker and Interactive Media Activities are found in the content sections of the course. These types of activities focus on providing command-configuration practice and learning checks of the content sections and topics. They are integral to student learning and understanding of the content principles.
ITN_Ch1Introduction to Networks - Chapter 1, Exploring the Network
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 1.0 Introduction1.0.1 Introduction1.0.1.1 Introduction1.0.1.2 ActivityClass ActivityDraw Your Concept of the InternetDemonstrate how networks are made of many different components by drawing how the Internet connects to a home or school/university location.Activity PDFDevice with Internet accessSection 1.1 Globally Connected1.1.1 Networking Today1.1.1.1 Networks in Our Daily Lives1.1.1.2 Technology Then and Now1.1.1.3 The Global Community1.1.1.4 Networks Support the Way We Learn1.1.1.5 Networks Support the Way We Communicate1.1.1.6 Networks Support the Way We Work1.1.1.7 Networks Support the Way We Play1.1.1.8 ActivityHands-On LabResearching Network Collaboration ToolsIdentify network collaboration tools. Research popular collaborative tools. Work with Google Drive.Investigate conferencing and Internet meeting tools. Create a wiki page.Activity PDFDevice with Internet access1.1.2 Providing Resources in a Network1.1.2.1 Networks of Many Sizes1.1.2.2 Clients and Servers1.1.2.3 Clients and Servers (Cont.)1.1.2.4 Peer-to-PeerSection 1.2 LANs, WANs, and the Internet1.2.1 Components of a Network1.2.1.1 Components of the Network1.2.1.2 End Devices1.2.1.3 Intermediary Network Devices1.2.1.4 Network Media1.2.1.5 Network Representations1.2.1.6 Topology Diagrams1.2.1.7 ActivityInteractive ActivityNetwork Component Representations and FunctionsIdentify the common components of a network based on the function of the component. Recognize the relationship of network functions to device names/icons.Curriculum content1.2.2 LANs and WANs1.2.2.1 Types of Networks1.2.2.2 Local Area Networks1.2.2.3 Wide Area Networks1.2.3 The Internet1.2.3.1 The Internet1.2.3.2 Intranet and Extranet1.2.3.3 ActivityHands-On LabResearching Converged Network ServicesDescribe network convergence. Research, compare, and contrast ISPs offering converged services. Identify companies or public institutions that use convergence technologies.Activity PDFDevice with Internet access1.2.4 Connecting to the Internet1.2.4.1 Internet Access Technologies1.2.4.2 Connecting Remote Users to the Internet1.2.4.3 Connecting Businesses to the Internet1.2.4.4 ActivityPacket Tracer LabNetwork RepresentationAccess the Packet Tracer Help pages, tutorial videos, and online resources. Identify common network components.Explain the purpose of network devices.Activity PDFPacket Tracer Section 1.3 The Network as a Platform1.3.1 Converged Networks1.3.1.1 The Converging Network1.3.1.2 Planning for the Future1.3.1.3 ActivityHands-On LabMapping the InternetTest network connectivity using ping. Trace a route to a remote server using tracert, web-based, and software tools. Compare traceroute results.Activity PDFDevice with Internet access1.3.2 Reliable Network1.3.2.1 The Supporting Network Architecture1.3.2.2 Fault Tolerance in Circuit-Switched Networks1.3.2.3 Fault Tolerance in Packet-Switched Networks1.3.2.4 Scalable Networks1.3.2.5 Providing QoS1.3.2.6 Providing Network Security1.3.2.7 ActivityInteractive ActivityReliable Networks - Network Architecture RequirementsIdentify network architecture requirements by their characteristics and features.Curriculum contentSection 1.4 The Changing Network Environment1.4.1 Network Trends1.4.1.1 New Trends1.4.1.2 BYOD1.4.1.3 Online Collaboration 1.4.1.4 Video Communication1.4.1.5 Cloud Computing1.4.1.6 Data Centers1.4.2 Networking Technologies for the Home1.4.2.1 Technology Trends in the Home1.4.2.2 Powerline Networking1.4.2.3 Wireless Broadband 1.4.3 Network Security1.4.3.1 Security Threats1.4.3.2 Security Solutions1.4.3.3 ActivityInteractive ActivityNetwork Security TerminologyIdentify network security terms by their associated definitions.Curriculum content1.4.4 Network Architectures1.4.4.1 Cisco Network Architectures1.4.4.2 CCNA1.4.4.3 LabHands-On LabResearching IT and Networking Job OpportunitiesIdentify networking careers currently in demand in the job market. Explain the value of Cisco certifications. Identify current hiring trends in information technology and networking. Identify future networking career certifications, skills, and career paths.Activity PDFDevice with Internet accessSection 1.5 Summary1.5.1 Summary1.5.1.1 ActivityClass ActivityDraw Your Concept of the Internet NowIdentify common components of a network.Identify how network components connect to form an Internet. Draw or construct a network topology using representative, standard network-component icons. Activity PDFPacket Tracer1.5.1.2 Summary
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ITN_Ch2Introduction to Networks - Chapter 2, Configuring a Network Operating System
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 2.0 Configuring a Network Operating System2.0.1 Introduction2.0.1.1 Introduction to Cisco IOS2.0.1.2 ActivityClass ActivityIt Is Just an Operating System!Describe the command structure of Cisco IOS software.Activity PDFSection 2.1 IOS Bootcamp2.1.1 Cisco IOS2.1.1.1 Operating Systems2.1.1.2 Purpose of OS2.1.1.3 Location of the Cisco IOS2.1.1.4 IOS Functions2.1.1.5 (Video) CCO Accounts and IOS Image Exploration2.1.2 Accessing a Cisco IOS Device2.1.2.1 Console Access Method2.1.2.2 Telnet, SSH, and AUX Access Methods2.1.2.3 Terminal Emulation Programs2.1.2.4 ActivityInteractive ActivityAccess MethodsSelect the most appropriate access method for each scenario.Curriculum content2.1.3 Navigating the IOS2.1.3.1 Cisco IOS Modes of Operation2.1.3.2 Primary Modes2.1.3.3 Global Configuration Mode and Submodes2.1.3.4 Navigating Between IOS Modes2.1.3.5 Navigating Between IOS Modes (Cont.)2.1.3.6 (Video) Navigating the IOS2.1.4 The Command Structure2.1.4.1 IOS Command Structure2.1.4.2 Cisco IOS Command Reference2.1.4.3 Contest-Sensitive Help2.1.4.4 Command Syntax Check2.1.4.5 Hot Keys and Shortcuts2.1.4.6 IOS Examination Commands2.1.4.7 The show version Command2.1.4.8 ActivityPacket Tracer LabNavigating the IOSExplore basic physical network connections, access the CLI, and explore IOS Help methods.Explore privileged EXEC mode and issue additional commands.Explore clock commands; change date and time settings.Activity PDFPacket Tracer2.1.4.9 ActivityHands-On LabEstablishing a Console Session with Tera TermConnect to a Cisco switch using a serial console cable.Establish a console session using a terminal emulator, such as Tera Term.Use show commands to display device settings.Configure the clock on the switch.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable) 1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Rollover console cable (DB-9 to RJ-45) to configure the switch or router via the RJ-45 console portMini-USB cable to configure the router via the USB console portSection 2.2 Getting Basic2.2.1 Hostnames2.2.1.1 Why the Switch2.2.1.2 Device Names2.2.1.3 Hostnames2.2.1.4 ActivitySyntax CheckerConfigure IOS HostnameConfigure a hostname on a switch using the Cisco IOS.Curriculum content2.2.2 Limiting Access to Device Configurations2.2.2.1 Securing Device Access2.2.2.2 Securing Privileged EXEC Access2.2.2.3 Securing User Exec Access2.2.2.4 ActivitySyntax CheckerConfiguring Encrypted Password DisplayConfigure encrypted passwords.Validate encrypted password(s) configuration.Curriculum content2.2.2.5 Banner Messages2.2.3 Saving Configurations2.2.3.1 ActivitySyntax CheckerConfiguration FilesSave the running confiration stored in RAM to NVRAM.Erase a switch and restore it to its default "out-of-the-box" configuration.View the default "out-of-the-box" configuration.Curriculum content2.2.3.2 Capturing Text2.2.3.3 ActivityPacket Tracer LabConfiguring Initial Switch SettingsVerify the default switch configuration.Complete a basic switch configuration.Configure a MOTD Banner.Save configuration files to NVRAM.Show competency of lab objectives by configuring an additional switch.Activity PDFPacket TracerSection 2.3 Address Schemes2.3.1 Ports and Addresses2.3.1.1 IP Addressing of Devices2.3.1.2 Interfaces and Ports2.3.2 Addressing Devices2.3.2.1 ActivitySyntax CheckerConfiguring a Switch Virtual InterfaceConfigure an IP address on a switch.Activate a switch interface.Curriculum content2.3.2.2 Manual IP Address Configuration for End Devices2.3.2.3 ActivitySyntax CheckerAutomatic IP Address Configuration for End DevicesDisplay the IP configuration on a Windows PC.Curriculum content2.3.2.4 IP Address Conflicts2.3.2.5 ActivityPacket Tracer LabImplementing Basic ConnectivityPerform a basic configuration of two switches.Configure PCs with IP addressing.Configure switch management interfaces.Use various IOS commands to verify configurations and connectivity between devices.Activity PDFPacket Tracer software2.3.3 Verifying Connectivity2.3.3.1 ActivitySyntax CheckerTest the Loopback Address on an End DeviceUse the ping command to test a loopback address on a Windows PC.Curriculum content2.3.3.2 ActivitySyntax CheckerVerifying the VLAN Interface AssignmentShow and verify switch interfaces and configurations.Verify VLAN interface settings.Curriculum content2.3.3.3 ActivitySyntax CheckerTesting End-to-End ConnectivityVerify VLAN interface connectivity and settings.Use the ping command to test PC-to-switch connectivity.Curriculum content2.3.3.4 ActivityHands-On LabBuilding a Simple NetworkIdentify cables and ports for use in a network.Cable a physical lab topology.Enter static IP addresses on PCs.Verify connectivity between PCs.Configure switches with hostnames, local passwords, and login banners.Save the running configurations.Display IOS version information.Display interface status.Activity PDF2 Switches (Cisco 2960 with Cisco IOS 15.0(2) lanbasek9 image or comparable)2 PCs (Windows 7, Vista, or XP with terminal emulation program such as Tera Term)Console cablesEthernet cables2.3.3.5 ActivityHands-On LabConfiguring a Switch Management AddressBuild a simple network using Ethernet cabling.Access a Cisco switch using console and remote-access methods.Configure basic switch settings (hostname, management address, and Telnet access).Configure an IP address on a PC.Display and verify device configurations.Test end-to-end network connectivity.Test remote management functionality using Telnet.Save switch running configuration to NVRAM.Activity PDF1 Switch (Cisco 2960 with IOS 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cablesEthernet cablesSection 2.4 Summary2.4.1 Summary2.4.1.1 ActivityClass ActivityTutor MeDevise and build a simple network topology.Configure initial settings for the devices included in the topology.Explain how the Cisco IOS operates, the meaning of configuration commands, and how to optimize command groupings for minimal count-of-mode changes.Activity PDFPacket Tracer2.4.1.2 ActivityPacket Tracer LabSkills Integration ChallengeConfigure hostnames and IP addresses using the command-line interface (CLI).Use Cisco commands to specify or limit access to device configurations.Use IOS commands to save the running configuration.Configure host devices with IP addresses.Verify connectivity between all devices.Activity PDFPacket Tracer2.4.1.3 Summary
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ITN_Ch3Introduction to Networks - Chapter 3, Network Protocols and Communications
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 3.0 Network Protocols and Communications3.0.1 Introduction3.0.1.1 Introduction3.0.1.2 ActivityClass ActivityLet's just talk about thisExplain the role of protocols and standards organizations in facilitating interoperability in network communications.Activity PDFSection 3.1 Rules of Communication3.1.1 The Rules3.1.1.1 What is Communication?3.1.1.2 Establishing the Rules3.1.1.3 Message Encoding3.1.1.4 Message Formatting and Encapsulation3.1.1.5 Message Size3.1.1.6 Message Timing3.1.1.7 Message Delivery OptionsSection 3.2 Network Protocols and Standards3.2.1 Protocols3.2.1.1 Protocols: Rules that Govern Communications3.2.1.2 Network Protocols3.2.1.3 Interaction of Protocols3.2.2 Protocol Suites3.2.2.1 Protocol Suites and Industry Standards3.2.2.2 Creation of the Internet and Development of TCP/IP3.2.2.3 TCP/IP Protocol Suite and Communication Process3.2.2.4 ActivityInteractive ActivityMapping the Protocols of the TCP/IP SuiteIdentify the functions of the TCP/IP layers by protocol names. Curriculum content3.2.3 Standards Organizations3.2.3.1 Open Standards3.2.3.2 ISOC, IAB, and IETF3.2.3.3 IEEE3.2.3.4 ISO3.2.3.5 Other Standards Organizations3.2.3.6 ActivityHands-on LabResearching Network StandardsGather information about the major networking standards organizations by going on a web surfing treasure hunt.Identify important characteristics of some of the major networking standards organizations.Activity PDFDevice with Internet access3.2.3.7 ActivityInteractive ActivityStandards Body Scavenger HuntDifferentiate six networking standards organizations by descriptions and functions.Curriculum content3.2.4 Reference Models3.2.4.1 The Benefits of Using a Layered Model3.2.4.2 The OSI Reference Model3.2.4.3 The TCP/IP Protocol Model3.2.4.4 Comparing the OSI Model with the TCP/IP Model3.2.4.5 ActivityInteractive ActivityIdentify Layers and FunctionsIdentify the OSI model layers by functional descriptions.Identify the TCP/IP model layers by functional descriptions.Curriculum content3.2.4.6 ActivityPacket Tracer LabInvestigating the TCP/IP and OSI Models in ActionGenerate and examine HTTP (web) protocol data traffic.Display elements of the TCP/IP protocol suite.Activity PDFPacket Tracer software3.2.4.7 ActivityHands-on LabResearching RFCsUtilize the RFC Editor.Use keywords to search for published RFCs.Find RFCs by status.Identify RFC draft proposals for publication.Activity PDFDevice with Internet accessSection 3.3 Moving Data in the Network3.3.1 Data Encapsulation3.3.1.1 Communicating the Messages3.3.1.2 Protocol Data Units (PDUs)3.3.1.3 Encapsulation3.3.1.4 De-encapsulation3.3.1.5 ActivityInteractive ActivityIdentify the PDU LayerUse the encapsulation process to Identify the PDU types in relation to their associated TCP/IP model layer locations.Curriculum content3.3.2 Accessing Local Resources3.3.2.1 Network Addresses and Data Link Addresses3.3.2.2 Communicating with a Device on the Same Network3.3.2.3 MAC and IP Addresses3.3.3 Accessing Remote Resources3.3.3.1 Default Gateway3.3.3.2 Communicating with a Device on a Remote Network3.3.3.3 ActivityPacket Tracer LabExplore a NetworkUse Packet Tracer Realtime and Simulation modes.Generate traffic using a web browser to identify protocol traffic types.Compare displayed protocol types to the associated OSI model layers.Observe traffic flow through different network devices.Activity PDFPacket Tracer 3.3.3.4 ActivityHands-on LabUsing Wireshark to View Network Traffic(optional) Download and install the Wireshark software program.Capture and analyze local ICMP data using Wireshark.Capture and analyze remote ICMP data using Wireshark.Activity PDF1 PC (Windows 7, Vista, or XP with Internet access)Additional PCs on a LAN (to be used to reply ICMP requests)Section 3.4 Summary3.4.1 Summary3.4.1.1 ActivityClass ActivityGuaranteed to Work!Explain the role of protocols and standards organizations by comparing an everyday situation to established network protocol procedures and standards.Activity PDF3.4.1.2 Summary
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ITN_Ch4Introduction to Networks - Chapter 4, Network Access
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 4.0 Network Access4.0.1 Introduction4.0.1.1 Introduction4.0.1.2 ActivityClass ActivityManaging the MediumDescribe the purpose and function of the data link layer in preparing communication for transmission on specific media.Activity PDFSection 4.1 Physical Layer Protocols4.1.1 Getting It Connected4.1.1.1 Connecting to the Network4.1.1.2 Network Interface Cards4.1.2 Purpose of the Physical Layer4.1.2.1 The Physical Layer4.1.2.2 Physical Layer Media4.1.2.3 Physical Layer Standards4.1.2.4 ActivityHands-on LabIdentifying Network Devices and CablingIdentify network devices by describing their functions and physical characteristics.Describe the functions and physical characteristics of network media.Activity PDF4.1.3 Fundamental Principles of Layer 14.1.3.1 Physical Layer Fundamental Principles4.1.3.2 Bandwidth4.1.3.3 Throughput4.1.3.4 Types of Physical Media4.1.3.5 ActivityInteractive ActivityPhysical Layer TerminologyIdentify physical layer terms by description.Curriculum contentSection 4.2 Network Media4.2.1 Copper Cabling4.2.1.1 Characteristics of Copper Media4.2.1.2 Copper Media4.2.1.3 Unshielded Twisted-Pair Cable4.2.1.4 Shielded Twisted-Pair (STP) Cable4.2.1.5 Coaxial Cable4.2.1.6 Copper Media Safety4.2.1.7 ActivityInteractive ActivityCopper Media CharacteristicsIdentify copper media types by characteristics.Curriculum content4.2.2 UTP Cabling4.2.2.1 Properties of UTP Cabling4.2.2.2 UTP Cabling Standards4.2.2.3 (video) UTP Connectors4.2.2.4 Types of UTP Cable4.2.2.5 Testing UTP Cables4.2.2.6 ActivityInteractive ActivityCable PinoutsConstruct a UTP 568B, straight-through cable by placing the wire colors in the correct order on the RJ-45 image in the graphic.Curriculum content4.2.2.7 ActivityHands-on LabBuilding an Ethernet Crossover CableAnalyze Ethernet cabling standards and pinouts.Build an Ethernet crossover cable.Test an Ethernet crossover cable.Activity PDF1 Category 5 or 5e cable (length 2 to 3 feet)2 RJ-45 connectorsRJ-45 crimping toolWire cutterWire stripperEthernet cable tester (optional)2 PCs (Windows 7, Vista, or XP)4.2.3 Fiber Optic Cabling4.2.3.1 Properties of Fiber Optic Cabling4.2.3.2 Fiber Media Cable Design4.2.3.3 Types of Fiber Media4.2.3.4 Network Fiber Connectors4.2.3.5 Testing Fiber Cables4.2.3.6 Fiber versus Copper4.2.3.7 ActivityInteractive ActivityFiber Optics TerminologyIdentify fiber-optic cable types by descriptions.Curriculum content4.2.4 Wireless Media4.2.4.1 Properties of Wireless Media4.2.4.2 Types of Wireless Media4.2.4.3 Wireless LAN4.2.4.4 802.11 Wi-Fi Standards4.2.4.5 ActivityPacket Tracer LabConnecting a Wired and Wireless LANSelect correct cabling for network connectivity.Verify network connectivity using an established, configured network.Examine physical topology characteristics using an established, configured network.Activity PDFPacket Tracer 4.2.4.6 ActivityHands-on LabViewing Wired and Wireless NIC InformationDetermine the availability and status of PC network interface cards (NICs).Change the status of a PC NIC. Identify and use the system tray network icons.Activity PDF1 PC (Windows 7, Vista, or XP with two NICs, wired and wireless, and a wireless connection)Section 4.3 Data Link Layer Protocols4.3.1 Purpose of the Data Link Layer4.3.1.1 The Data Link Layer4.3.1.2 Data Link Sublayers4.3.1.3 Media Access Control4.3.1.4 Providing Access to Media4.3.2 Layer 2 Frame Structure4.3.2.1 Formatting Data for Transmission4.3.2.2 Creating a Frame4.3.2.3 ActivityInteractive ActivityGeneric Frame FieldsBuild a generic frame using frame field terminology.Curriculum content4.3.3 Layer 2 Standards4.3.3.1 Data Link Layer Standards4.3.3.2 ActivityInteractive ActivityData Link Layer Standards OrganizationsMatch the data link layer protocols to their standards organizations.Curriculum contentSection 4.4 Media Access Control4.4.1 Topologies4.4.1.1 Controlling Access to the Media4.4.1.2 Physical and Logical Topologies4.4.2 WAN Topologies4.4.2.1 Common Physical WAN Topologies4.4.2.2 Physical Point-to-Point Topology4.4.2.3 Logical Point-to-Point Topology4.4.2.4 Half and Full Duplex4.4.3 LAN Topologies4.4.3.1 Physical LAN Topologies4.4.3.2 Logical Topology for Shared Media4.4.3.3 Contention-Based Access4.4.3.4 Multi-Access Topology4.4.3.5 Controlled Access4.4.3.6 Ring Topology4.4.3.7 ActivityInteractive ActivityLogical and Physical TopologiesClassify media access control methods by data link layer characteristics.Curriculum content4.4.4 Data Link Frame4.4.4.1 The Frame4.4.4.2 The Header4.4.4.3 Layer 2 Address4.4.4.4 The Trailer4.4.4.5 LAN and WAN Frames4.4.4.6 Ethernet Frame4.4.4.7 PPP Frame4.4.4.8 802.11 Wireless Frame4.4.4.9 ActivityInteractive ActivityFrame FieldsBuild an Ethernet frame using frame field terminology.Build a PPP frame using frame field terminology.Build a wireless frame using frame field terminology.Curriculum content4.5 Summary4.5.1 Summary4.5.1.1 ActivityClass ActivityLinked In!Map physical network cabling and technology types to a simple floorplan blueprint.Select network devices and the location of the devices to accommodate the floorplan blueprint.Identify a location for the main distribution facility.Activity PDFCurriculum content4.5.1.2 Summary
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ITN_Ch5Introduction to Networks - Chapter 5, Ethernet
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 5.0 Ethernet5.0.1 Introduction5.0.1.1 Introduction5.0.1.2 ActivityClass ActivityJoin My Social Circle!Describe the impact of ARP requests on network and host performance.Activity PDFSection 5.1 Ethernet Protocol5.1.1 Ethernet Operation5.1.1.1 LLC and MAC Sublayers5.1.1.2 MAC Sublayer5.1.1.3 Media Access Control5.1.1.4 MAC Address: Ethernet Identity5.1.1.5 Frame Processing5.1.1.6 ActivityInteractive ActivityMAC and LLC SublayersMatch the MAC and LLC sublayers with their descriptions.Curriculum content5.1.2 Ethernet Frame Attributes5.1.2.1 Ethernet Encapsulation5.1.2.2 Ethernet Frame Size5.1.2.3 Introduction to the Ethernet Frame5.1.2.4 ActivityInteractive ActivityEthernet Frame FieldsMatch the Ethernet frame field names with their descriptions.Curriculum content5.1.3 Ethernet MAC5.1.3.1 MAC Addresses and Hexadecimal5.1.3.2 MAC Address Representations5.1.3.3 Unicast MAC Address5.1.3.4 Broadcast MAC Address5.1.3.5 Multicast MAC Address5.1.3.6 ActivityHands-on LabViewing Network Device MAC AddressesSet up the topology and initialize devices.Configure devices and verify connectivity.Display, describe, and analyze Ethernet MAC addresses.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via the console portsEthernet cables as shown in the topology5.1.4 MAC and IP5.1.4.1 MAC and IP5.1.4.2 End-to-End Connectivity, MAC, and IP5.1.4.3 ActivityHands-on LabUsing Wireshark to Examine Ethernet FramesExamine the header fields in an Ethernet II frame.Use Wireshark to capture and analyze Ethernet frames.Activity PDF1 PC (Windows 7, Vista, or XP with Internet access and Wireshark installed)5.1.4.4 ActivityPacket Tracer LabIdentify MAC and IP AddressesGather PDU information.Summarize information from captured PDU information.Activity PDFPacket TracerSection 5.2 Address Resolution Protocol5.2.1 ARP5.2.1.1 Introduction to ARP52.1.2 ARP Functions5.2.1.3 ARP Operation5.2.1.4 ARP Role in Remote Communication5.2.1.5 Removing Entries from an ARP Table5.2.1.6 ARP Tables on Networking Devices5.2.1.7 ActivityPacket Tracer LabExamine the ARP TableExamine an ARP request.Examine a switch MAC address table.Examine the ARP process in remote communications.Activity PDFPacket Tracer5.2.1.8 ActivityHands-on LabObserving ARP with the Windows CLI, IOS CLI, and WiresharkBuild and configure a network.Use the Windows ARP command.Use the IOS show ARP command.Use Wireshark to examine ARP exchanges.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal or comparable)2 Switches (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)2 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term and Wireshark installed)Console cables to configure the Cisco IOS devices via the console portsEthernet cables as shown in the topology5.2.2 ARP Issues5.2.2.1 How ARP Can Create Problems5.2.2.2 Mitigating ARP ProblemsSection 5.3 LAN Switches5.3.1 Switching5.3.1.1 Switch Port Fundamentals5.3.1.2 Switch MAC Address Table5.3.1.3 Duplex Settings5.3.1.4 Auto-MDIX5.3.1.5 Frame Forwarding Methods5.3.1.6 Cut-Through Switching5.3.1.7 ActivityInteractive ActivityFrame Forwarding MethodsIdentify frame forwarding methods using the descriptions.Curriculum content5.3.1.8 Memory Buffering on Switches5.3.1.9 ActivityInteractive ActivitySwitch It!Determine how the switch forwards a frame based on the source MAC and destination MAC address information in the switch MAC table.Curriculum content5.3.1.10 ActivityHands-on LabViewing the Switch MAC Address TableBuild and configure a network.Examine the switch MAC address table.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)2 Switches (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)2 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via the console ports.Ethernet cables as shown in the topology.5.3.2 Fixed or Modular5.3.2.1 Fixed versus Modular Configuration5.3.2.2 Module Options for Cisco Switch Slots5.3.3 Layer 3 Switching5.3.3.1 Layer 2 versus Layer 3 Switching5.3.3.2 Cisco Express Forwarding5.3.3.3 Types of Layer 3 Interfaces5.3.3.4 Configuring a Routed Port on a Layer 3 Switch5.3.3.5 ActivityPacket Tracer LabConfigure Layer 3 SwitchesDocument the current network configurations.Configure, deploy, and test the new multilayer switch.Activity PDFPacket TracerSection 5.4 Summary5.4.1 Summary5.4.1.1 ActivityClass ActivityMAC and ChooseExplain basic switching concepts.Activity PDFInternet access5.4.1.2 Summary
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ITN_Ch6Introduction to Networks - Chapter 6, Network Layer
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 6.0 Network Layer6.0.1 Introduction6.0.1.1 Introduction6.0.1.2 ActivityClass ActivityThe Road Less TraveledExplain how network devices use routing tables to direct packets to a destination network.Activity PDFSection 6.1 Network Layer Protocols6.1.1 Network Layer in Communication6.1.1.1 The Network Layer6.1.1.2 Network Layer Protocols6.1.2 Characteristics of the IP Protocol6.1.2.1 Characteristics of IP6.1.2.2 IP - Connectionless6.1.2.3 IP - Best Effort Delivery6.1.2.4 IP - Media Independent6.1.2.5 Encapsulating IP6.1.2.6 ActivityInteractive ActivityIP CharacteristicsIdentify IP delivery methods by characteristics.Curriculum content6.1.3 IPv4 Packet6.1.3.1 IPv4 Packet Header6.1.3.2 IPv4 Header Fields6.1.3.3 Sample IPv4 Headers6.1.3.4 ActivityInteractive ActivityIPv4 Header FieldsIdentify IPv4 header fields by their functions.Curriculum content6.1.4 IPv6 Packet6.1.4.1 Limitations of IPv46.1.4.2 Introducing IPv66.1.4.3 Encapsulating IPv66.1.4.4 IPv6 Packet Header6.1.4.5 Sample IPv6 Header6.1.4.6 ActivityInteractive ActivityIPv6 Header FieldsMatch IPv6 header descriptions to their associated header fields.Curriculum contentSection 6.2 Routing6.2.1 How a Host Routes6.2.1.1 Host Forwarding Decisions6.2.1.2 Default Gateway6.2.1.3 IPv4 Host Routing Table6.2.1.4 IPv4 Host Routing Entries6.2.1.5 Sample IPv4 Host Routing Table6.2.1.6 Sample IPv6 Host Routing Table6.2.1.7 ActivityInteractive ActivityIdentify Elements of a Host Routing Table EntrySelect the routing table entry segment for each output statement.Curriculum content6.2.2 Router Routing Tables6.2.2.1 Router Packet Forwarding Decision6.2.2.2 IPv4 Router Routing Table6.2.2.3 Directly Connected Routing Table Entries6.2.2.4 Remote Network Routing Table Entries6.2.2.5 Next-Hop Address6.2.2.6 Sample Router IPv4 Routing Table6.2.2.7 ActivityInteractive ActivityIdentify Elements of a Router Routing Table EntrySelect the correct routing table entry section for each output statement.Curriculum content6.2.2.8 ActivityHands-on LabView Host Routing TablesAccess a host routing table.Examine IPv4 host routing table entries.Examine IPv6 host routing table entries.Activity PDF1 PC (Windows 7, Vista, or XP with Internet and command prompt access)Section 6.3 Routers6.3.1 Anatomy of a Router6.3.1.1 A Router is a Computer6.3.1.2 Router CPU and OS6.3.1.3 Router Memory6.3.1.4 Inside a Router6.3.1.5 Router Backplane6.3.1.6 Connecting to a Router6.3.1.7 LAN and WAN Interfaces6.3.1.8 ActivityInteractive ActivityIdentify Router ComponentsIdentify router components by functions and descriptions.Curriculum content6.3.1.9 ActivityHands-on LabExploring Router Physical CharacteristicsExamine router external characteristics.Examine router internal characteristics using show commands.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS device via console ports6.3.1.10 Activity Packet Tracer LabExploring Internetworking DevicesIdentify physical characteristics of internetworking devices.Select correct modules for connectivity.Connect devices using correct cable types and interfaces.Activity PDFPacket Tracer6.3.2 Router Boot-up6.3.2.1 Cisco IOS6.3.2.2 Bootset Files6.3.2.3 Router Bootup Process6.3.2.4 Show Version Output6.3.2.5 (video) The Router Boot Process6.3.2.6 ActivityInteractive ActivityThe Router Boot ProcessShow the router boot process.Curriculum ContentSection 6.4 Configuring a Cisco Router6.4.1 Configure Initial Settings6.4.1.1 ActivitySyntax CheckerRouter Configuration StepsConfigure a router with initial settings, to include a hostname, secret password, console and line vty passwords, encryption for all clear text passwords, and a message of the day banner.Save the configuration from RAM to NVRAM.Curriculum Content6.4.1.2 ActivityPacket Tracer LabConfigure Initial Router SettingsVerify default router configuration.Configure and verify the initial router configuration.Save the running configuration file.Activity PDFPacket Tracer6.4.2 Configure Interfaces6.4.2.1 ActivitySyntax CheckerConfigure LAN InterfacesConfigure LAN interfaces on a router to include IP addresses, subnet masks, descriptions, and active status.Curriculum Content6.4.2.2 Verify Interface Configuration6.4.3 Configuring the Default Gateway6.4.3.1 Default Gateway on a Host6.4.3.2 ActivitySyntax CheckerDefault Gateway on a SwitchConfigure a switch default gateway.Curriculum Content6.4.3.3 ActivityPacket Tracer LabConnect a Router to a LANDisplay router information.Configure router interfaces.Verify router configuration.Activity PDFPacket Tracer6.4.3.4 ActivityPacket Tracer LabTroubleshooting Default Gateway IssuesVerify network documentation and isolate problems.Implement, verify and document solutions.Activity PDFPacket Tracer6.4.3.5 ActivityHands-on LabBuilding a Switch and Router NetworkSet up the topology and initialize devices.Configure devices and verify connectivity.Display device information.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)2 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via the console portsEthernet cables as shown in the topologySection 6.5 Summary6.5.1 Summary6.5.1.1 ActivityClass ActivityCan You Read This Map?Explain how network devices use routing tables to direct packets to a destination network.Activity PDFPacket Tracer6.5.1.2 ActivityPacket Tracer LabSkills Integration ChallengeComplete network documentation.Perform basic device configurations on a router and a switch.Verify connectivity and troubleshoot issues.Activity PDFPacket Tracer6.5.1.3 Summary
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ITN_Ch7Introduction to Networks - Chapter 7, Transport Layer
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 7.0 Transportation Layer7.0.1 Introduction7.0.1.1 Introduction7.0.1.2 ActivityClass ActivityWe Need to Talk - GameExplain how transport layer protocols and services support communications across data networks.Activity PDFTimer/ClockSection 7.1 Transport Layer Protocols7.1.1 Transportation of Data7.1.1.1 Role of the Transport Layer7.1.1.2 Role of the Transport Layer (Cont.)7.1.1.3 Conversation Multiplexing7.1.1.4 Transport Layer Reliability7.1.1.5 TCP7.1.1.6 UDP7.1.1.7 The Right Transport Layer Protocol for the Right Application7.1.1.8 ActivityInteractive ActivityTCP, UDP, or BothIdentify the application protocols as transport layer delivery methods TCP, UDP, or both.Curriculum content7.1.2 Introducing TCP and UDP7.1.2.1 Introducing TCP7.1.2.2 Role of TCP7.1.2.3 Introducing UDP7.1.2.4 Role of UCP7.1.2.5 Separating Multiple Conversations7.1.2.6 TCP and UDP Port Addressing7.1.2.7 TCP and UDP Port Addressing (Cont.)7.1.2.8 TCP and UDP Port Addressing (Cont.)7.1.2.9 TCP and UDP Port Addressing (Cont.)7.1.2.10 TCP and UDP Segmentation7.1.2.11 ActivityInteractive ActivityCompare TCP and UDP CharacteristicsIdentify the characteristics as transport layer TCP or UDP delivery methods.Curriculum contentSection 7.2 TCP and UDP7.2.1 TCP Communication7.2.1.1 TCP Reliable Delivery7.2.1.2 TCP Server Processes7.2.1.3 TCP Connection Establishment and Termination7.2.1.4 TCP Three-Way Handshake Analysis - Step 17.2.1.5 TCP Three-Way Handshake Analysis - Step 27.2.1.6 TCP Three-Way Handshake Analysis - Step 37.2.1.7 TCP Session Termination Analysis7.2.1.8 ActivityHands-on LabUsing Wireshark to Observe the TCP 3-Way HandshakePrepare Wireshark to capture packets.Capture, locate, and examine packets.Activity PDF1 PC (Windows 7, Vista, or XP with command prompt access, Internet access, and Wireshark installed)7.2.1.9 ActivityInteractive ActivityTCP Connection and Termination ProcessIllustrate the 3-way handshake process of a TCP establishment session by activity descriptors.Illustrate the 4-step process of a TCP termination session by activity descriptors.Curriculum content7.2.2 Reliability and Flow Control7.2.2.1 TCP Reliability - Ordered Delivery7.2.2.2 TCP Reliability - Acknowledgement and Window Size7.2.2.3 TCP Reliability - Data Loss and Retransmission7.2.2.4 TCP Flow Control - Window Size and Acknowledgements7.2.2.5 TCP Flow Control - Congestion Avoidance7.2.3 UDP Communication7.2.3.1 UDP Low Overhead versus Reliability7.2.3.2 UDP Datagram Reassembly7.2.3.3 UDP Server Processes and Requests7.2.3.4 UDP Client Processes7.2.3.5 ActivityHands-on LabUsing Wireshark to Examine a UDP DNS CaptureRecord a PCs IP configuration information.Use Wireshark to capture DNS queries and responses.Analyze captured DNS or UDP packets.Activity PDF1 PC (Windows 7, Vista, or XP with command prompt access, Internet access, and Wireshark installed)7.2.4 TCP or UDP - That is the Question7.2.4.1 Applications that Use TCP7.2.4.2 Applications that Use UDP7.2.4.3 ActivityHands-on LabUsing Wireshark to Examine FTP and TFTP CapturesIdentify TCP header fields and operation using a Wireshark FTP session capture.Identify UDP header fields and operation using a Wireshark TFTP session capture.Activity PDF1 PC (Windows 7, Vista, or XP with command prompt access, Internet access, and Wireshark installed)Section 7.3 Summary7.3.1 Summary7.3.1.1 ActivityClass ActivityWe Need to Talk, Again - GameExplain how transport layer protocols and services support communications across data networks.Activity PDF7.3.1.2 ActivityPacket Tracer LabPacket Tracer Simulation - TCP and UDP CommunicationsGenerate network traffic in simulation mode.Examine the functionality of the TCP and UDP process.Activity PDFPacket Tracer7.3.1.3 Summary
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ITN_Ch8Introduction to Networks - Chapter 8, IP Addressing
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 8.0 IP Addressing8.0.1 Introduction8.0.1.1 Introduction8.0.1.2 ActivityClass ActivityThe Internet of Everything (IoE)Explain how network devices use routing tables to direct packets to a destination network.Activity PDFDevice with Internet accessSection 8.1 IPv4 Network Addresses8.1.1 IPv4 Address Structure8.1.1.1 Binary Notation8.1.1.2 Binary Number System8.1.1.3 Converting a Binary Address to Decimal8.1.1.4 ActivityInteractive ActivityBinary to Decimal ConversionsConvert binary numbers from octets to decimal values.Curriculum content8.1.1.5 Converting from Decimal to Binary8.1.1.6 Converting from Decimal to Binary (Cont.)8.1.1.7 ActivityInteractive ActivityDecimal to Binary Conversion ActivityConvert decimal numbers to binary octets.Curriculum content8.1.1.8 ActivityInteractive ActivityBinary GamePractice converting eight-digit binary numbers to decimal numbers.Curriculum contentDevice with Internet access8.1.2 IPv4 Subnet Mask8.1.2.1 Network Portion and Host Portion of an IPv4 Address8.1.2.2 Examining the Prefix Length8.1.2.3 IPv4 Network, Host, and Broadcast Addresses8.1.2.4 First Host and Last Host Addresses8.1.2.5 Bitwise AND Operation8.1.2.6 Importance of ANDing8.1.2.7 ActivityHands-on LabUsing the Windows Calculator with Network AddressesAccess the Windows calculator.Convert between numbering systems. Convert host IPv4 addresses and subnet masks into binary values.Determine the number of hosts in a network using powers of 2.Convert MAC addresses and IPv6 addresses to binary values.Activity PDF 1 PC (Windows 7, Vista, or XP)8.1.2.8 ActivityHands-on LabConverting IPv4 Addresses to BinaryConvert IPv4 addresses from dotted decimal format to binary values.Use the bitwise ANDing operation to determine network addresses.Apply network address calculations by identifying the networks to which they belong and identifying the default gateway addresses.Activity PDF8.1.2.9 ActivityInteractive ActivityANDing to Determine the Network AddressDetermine the network addresses in binary and decimal values by using the ANDing process.Curriculum content8.1.3 IPv4 Unicast, Broadcast, and Multicast8.1.3.1 Assigning a Static IPv4 Address to a Host8.1.3.2 Assigning a Dynamic IPv4 Address to a Host8.1.3.3 Unicast Transmission8.1.3.4 Broadcast Transmission8.1.3.5 Multicast Transmission8.1.3.6 ActivityInteractive ActivityUnicast, Broadcast, or MulticastIdentify devices which will receive unicast, broadcast, or multicast transmissions using a destination IP address.
Note: This is a timed activity.Curriculum content8.1.3.7 ActivityInteractive ActivityCalculate the Network, Broadcast, and Host AddressesCalculate the network broadcast addresses, first usable hosts, and last usable hosts based upon IP addresses and their prefixes.Curriculum content8.1.3.8 ActivityPacket Tracer LabInvestigate Unicast, Broadcast, and Multicast TrafficGenerate unicast traffic.Generate broadcast traffic.Investigate multicast traffic.Activity PDFPacket Tracer8.1.4 Types of IPv4 Addresses8.1.4.1 Public and Private IPv4 Addresses8.1.4.2 ActivityInteractive ActivityPass or Block IPv4 AddressesClassify IPv4 addresses as public or private.Decide to pass or block the address from the Internet cloud. Curriculum content8.1.4.3 Special Use IPv4 Addresses8.1.4.4 Legacy Classful Addressing8.1.4.5 Assignment of IP Addresses8.1.4.6 Assignment of IP Addresses (Cont.)8.1.4.7 ActivityInteractive ActivityPublic or Private IPv4 AddressesClassify IPv4 addresses as public or private.Curriculum content8.1.4.8 ActivityHands-on LabIdentifying IPv4 AddressesIdentify IPv4 addresses.Classify IPv4 addresses.Activity PDFDevice with Internet accessIPv4 address calculator (optional)Section 8.2 IPv6 Network Addresses8.2.1 IPv4 Issues8.2.1.1 The Need for IPv68.2.1.2 IPv4 and IPv6 Coexistence8.2.1.3 ActivityInteractive ActivityIPv4 and IPv6 Terms and DesciptionsIdentify the IPv4 and IPv6 terms by descriptions.Curriculum content8.2.2 IPv6 Addressing8.2.2.1 Hexadecimal Number System8.2.2.2 IPv6 Address Representation8.2.2.3 Rule 1 - Omitting Leading 0s8.2.2.4 Rule 2 - Omitting All 0 Segments8.2.2.5 ActivityInteractive ActivityPracticing IPv6 Address RepresentationsConvert the IPv6 addresses into short and compressed forms.Curriculum content8.2.3 Types of IPv6 Addresses8.2.3.1 IPv6 Address Types8.2.3.2 IPv6 Prefix Length8.2.3.3 IPv6 Unicast Addresses8.2.3.4 IPv6 Link-Local Unicast Addresses8.2.3.5 ActivityInteractive ActivityIdentify Types of IPv6 AddressesIdentify IPv6 address types based on descriptions.Curriculum content8.2.4 IPv6 Unicast Addresses8.2.4.1 Structure of an IPv6 Global Unicast Address8.2.4.2 ActivitySyntax CheckerStatic Configuration of a Global Unicast AddressConfigure and activate router interfaces with IPv6 addresses.Curriculum content8.2.4.3 Dynamic Configuration of a Global Unicast Address using SLAAC8.2.4.4 Dynamic Configuration of a Global Unicast Address using DHCPv68.2.4.5 EUI-64 Process or Randomly Generated8.2.4.6 Dynamic Link-Local Addresses8.2.4.7 Static Link-Local Addresses8.2.4.8 ActivitySyntax CheckerVerifying IPv6 Address ConfigurationDisplay a brief summary of IPv6 interface status.Display the IPv6 routing table.Verify IPv6 address configuration.Curriculum content8.2.5 IPv6 Multicast Addresses8.2.5.1 Assigned IPv6 Multicast Addresses8.2.5.2 Solicited-Node IPv6 Multicast Addresses8.2.5.3 ActivityPacket Tracer LabConfiguring IPv6 AddressingConfigure IPv6 addressing on a router.Configure IPv6 addressing on servers.Configure IPv6 addressing on clients.Test and verify network connectivity.Activity PDFPacket Tracer8.2.5.4 ActivityHands-on LabIdentifying IPv6 AddressesIdentify the different types of IPv6 addresses.Examine a host IPv6 network interface and address.Practice IPv6 address abbreviation. Identify the hierarchy of the IPv6 global unicast address network prefix.Activity PDF1 PC (Windows 7 or Vista with Internet access)
Note: Windows XP does not enable IPv6 by default and is not recommended for use with this lab.8.2.5.5 ActivityHands-on LabConfiguring IPv6 Addresses on Network DevicesSet up topology and configure basic router and switch settings.Configure IPv6 addresses manually.Verify end-to-end connectivity.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)2 PCs (Windows 7 with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via the console ports Ethernet cables as shown in the topology
Note: Windows XP is not recommended for use with this lab.Section 8.3 Connectivity Verification8.3.1 ICMP8.3.1.1 ICMPv4 and ICMPv6 Messages8.3.1.2 ICMPv6 Router Solicitation and Router Advertisement Messages8.3.1.3 ICMPv6 Neighbor Solicitation and Neighbor Advertisement Messages8.3.2 Testing and Verification8.3.2.1 Ping - Testing the Local Stack8.3.2.2 Ping - Testing Connectivity8.3.2.4 Traceroute - Testing the Path8.3.2.5 ActivityPacket Tracer LabVerifying IPv4 and IPv6 AddressingComplete the addressing table documentation.Test connectivity using ping.Discover the path by tracing the route.Activity PDFPacket Tracer8.3.2.6 ActivityPacket Tracer LabPinging and Tracing to Test the PathTest and restore IPv4 connectivity.Test and restore IPv6 connectivity.Activity PDFPacket Tracer8.3.2.7 ActivityHands-on LabTesting Network Connectivity with Ping and TracerouteBuild and configure the network.Use the ping command for basic network testing.Use tracert and traceroute commands for basic network testing.Troubleshoot the topology.Activity PDF3 Routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)2 Switches (Cisco 2960 with Cisco Release 15.0(2) lanbase9 image or comparable)2 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Ethernet and serial cables as shown in the topology8.3.2.8 ActivityPacket Tracer LabTroubleshooting IPv4 and IPv6 AddressingTroubleshoot three issues using verified help desk tickets.Document the solutions.Activity PDFPacket TracerSection 8.4 Summary8.4.1 Summary8.4.1.1 ActivityClass ActivityThe Internet of EverythingNaturally!Explain the need for IPv6 network addresses.Activity PDFPacket Tracer8.4.1.2 ActivityPacket Tracer LabSkills Integration ChallengeComplete the addressing table documentation.Configure a router with IPv4 and IPv6 addressing.Configure a switch with IPv4 addressing.Configure a client with IPv4 and IPv6 addressing.Verify network connectivity.Activity PDFPacket Tracer8.4.1.3 Summary
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ITN_Ch9Introduction to Networks - Chapter 9, Subnetting IP Networks
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 9.0 Subnetting IP Networks9.0.1 Introduction9.0.1.1 Introduction9.0.1.2 ActivityClass ActivityCall Me!Explain why routing is necessary for hosts on different subnets to communicate.Activity PDFSection 9.1 Subnetting an IPv4 Network9.1.1 Network Segmentation9.1.1.1 Reasons for Subnetting9.1.1.2 Communication Between Subnets9.1.2 Communication Between Subnets9.1.2.1 The Plan9.1.2.2 The Plan - Address Assignment9.1.3 Subnetting an IPv4 Network9.1.3.1 Basic Subnetting9.1.3.2 Subnets in Use9.1.3.3 Subnetting Formulas9.1.3.4 Creating 4 Subnets9.1.3.5 Creating 8 Subnets9.1.3.6 ActivityInteractive ActivityDetermining the Network Address - BasicEnter the correct network address in binary and decimal format based upon specific IP addresses and subnet masks.Curriculum content9.1.3.7 ActivityInteractive ActivityCalculate the Number of Hosts - BasicEnter the number of valid hosts per network based upon a specific network address and subnet mask.Curriculum content9.1.3.8 ActivityInteractive ActivityDetermining the Valid Addresses for Hosts - BasicDefine the range of hosts, the broadcast address, and the next network address based upon specific network addresses and subnet masks.Curriculum content9.1.3.9 ActivityInteractive ActivityCalculate the Subnet MaskDetermine the binary representation of given subnet masks for octet representation.Convert subnet masks to prefix notations.Curriculum content9.1.3.10 Creating 100 Subnets with a /16 prefix.9.1.3.11 Calculating the Hosts9.1.3.12 Calculating the Hosts (Cont.)9.1.3.13 ActivityInteractive ActivityDetermining the Network Address - AdvancedDetermine the network address in binary and decimal format in the octet fields based upon a given host address, subnet mask, binary host, and binary subnet mask notation.Curriculum content9.1.3.14 ActivityInteractive ActivityCalculating the Number of Hosts - AdvancedEnter the number of valid hosts based upon specific network addresses, subnet masks, binary network addresses, and binary subnet masks notations.Curriculum content9.1.3.15 ActivityInteractive ActivityDetermining the Valid Addresses for Hosts - AdvancedDefine the range of hosts, the broadcast address, and the next network address based upon specific network addresses and subnet masks.Curriculum content9.1.4 Determining the Subnet Mask9.1.4.1 Subnetting Based on Host Requirements9.1.4.2 Subnetting Network-Based Requirements9.1.4.3 Subnetting to Meet Network Requirements9.1.4.4 Subnetting to Meet Network Requirements (Cont.)9.1.4.5 ActivityInteractive ActivityDetermining the Number of Bits to BorrowDetermine the subnet mask to support the number of specified hosts.Enter answers in binary, decimal, and prefix notation formats.Curriculum content9.1.4.6 ActivityPacket Tracer LabSubnetting Scenario 1Design an IP addressing scheme.Assign IP addresses to network devices and verify connectivity.Activity PDFPacket Tracer9.1.4.7 ActivityPacket Tracer LabSubnetting Scenario 2Design an IP addressing scheme.Assign IP addresses to network devices and verify connectivity.Activity PDFPacket Tracer9.1.4.8 ActivityHands-on LabCalculating IPv4 SubnetsDetermine IPv4 address subnetting to include the network and broadcast addresses and number of hosts.Calculate IPv4 address subnetting to include the number of subnets created, hosts per subnet, subnet address, host ranges for the subnet, and broadcast address for the subnet.Activity PDF1 PC (Windows 7, Vista, or XP with Internet access) IPv4 address calculator (optional)9.1.4.9 ActivityHands-on LabSubnetting Network TopologiesDetermine the number of subnets.Design an appropriate addressing scheme.Assign addresses and subnet mask pairs to device interfaces.Examine the use of the available network space and future growth potential. Activity PDF
9.1.4.10 ActivityHands-on LabResearching Subnet CalculatorsReview available subnet calculators.Perform network calculations using a subnet calculator.Activity PDFDevice with Internet access9.1.5 Benefits of Variable Length Subnet Masking9.1.5.1 Traditional Subnetting Wastes Addresses9.1.5.2 Variable Length Subnet Masks (VLSM)9.1.5.3 Basic VLSM9.1.5.4 VLSM in Practice9.1.5.5 VLSM Chart9.1.5.6 ActivityInteractive ActivityPracticing VLSMUse regular subnetting procedures to identify IPv4 address information.Use VLSM to identify IPv4 address information.Curriculum contentSection 9.2 Addressing Schemes9.2.1 Structured Design9.2.1.1 Planning to Address the Network9.2.1.2 Assigning Addresses to Devices9.2.1.3 ActivityHands-on LabDesigning and Implementing a Subnetted IPv4 Addressing SchemeDesign a network subnetting scheme.Configure devices.Test and troubleshoot the network.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)2 PCs (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the devices via the console portsEthernet cables as shown in the topology9.2.1.4 ActivityHands-on LabDesigning and Implementing a VLSM Addressing SchemeExamine network requirements.Design a VLSM addressing scheme.Cable and configure the IPv4 network.Activity PDF3 Routers (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cable to configure the devices via the console portsEthernet (optional) and serial cables, as shown in the topology9.2.1.5 ActivityPacket Tracer LabDesigning and Implementing a VLSM Addressing SchemeExamine the network requirements.Design the VLSM addressing scheme.Assign IP addresses to devices and verify connectivity.Activity PDFPacket TracerSection 9.3 Design Considerations for IPv69.3.1 Subnetting an IPv6 Network9.3.1.1 Subnetting Using the Subnet ID9.3.1.2 IPv6 Subnet Allocation9.3.1.3 Subnetting into the Interface ID9.3.1.4 ActivityPacket Tracer LabImplementing a Subnetted IPv6 Addressing SchemeDetermine the IPv6 subnets and addressing scheme.Configure the IPv6 addressing on routers and PCs and verify connectivity.Activity PDFPacket TracerSection 9.4 Summary9.4.1 Summary9.4.1.1 ActivityClass ActivityCan you call me now?Calculate the necessary subnet mask to accommodate a given number of hosts.Activity PDFPacket Tracer9.4.1.2 ActivityPacket Tracer LabSkills Integration ChallengeComplete the IPv4 and IPv6 addressing schemes based on a partially-addressed network topology.Apply network addressing for IPv4 and IPv6 to a partially-configured network.Verify network connectivity.Activity PDFPacket Tracer9.4.1.3 Summary
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ITN_Ch10Introduction to Networks - Chapter 10, Application Layer
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 10.0 Application Layer10.0.1 Introduction10.0.1.1 Introduction10.0.1.2 ActivityClass ActivityApplication Investigation (What would happen if)Explain the operation of the application layer in providing support to end-user applications.Activity PDFSection 10.1 Application Layer Protocols10.1.1 Application, Session, and Presentation10.1.1.1 OSI and TCP/IP Models Revisited10.1.1.2 Application Layer10.1.1.3 Presentation and Session Layers10.1.1.4 TCP/IP Application Layer Protocols10.1.1.5 ActivityInteractive ActivityApplication Protocols and StandardsIdentify the protocol names and standards on the OSI and TCP/IP model network locations.Curriculum content10.1.2 How Application Protocols Interact with End-User Applications10.1.2.1 Peer-to-Peer Networks10.1.2.2 Peer-to-Peer Applications10.1.2.3 Common P2P Applications10.1.2.4 ActivityHands-on LabResearching Peer-to-Peer File SharingIdentify P2P networks, file sharing protocols, and applications.Research P2P file sharing issues.Research P2P copyright litigations.Activity PDFDevice with Internet access10.1.2.5 Client-Server Model10.2 Well-Known Application Layer Protocols and Services10.2.1 Common Application Layer Protocols10.2.1.1 Application Layer Protocols Revisited10.2.1.2 Hypertext Transfer Protocol and Hypertext Markup Language10.2.1.3 HTTP and HTTPS10.2.1.4 SMTP, POP, and IMAP10.2.1.5 SMTP, POP, and IMAP (Cont.)10.2.1.6 SMTP, POP, and IMAP (Cont.)10.2.1.7 SMTP, POP, and IMAP (Cont.)10.2.1.8 ActivityPacket Tracer LabWeb and EmailConfigure and verify web services.Configure and verify email services.Activity PDFPacket Tracer10.2.2 Providing IP Addressing Services10.2.2.1 Domain Name Service10.2.2.2 DNS Message Format10.2.2.3 DNS Hierarchy10.2.2.4 nslookup10.2.2.5 ActivitySyntax CheckerDNS CLI Commands in Windows and UNIXUse the nslookup command to begin a manual query of domain name servers.Use the nslookup command to verify the status of domain names.Curriculum content10.2.2.6 Dynamic Host Configuration Protocol10.2.2.7 DHCP Operation10.2.2.8 ActivityPacket Tracer LabDNS and DHCPConfigure static IPv4 addressing.Configure and verify DNS records.Activity PDFPacket Tracer10.2.2.9 ActivityHands-on LabObserving DNS ResolutionObserve the DNS conversion of a URL to an IP address.Observe DNS lookup using the nslookup command on a web site.Observe DNS lookup using the nslookup command on mail servers.Activity PDF1 PC (Windows 7, Vista, or XP with Internet and command prompt access)10.2.3 Providing File Sharing Services10.2.3.1 File Transfer Protocol10.2.3.2 ActivityPacket Tracer LabFTPConfigure FTP services on servers.Upload a file to the FTP server.Download a file from the FTP server.Activity PDFPacket Tracer10.2.3.3 ActivityHands-on LabExploring FTPInitiate an anonymous FTP session from a command prompt.Download a FTP file using a GUI-based software program, WS_FTP LE.Initiate an anonymous FTP session in a browser.Activity PDF1 PC (Windows 7, Vista, or XP with access to the command prompt, Internet access, and WS_FTP LE installed)10.2.3.4 Server Message BlockSection 10.3 The Message Heard Around the World10.3.1 Move It!10.3.1.1 The Internet of Things10.3.1.2 Message Travels Through a Network10.3.1.3 Getting the Data to the End Device10.3.1.4 Getting the Data Through the Internetwork10.3.1.5 Getting the Data to the Right Application10.3.1.6 (video) Warriors of the NetSection 10.4 Summary10.4.1 Summary10.4.1.1 ActivityClass ActivityMake it happen!Explain the operation of the application layer in providing support to end-user applications.Activity PDF10.4.1.2 ActivityPacket Tracer LabPacket Tracer Multiuser TutorialEstablish a local multiuser connection to another instance of Packet Tracer.Verify connectivity across a local multiuser connection.Activity PDFPacket Tracer
Note: There are two accompanying PKA files for this activity - the Client Side PKA and the Server Side PKA.10.4.1.3 ActivityPacket Tracer LabPacket Tracer Multiuser - Implement ServicesEstablish a local multiuser connection to another instance of Packet Tracer.Implement and verify services as a server-side player.Configure and verify access to services as a client-side player.Activity PDFPacket Tracer
Note: There are two accompanying PKA files for this activity - Client-Side PKA and Server-Side PKA.10.4.1.4 Summary
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ITN_Ch11Introduction to Networks - Chapter 11, It's a Network
Targeted Learning Objectives and Enabling Learning Objectives are posted to Cisco NetSpace, CCNA Introduction to Networks, Instructor Resources.PageActivity/LabTitleLearning ObjectivesResources NeededSection 11.0 It's a Network11.0.1 Introduction11.0.1.1 Introduction11.0.1.2 ActivityClass ActivityDid You Notice?Explain how a small network of directly connected segments is created, configured, and verified.Activity PDFSection 11.1 Create and Grow11.1.1 Devices in a Small Network11.1.1.1 Small Network Topologies11.1.1.2 Device Selection for a Small Network11.1.1.3 IP Addressing for a Small Network11.1.1.4 Redundancy in a Small Network11.1.1.5 Design Considerations for a Small Network11.1.1.6 ActivityInteractive ActivityIdentifying Network Planning and Design FactorsIdentify network planning and design factors by major focus areas.Curriculum content11.1.2 Protocols in a Small Network11.1.2.1 Common Applications in a Small Network11.1.2.2 Common Protocols in a Small Network11.1.2.3 Real-Time Applications for a Small Network11.1.3 Growing to Larger Networks11.1.3.1 Scaling a Small Network11.1.3.2 Protocol Analysis of a Small Network11.1.3.3 Evolving Protocol RequirementsSection 11.2 Keeping the Network Safe11.2.1 Network Device Security Measures11.2.1.1 Categories of Threats to Network Security11.2.1.2 Physical Security11.2.1.3 Types of Security Vulnerabilities11.2.1.4 Activity Interactive ActivitySecurity Threats and VulnerabilitiesIdentify security and vulnerability threat types by scenario examples.Identify security management types by recommended security management practices.Curriculum content11.2.2 Vulnerabilities and Network Attacks11.2.2.1 Viruses Worms, and Trojan Horses11.2.2.2 Reconnaissance Attacks11.2.2.3 Access Attacks11.2.2.4 DoS Attacks11.2.2.5 ActivityInteractive ActivityTypes of AttackIdentify security attack types by scenario descriptions.Curriculum content11.2.2.6 ActivityHands-on LabResearching Network Security ThreatsExplore the SANS website.Identify recent network security threats. Detail a specific network security threat.Activity PDFDevice with Internet accessPresentation device with PowerPoint or other presentation software installed11.2.3 Mitigating Network Attacks11.2.3.1 Backup, Upgrade, Update, and Patch11.2.3.2 Authentication, Authorization, and Accounting11.2.3.3 Firewalls11.2.3.4 Endpoint Security11.2.4 Securing Devices11.2.4.1 Introduction to Securing Devices11.2.4.2 Passwords11.2.4.3 Basic Security Practices11.2.4.4 Enable SSH11.2.4.5 ActivityHands-on LabAccessing Network Devices with SSHConfigure basic device settings.Configure the router for SSH access.Examine a telnet session with Wireshark.Examine a SSH session with Wireshark.Configure the switch for SSH access.SSH from the CLI on the switch.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 or comparable)1 Switch (Cisco 2960 with Cisco Release 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term, and Wireshark installed)Console cables to configure the Cisco IOS devices via the console portsEthernet cables as shown in the topology11.2.4.6 ActivityHands-on LabSecuring Network DevicesConfigure basic device settings.Configure basic security measures on the router.Configure basic security measures on the switch.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via the console portsEthernet cables as shown in the topologySection 11.3 Basic Network Performance11.3.1 Ping11.3.1.1 Interpreting Ping Results11.3.1.2 Extended Ping11.3.1.3 Network Baseline11.3.2 Tracert11.3.2.1 Interpreting Tracert Messages11.3.2.2 ActivityPacket Tracer LabTest Connectivity with TracerouteTest end-to-end connectivity with the tracert command.Compare results using tracert from a PC command prompt to traceroute from a router CLI.Activity PDFPacket Tracer11.3.2.3 ActivityHands-on LabTesting Network Latency with Ping and TracerouteUse ping to document network latency.Use traceroute to document network latency.Activity PDF1 PC (Windows 7, Vista, or XP with Internet access)11.3.3 Show Commands11.3.3.1 Common show Commands Revisited11.3.3.2 Viewing Router Settings with the show version Command11.3.3.3 Viewing Switch Settings with the show version Command11.3.3.4 ActivityPacket Tracer LabUsing show CommandsAnalyze show command output.Interpret output for the show command as related to reflection questions.Activity PDFPacket Tracer11.3.4 Host and IOS Commands11.3.4.1 ipconfig Command Options11.3.4.2 arp Command Options11.3.4.3 show cdp neighbors Command Options11.3.4.4 Using the show ip interface brief Command11.3.4.5 ActivityInteractive Activityshow CommandsIdentify show commands as compared to stated scenarios.Curriculum content11.3.4.6 ActivityHands-on LabUsing the CLI to Gather Network Device InformationSet up topology and initialize devices.Configure devices and verify connectivity.Gather network device information.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via console portsEthernet cables as shown in the topologySection 11.4 Managing IOS Configuration Files11.4.1 Router and Switch File Systems11.4.1.1 Router File Systems11.4.1.2 Switch File Systems11.4.2 Back up and Restore Configuration Files11.4.2.1 Backing up and Restoring using Text Files11.4.2.2 Backing up and Restoring using TFTP11.4.2.3 Using USB ports on a Cisco router11.4.2.4 Backing up and Restoring using a USB11.4.2.5 ActivityPacket Tracer LabBacking up Configuration FilesEstablish connectivity to TFTP server.Transfer configuration from TFTP server.Back up configuration and IOS to TFTP server.Activity PDFPacket Tracer11.4.2.6 ActivityHands-on LabManaging Router Configuration Files with Tera TermConfigure basic device settings.Use terminal emulation software to create a backup configuration file.Use a backup configuration file to restore a router.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via console portsEthernet cables as shown in the topology11.4.2.7 ActivityHands-on LabManaging Device Configuration Files Using TFTP, Flash, and USBBuild the network and configure basic device settings.(optional) Download TFTP Server software.Use TFTP to back up and restore the switch running configuration.Back up and restore running configurations using router flash memory. (optional) Use a USB drive to backup and restore the running configuration.Activity PDF1 Router (Cisco 1941 with Cisco IOS Release 15.2(4)M3 universal image or comparable)1 Switch (Cisco 2960 with Cisco IOS Release 15.0(2) lanbasek9 image or comparable)1 PC (Windows 7, Vista, or XP with terminal emulation program, such as Tera Term)Console cables to configure the Cisco IOS devices via the console portsEthernet cables as shown in the topologyUSB flash drive (optional)11.4.2.8 ActivityHands-on LabResearching Password Recovery ProceduresResearch the configuration register.Document the password recovery procedure for a specific Cisco router.Activity PDFDevice with Internet accessSection 11.5 Integrated Routing Services11.5.1 Integrated Router11.5.1.1 Multi-Function Device11.5.1.2 Types of Integrated Routers11.5.1.3 Wireless Capability11.5.1.4 Basic Security of Wireless11.5.2 Configuring the Integrated Router11.5.2.1 Configuring the Integrated Router11.5.2.2 Enabling Wireless11.5.2.3 Configure a Wireless Client11.5.2.4 ActivityPacket Tracer LabConfiguring a Linksys RouterConnect to a Linksys router.Enable wireless connectivity.Configure and verify wireless client access.Activity PDFPacket TracerSection 11.6 Summary11.6.1 Summary11.6.1.1 ActivityClass ActivityCapstone Project - Design and Build a Small Business NetworkExplain how a small network of directly connected segments is created, configured, and verified.Activity PDFPacket Tracer(optional) Instructor-created rubric or student/group-created rubric11.6.1.2 ActivityPacket Tracer LabSkills Integration ChallengeUse the Packet Tracer PKA file as a basis to enable security, encrypt, and configure strong passwords.Configure SSH for remote connectivity to the network.Demonstrate and verify router to PC connectivity.Activity PDFPacket Tracer11.6.1.3 Summary
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Lab&ActivityCountIntroduction to NetworksCh 1Ch 2Ch 3Ch 4Ch 5Ch 6Ch 7Ch 8Ch 9Ch 10Ch 11Class (Content) Activities2222222222222Hands-on Labs (equipment-based)4333433653845Interactive (Content) Activities21484731191454Packet Tracer Labs1421351655538Syntax Checker (Content) Activities0800030201014173
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