Labsim-transport lab
You are setting up a small network in a home. The owner of the network has decided to change his internet service provider (ISP) to a company called EtherSpeed. The ISP has installed a connection to both RJ45 jacks on the wall plate. You are responsible for selecting the correct router to connect the network to the internet. You want to use the fastest connection speed available while maintaining security for the Home-PC and Home-PC2 computers. In this lab, your task is to complete the following:
(1)Place the router in the Workspace and provide power. (a) Under Shelf, expand Routers. (b) Drag Router, Ethernet w/Firewall to the Workspace. For convenience, place the router to the left of the existing cable modem. (c) Above the router, cable modem, and switch, select Back to view the back of each device. (d) Drag the DC Power Connector from the switch to the power port on the new router. (2) Determine where the cables plugged into the switch are currently connected. (a) Above the Home-PC computer, select Back. (b) Above the Home-PC2 computer, select Back. (c)From the upper right, select Exhibits. (d) On the switch, select the cable plugged into port (e)From the top right, select Answer Questions. Answer Question 1.-On the switch, select the cable plugged into port 2. Answer Question 2.- On the switch, select the cable plugged into port 3. Answer Question 3.-Minimize the Lab Questions dialog and close the Exhibits window. (3) Move all the Ethernet cables to their new locations. (a) From the switch, drag one of the Ethernet cables to an open LAN port on the new router. (b) Repeat step 3a for the remaining two Ethernet cables still in the switch. (c) Drag the Ethernet cable from the Cable Modem to an open Ethernet port on the wall plate. (4) Confirm that the computer is properly connected to the network and internet. (a) On the Home-PC monitor, select Click to view Windows 10 to view the running operating system. (b) In the notification area, right-click the Network icon and select Open Network & Internet settings. The diagram should indicate an active connection to the home network and the internet. (5) Confirm the connection for Home-PC2. (a) From the top left, select Bench to return to the bench view. (b) On Home-PC2, select Click to view Windows 10 to view the running operating system. (c) Right-click Start and then select Settings. (d)Select Network & Internet. (e) The diagram should indicate an active connection to the home network and the internet. (6) Score the lab. (a) From the top right, select Answer Questions. (b) Select Score Lab.
You have just configured a scope on the CorpDHCP server to service the 192.168.0.0/24 subnet. You need to configure additional TCP/IP parameters for all clients serviced by the CorpDHCP server. In this lab, your task is to: Configure the following DHCP options for the CorpDHCP server (not on the Subnet1 scope):006 DNS Servers (in the following order).192.168.0.11192.168.10.11015 DNS Domain Name: CorpNet.local Configure Subnet1 scope options as follows:003 Router (default gateway) as 192.168.0.5
Access the CorpDCHP virtual server. From Hyper-V Manager, select CORPSERVER. Maximize the Hyper-V Manager window to view the available server. Right-click Corp DCHP and select Connect. Configure the DHCP server options From Server Manager, select Tools > DHCP. Maximize the DHCP window for better viewing. Expand CorpDHCP. CorpNet.local > IPv4.Right-click Server Options and select Configure Options. Under Available Options, select the 006 DNS Servers. Under IP Address, enter 192.168.0.11.Select Add to add the IP address to the list. Under IP Address, enter the second 192.168.10.11 and then select Add. Scroll down and select 015 DNS Domain Name. In the String value field, enter CorpNet.local. Select OK to save the options you have defined. Configure DHCP scope options. Expand Scope [192.168.0.1] Subnet1.Right-click Scope Options and select Configure Options. Under Available Options, select the 003 Router. Under IP address, enter 192.168.0.5.Select Add to add the IP address to the list. Select OK to save the options you have defined. (Server options apply to every scope on the server. Scope options override the server settings for a specific scope.)
You are a network technician for a small corporate network. Your manager has decided to switch to a new ISP. The network needs to be moved to the new ISP so that the old one can be cancelled. The new ISP has run a fiber optic line directly to the back of the fiber patch panel in the basement Networking Closet, but the NSA device doesn't have any fiber ports. Because the NSA doesn't have any fiber ports, you need to use a media converter to convert from a fiber optic cable to an Ethernet cable. Most media converters use SFP ports so they can convert multiple form factors. The media converter in this lab already has a fiber SFP module installed. Use the following information to make the proper connections: The ISP is connected to ports 23 and 24 of the fiber patch panel.Port 23 is Tx.Port 24 is Rx. Use the color coding on the end of the fiber optic cables to identify which end is Tx and which is Rx.Connector A (white or red) is Tx.Connector B (black) is Rx. When connecting fiber optic cables, connect the transmit (Tx) port on one device to the receive (Rx) port on the other device. The fiber cables in this lab have already had their Rx and Tx connectors switched as necessary. You can view component information in the Details window on the Specification tab. In this lab, your task is to move the network to the new ISP. You need to select and install the necessary components from the Shelf. Add the required networking device to the rack's shelf (bottom connection area). Move the Ethernet connection from the wall outlet to the networking device. Select the necessary fiber cable and connect the networking device to the fiber patch panel. Connect the power adapter to the networking device. Use a computer on Floor 1 to confirm that the internet is working.
EXPLANATION Complete this lab as follows: Add the media converter to the rack. Under Shelf, expand Networking Devices. Drag the Media Converter to the bottom shelf of the rack in the Workspace. Connect the SC to LC fiber cable to the media converter. Above the rack, select Back to switch to the back view of the rack. Drag the Ethernet cable from the left wall outlet to the Ethernet port on the media converter. Under Shelf, expand Cables. Select the Cable, Fiber, SC to LC cable. From the Selected Component pane, drag the Connector, Fiber Duplex LC male connector to the media converter. Connect the SC to LC cables to the patch panel. Above the rack, select Front to switch to the front view of the rack. From the Selected Component pane: Drag the Fiber Optic SC Connector (A) to port 23 on the fiber patch panel. Drag the Fiber Optic SC Connector (B) to port 24 on the fiber patch panel. Attach the power adapter to the media converter and plug it into the wall outlet. From the Shelf, drag the Power Adapter, AC to DC to the DC power port on the media converter. From the Select Connector pane, select DC Power Connector. Above the rack, select Back to switch to the back view of the rack. From the Selected Component pane, drag the AC Power Adapter connector to an open outlet on the rack UPS. The lights on the media converter should turn on. Navigate to any workstation on Floor 1 to confirm internet connectivity. From the top left, select Building A. Under Building A, select Floor 1.Select a workstation (such as Office1).From the notification area, right-click the Network icon and select Open Network & Internet settings. Verify that the workstation has internet connectivity. Add the media converter to the basement Workspace Move the Ethernet cable from the wall outlet to the media converter's Ethernet port Connect the SC to LC fiber cable to the media converter's LC port Connect the SC to LC cable to ports 23 and 24 on the fiber patch panel Plug in the media converter
You are a network technician for a small corporate network. You want to use DHCP to provide TCP/IP address information to the workstations in the network. You already have a Windows Server 2019 server named CorpDHCP installed and running as a guest on CorpServer. You have installed the DHCP server role, and now you are ready to configure an IPv4 scope. In this lab, your task is to complete the following: On the CorpDHCP server (running as a guest on CorpServer), create a DHCP IPv4 scope with the following parameters:Scope name: Address range: 192.168.0.20 to 192.168.0.200Length: 24Subnet mask: 255.255.255.0Exclusions and delays: Do not setLease duration: Accept the default durationScope option for the router (default gateway): 192.168.0.5Parent domain: Accept the defaultScope option for DNS servers: 163.128.78.93WINS Servers: Do not set On CorpDHCP, activate the Subnet1 scope. On Gst-Lap in the Lobby, confirm the DHCP scope settings by configuring the local area connection to obtain its IP and DNS addresses automatically from the DHCP server.
Access the CorpDHCP Hyper-V server. From Hyper-V Manager, select CORPSERVER. Resize the window to view all virtual machines. Double-click CorpDHCP to access the server. Access the DHCP New Scope Wizard. From Server Manager's menu bar, select Tools > DHCP. Expand CorpDHCP.CorpNet.local. Right-click IPv4 and select New Scope. Name the scope and configure the IP address range. From the New Scope Wizard, select Next. In the Name field, enter Subnet1 and then select Next. In the Start IP address field, enter 192.168.0.20. In the End IP address field, enter 192.168.0.200. Make sure the length is set to 24. Make sure the subnet mask is 255.255.255.0 and then select Next. From the Add Exclusions and Delay window, select Next. Use the default lease duration and select Next. Make sure Yes, I want to configure these options now is selected and then select Next. Configure the default gateway and DNS server. In the IP address field, enter the default gateway address of 192.168.0.5.Select Add and then select Next. In the IP address field, enter the DNS server address of 163.128.78.93.Select Add and then select Next. From the WINS Servers window, select Next. Activate the scope just created. Make sure Yes, I want to activate this scope now is selected and then select Next. Click Finish to close the wizard and create the scope. Configure the laptop in the Lobby to obtain IP and DNS addresses automatically from the DHCP server. From the top left, select Floor 1 Overview. Under Lobby, select Gst-Lap. In the notification area, right-click the Network icon and select Open Network and Internet settings. From the left pane, select Ethernet. From the right pane, select Change adapter options. Right-click Ethernet and then select Properties. Select Internet Protocol Version 4 (TCP/IPv4) and then click Properties. Select Obtain an IP address automatically. Select Obtain DNS server address automatically. Select OK. Click Close to close Ethernet Properties.
You work as the IT administrator for a small corporate network. An employee requires an IP for her work assignments. However, the DHCP server is unable to automatically issue the IP configuration. In this lab, your task is to: Configure a static IP address on the iPad using the following settings: IP address: 192.168.0.85 Subnet mask: 255.255.255.0 Default gateway: 192.168.0.5 DNS: 192.168.0.11 Join the iPad to the CorpNet network. Use @CorpNetWeRSecure!& as the password.
Complete this lab as follows: Access the iPad IP address settings dialog. Select Settings. Select Wi-Fi. Under Choose A Network, for CorpNet, select the information icon (i). Configure a static IP address.From the right pane, select Static. Configure the IP information as follows: IP address: 192.168.0.85 Subnet mask: 255.255.255.0 Router (default gateway): 192.168.0.5 DNS: 192.168.0.11 Join the iPad to the CorpNet network.S elect Join Network. In the Password field, type: @CorpNetWeRSecure!&Select Join.
You work as the IT administrator for a small corporate network. You need to configure the workstation in the executive office so it can connect to the local network and the internet. The workstation has two network interface cards (named Ethernet and Ethernet 2). Having two network cards allows the workstation to connect to the local network (as shown in the exhibits) and another small network, which is not yet built. In this lab, your task is to complete the following: For both network cards, configure the IP version 4 TCP/IP settings using the settings specified the table below. From the Exec computer, ping the preferred DNS server assigned to the Ethernet NIC to verify that it can communicate successfully. TCP/IP Setting or Info Ethernet- 2Subnet192.168.0.0/2410.0.0.0/16 IP address- Use the last valid address on the subnet. Use the last valid address on the subnet. Subnet mask- Use the default mask that matches the Class C subnet. Use the default mask that matches the Class B subnet. Default gateway- Choose the appropriate address for the router as shown in the exhibits. Do not configure a default gateway value. DNS server address- Use the address of an external DNS server as shown in the exhibits. Do not configure a DNS value.
EXPLANATION Complete this lab as follows: Access the properties for the NIC named Ethernet. Right-click Start and then select Settings. Select Network & Internet. From the right pane, select Change adapter options. Right-click Ethernet and then select Properties. Configure the IP version 4 TCP/IP settings for the Ethernet NIC. Select Internet Protocol Version 4 (TCP/IPv4).Select Properties. Make sure "Use the following IP address is selected". This lets you manually configure the IP address and default gateway. Configure the Internet Protocol information as follows: IP address: 192.168.0.254 Subnet mask: 255.255.255.0 Default gateway: 192.168.0.5 Preferred DNS server: 163.128.78.93 or 163.128.80.93 Select OK. Select Close. Configure the IP version 4 TCP/IP settings for the Ethernet 2 NIC. From the Network Connections window, right-click Ethernet 2 and then select Properties. Select Internet Protocol Version 4 (TCP/IPv4).Select Properties. Make sure Use the following IP address is selected. Configure the Internet Protocol information as follows: IP address: 10.0.255.254 Subnet mask: 255.255.0.0 Default gateway: None Preferred DNS server: None Select OK. Select Close. Ping the preferred DNS server assigned to the Ethernet NIC. Right-click Start and select Windows PowerShell. From the PowerShell prompt, type ping default_preferred_DNS_Server_address and then press Enter. Required Actions Configure settings for Local Area Connection Use 192.168.0.254 for the IP address Use 255.255.255.0 for the subnet mask Use 192.168.0.5 for the default gateway Use 163.128.78.93 or 163.128.80.93 as the preferred DNS server Configure settings for Local Area Connection 2 Use 10.0.255.254 for the IP address Use 255.255.0.0 for the subnet mask Do not configure a default gateway address Successfully ping the preferred DNS server
You just installed DHCP service on the CorpDHCP server. You configured two scopes. The scope for Building A (Subnet1) is configured on the 192.168.0.0 network. The scope for Building B (Subnet2) is configured on the 192.168.10.0 network. After activating the scopes, you find that clients on Subnet1 receive IP addressing information from the DHCP server, but clients on Subnet2 have IP addresses in the 169.254.0.0/16 range. You realize that DHCP messages are not being forwarded through the router. In this lab, your task is to: Use Routing and Remote Access to configure CorpServer2 as a DHCP relay agent by performing the following:Add the DHCP relay agent routing protocol.Add NetTeam as a DHCP relay agent interface.Set the boot threshold to 0.Configure the DHCP relay agent properties to identify 192.168.0.14 as the DHCP server. Renew the TCP/IP information on Exec2 (the client machine in Building B). Verify that Exec2 has a network connection.
EXPLANATION Complete this lab as follows: Add the DHCP relay agent routing protocol. From Server Manager, select Tools > Routing and Remote Access. Expand IPv4. Right-click General and select New Routing Protocol. Select DHCP Relay Agent and then select OK. Add and configure a relay agent interface. From the left pane, right-click DHCP Relay Agent and select New Interface. Select Net Team and then select OK. Make sure Relay DHCP packets is selected. Set the boot threshold to 0 (zero).Select OK. Configure the DHCP relay agent properties to identify the DHCP server. Right-click DHCP Relay Agent and select Properties. In the Server address field, enter 192.168.0.14 (the IP address of the DHCP server). Select Add and then select OK. Renew the TCP/IP address and verify the connection. From the top left, select Floor 1. Under Manager Office, select Exec2.Right-click Start and select Windows PowerShell (Admin). In PowerShell, type ipconfig. Notice that the current IP address is on the 169.254.0.0 network. In PowerShell, type ipconfig /renew and then press Enter. The computer should receive an address on the 192.168.10.0 network. From the taskbar, select the network icon to view the connection status.
3.6.4 Select a Networking Device You are working on a small network in which you used a hub to allow the Home-PC and Home-PC2 computers to communicate with each other while maintaining a connection to the internet. A customer noticed a communication delay whenever the computers use the network at the same time. You believe the delay might be related to the shared bandwidth on the network. You need to reconfigure the network to allow both computers a guaranteed bandwidth. You have decided to use the type of switch that lets you configure the port speed for Home-PC to be faster than Home-PC2. In this lab, your task is to: Connect the two computers using the appropriate network components.Place the appropriate networking device on the workspace. Do not select a device with unnecessary features, and do not include unnecessary devices.Move the power source from the hub to the new networking device.Move the Ethernet cables from the hub to the new networking device. Confirm that both computers have an active connection to the network and internet. In this lab, you are not required to configure the port speed on the networking device. However, the device should include this functionality.
EXPLANATION Complete this lab as follows: Add the managed switch and provided power to the switch.Under the Shelf, expand Networking Devices.Drag Managed Switch to the workspace, preferably next to the existing hub.Above the managed switch, select Back to switch to the back view of the managed switch.Above the hub, select Back to switch to the back view of the hub.Select the DC Power Connector on the hub and drag it to the power port on the switch. Move the Ethernet cables from the hub to the switch.Drag an RJ45 Connector cable from the hub to an open Ethernet port on the switch to connect Home-PC, Home-PC2, and the cable modem to the switch.Repeat step 2a for each RJ45 connection on the hub. Confirm that the Home-PC and Home-PC2 computers have active connections to the internet. On the Home-PC monitor, select Click to view Windows 10 to view the running operating system. Right-click Start and then select Settings. Select Network & Internet.The diagram should indicate an active connection to the home network and the internet. From the top navigation menu, select Bench. On the Home-PC2 monitor, select Click to view Windows 10. Right-click Start and then select Settings. Select Network & Internet.The diagram should indicate an active connection to the home network and the internet.
You work as the IT administrator for a small corporate network. The receptionist in your office has a laptop that runs Windows 10. He took it home and configured a static connection to his home network. When he returned to the office, he could no longer connect to the office network, which uses a DHCP server for IP address configuration. You need to configure the laptop to work on both networks (home and office). In this lab, your task is to configure the TCP/IPv4 properties for the Wi-Fi interface as follows: Verify the current state of the wireless network.Answer the question. Configure the interface to obtain its:IP address automatically.DNS server address automatically. Configure the alternate TCP/IP information using the following information:IP address: 172.16.0.12Subnet mask: 255.255.0.0Default gateway: 172.16.255.254Preferred DNS server: 198.60.22.2
EXPLANATION Complete this lab as follows: Determine the current state of the wireless network. From the Notification area, select the wireless Network icon to view the current state of the wireless network.From the top right, select Answer Questions. Answer the question. Access the Wi-Fi properties dialog. Right-click Start and then select Settings.Select Network & Internet.From the right pane, select Change adapter options. Right-click Wi-Fi and select Properties. Configure the TCP/IPv4 properties to obtain IP and DNS information automatically. Select Internet Protocol Version 4 (TCP/IPv4). Select Properties.Select Obtain IP address automatically. Select Obtain DNS server address automatically. Configure the alternate TCP/IP settings. Select the Alternate Configuration tab to define an alternate configuration for TCP/IP addressing. Select User configured to configure alternate IP settings. Configure the properties as follows: IP Address: 172.16.0.12 Subnet Mask: 255.255.0.0 Default Gateway: 172.16.255.254 Preferred DNS Server: 198.60.22.2 Select OK. Select Close. Determine the current state of the wireless network. Select the wireless Network icon in the Notification area and notice that it is now currently connected to the network. From the top right, select Answer Questions.Select Score Lab.
You work as the IT administrator for a small corporate network. To accommodate specific network communication needs for an upcoming project, you need to upgrade the network connection's speed for the Windows workstation located in the Executive Office. In this lab, your task is to: Install the network interface card with the fastest speed into the Exec computer. Connect the Exec computer to the local area network using the new network card and the appropriate cable. From the workstation's operating system, use the ping command to confirm that the workstation has a connection to the local network and the internet using the following:Local server IP address: 192.168.0.10ISP & internet provider: 198.28.2.254
EXPLANATION Complete this lab as follows: Insert the PCI adapter into the motherboard. Above the computer, select Motherboard to switch to the motherboard view of the computer. Under Shelf, expand Network Adapters. Drag the Network Adapter, Ethernet 10/100/1000BaseTX, PCIe card to a free PCIe slot on the computer's motherboard. Move the Ethernet cable from the computer's built-in network adapter to the new PCIe network card. Above the computer, select Back to switch to the back view of the computer.Drag the Ethernet cable from the built-in port to the port on the PCIe network adapter. Confirm that the computer is connected to the local network and the internet.Above the computer, select Front to switch to the front view of the computer.Select the power button on the computer case to turn on the computer.Wait for the operating system to load.Right-click Start and then select Windows PowerShell (Admin).From the PowerShell prompt, type ping 192.168.0.10 and then press Enter to test connectivity to the local network server.From the PowerShell prompt, type ping 198.28.2.254 and then press Enter to test connectivity to the internet.
3.6.3 Install a Switch You are working on a home office network. Recently, you added a cable modem to the network so the computer named Home-PC could connect to the internet. You also added the computer named Home-PC2 to your network, but your networking configuration only allows Home-PC to connect to the internet. You need to add a hub to the network so that both computers can communicate with each other and connect to the internet. The computers do not need to have guaranteed bandwidth for their network connections. In this lab, your task is to: Connect the Home-PC and the Home-PC2 using the hub on the Shelf.Place the hub in the workspace.Connect Home-PC to the hub.Reconnect the cables as necessary between the Home-PC and the cable modem.Use the AC to DC power adapter to provide power to the hub.Connect Home-PC2 to the hub. Confirm that both computers are properly connected to the network and internet.
EXPLANATION Complete this lab as follows: Place the hub in the workspace.Under Shelf, expand Networking Devices.Drag Hub, 1000BaseTX Ethernet1 to the workspace. Connect the Home-PC computer to the hub.Above the hub, select Back to switch to the back view of the hub.Above Home-PC computer, select Back to switch to the back view of the Home-PC computer.Select the Cat5e cable connected to the motherboard's NIC and drag the connector to an Ethernet port on the hub.Under Shelf, expand Cables.Select Cat5e Cable, RJ45.In the Selected Component pane:Drag an RJ45 Connector to the Ethernet port on the back of Home-PC. Drag the other RJ45 Connector to an Ethernet port on the hub. Provide power to the hub.Under Shelf, select Power Adapter, AC to DC.In the Selected Component pane:Drag the DC Power Connector to the port on the hub.Drag the AC power adapter to an empty outlet on the wall or surge protector. Confirm that Home-PC is properly connected to the network and internet.On Home-PC, select Click to view Windows 10.Right-click Start and then select Settings.The diagram should indicate an active connection to the home network and the internet. Connect the Home-PC2 computer to the hub.From the top left, select Bench.Above the Home-PC2 computer, select Back to switch to the back view of the Home-PC2. From the Shelf, select Cat5e Cable,RJ45. In the Selected Component pane:Drag an RJ45 Connector to the Ethernet port on the back of Home-PC2.Drag the other RJ45 Connector to an Ethernet port on the hub. Confirm that Home-PC2 is properly connected to the network and internet.On Home-PC2, select Click to view Windows 10.Right-click Start and then select Settings.Select Network & Internet.The diagram should indicate an active connection to the home network and the internet. You can also switch the hub to the front view to use the link lights to verify connectivity to the hub.