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True or false Brouters combine the characteristics of switches and routers.?
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What objects are shaped like a quadrilateral?
Kites, computer screens, computer keys, and wireless routers are just a few objects shaped like quadrilaterals.
What are two effective measures for securing routers?
Use quotes or phrases to create pass phrases. Disable the HTTP server service.
What sends entire routing table to all routers at a schedule time?
It is typical for older routing protocols of the "distance vector" type, such as RIP, or IGRP, to send out their routing tables regularly to neighbors. By default, RIP does this every 30 seconds, while IGRP does it every 90 seconds.
What is the answer for 7.6.1 packet Tracer Skill Integration Challenge Activity?
PT Activity 7.6.1: Packet Tracer Skills Integration Challenge Topology Diagram Addressing Table Device Interface IP Address Subnet Mask Default Gateway Fa0/0 172.17.50.1 255.255.255.0 N/A Fa0/1.10 172.17.10.1 255.255.255.0 N/A Fa0/1.20 172.17.20.1 255.255.255.0 N/A Fa0/1.88 172.17.88.1 255.255.255.0 N/A R1 Fa0/1.99 172.17.99.1 255.255.255.0 N/A Internet 172.17.88.25 255.255.255.0 172.17.88.1 WRS2 LAN 172.17.40.1 255.255.255.0 N/A Internet 172.17.88.35 255.255.255.0 172.17.88.1 WRS3 LAN 172.17.30.1 255.255.255.0 N/A Addressing Table continued on the next page All contents are Copyright © 1992-2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 1 of 5 CCNA Exploration LAN Switching and Wireless: Basic Wireless Concepts and Configuration PT Activity 7.6.1: Skills Integration Challenge All contents are Copyright © 1992-2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 2 of 5 Addressing Table continued S1 VLAN 99 172.17.99.31 255.255.255.0 172.17.99.1 S2 VLAN 99 172.17.99.32 255.255.255.0 172.17.99.1 S3 VLAN 99 172.17.99.33 255.255.255.0 172.17.99.1 PC1 NIC 172.17.10.21 255.255.255.0 172.17.10.1 PC2 NIC 172.17.20.22 255.255.255.0 172.17.20.1 Learning Objectives • Configure and verify basic device configurations. • Configure VTP. • Configure trunking. • Configure VLANs. • Assign VLAN to ports. • Configure STP. • Configure router-on-a-stick inter-VLAN routing. • Configure wireless connectivity. • Verify end-to-end connectivity. Introduction In this final Packet Tracer Skills Integration Challenge activity for the Exploration: LAN Switching and Wireless course, you will apply all the skills you have learned including configuring VLANs and VTP, optimizing STP, enabling inter-VLAN routing and integrating wireless connectivity. Task 1: Configure and Verify Basic Device Configurations Step 1. Configure basic commands. Configure each switch with the following basic commands. Packet Tracer only grades the hostnames and default gateways. • Hostnames • Banner • Enable secret password • Line configurations • Service encryption • Switch default gateways Step 2. Configure the management VLAN interface on S1, S2, and S3. Create and enable interface VLAN 99 on each switch. Use the addressing table for address configuration. Step 3. Check results. Your completion percentage should be 13%. If not, click Check Results to see which required components are not yet completed. Task 2: Configure VTP CCNA Exploration LAN Switching and Wireless: Basic Wireless Concepts and Configuration PT Activity 7.6.1: Skills Integration Challenge All contents are Copyright © 1992-2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 3 of 5 Step 1. Configure the VTP mode on all three switches. Configure S1 as the server. Configure S2 and S3 as clients. Step 2. Configure the VTP domain name on all three switches. Use CCNA as the VTP domain name. Step 3. Configure the VTP domain password on all three switches. Use cisco as the VTP domain password. Step 4. Check results. Your completion percentage should be 21%. If not, click Check Results to see which required components are not yet completed. Task 3: Configure Trunking Step 1. Configure trunking on S1, S2, and S3. Configure the appropriate interfaces as trunks and assign VLAN 99 as the native VLAN. Step 2. Check results. Your completion percentage should be 44%. If not, click Check Results to see which required components are not yet completed. Task 4: Configure VLANs Step 1. Create the VLANs on S1. Create and name the following VLANs on S1 only. VTP advertises the new VLANs to S2 and S3. • VLAN 10 Faculty/Staff • VLAN 20 Students • VLAN 88 Wireless(Guest) • VLAN 99 Management&Default Step 2. Verify that VLANs have been sent to S2 and S3. Use the appropriate commands to verify that S2 and S3 now have the VLANs you created on S1. It may take a few minutes for Packet Tracer to simulate the VTP advertisements. Step 3. Check results. Your completion percentage should be 54%. If not, click Check Results to see which required components are not yet completed. Task 5: Assign VLANs to Ports Step 1. Assign VLANs to access ports on S2 and S3. Assign the PC access ports to VLANs: • VLAN 10: PC1 • VLAN 20: PC2 CCNA Exploration LAN Switching and Wireless: Basic Wireless Concepts and Configuration PT Activity 7.6.1: Skills Integration Challenge All contents are Copyright © 1992-2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 4 of 5 Assign the wireless router access ports to VLAN 88. Step 2. Verify VLAN implementation. Use the appropriate commands to verify your VLAN implementation. Step 3. Check results. Your completion percentage should be 61%. If not, click Check Results to see which required components are not yet completed. Task 6: Configure STP Step 1. Ensure that S1 is the root bridge for all spanning tree instances. Use 4096 priority. Step 2. Verify that S1 is the root bridge. Step 3. Check results. Your completion percentage should be 66%. If not, click Check Results to see which required components are not yet completed. Task 7: Configure Router-on-a-Stick Inter-VLAN Routing Step 1. Configure subinterfaces. Configure the Fa0/1 subinterfaces on R1 using the information from the addressing table. Step 2. Check results. Your completion percentage should be 79%. If not, click Check Results to see which required components are not yet completed. Task 8: Configure Wireless Connectivity Step 1. Configure IP Addressing for WRS2 and WRS3. Configure LAN settings and then static addressing on the Internet interfaces for both WRS2 and WRS3 using the addresses from the topology. Note: A bug in Packet Tracer may prevent you from assigning the static IP address first. A workaround for this issue is to configure the LAN settings first under Network Setup. Save the settings. Then configure the static IP information under Internet Connection Type and save settings again. Step 2. Configure wireless network settings. • The SSIDs for the routers are WRS2_LAN and WRS3_LAN, respectively. • The WEP for both is 12345ABCDE. Step 3. Configure the wireless routers for remote access. Configure the administration password as cisco123. Step 4. Configure PC3 and PC4 to access the network using DHCP. PC3 connects to the WRS2_LAN, and PC4 connects to the WRS3_LAN. CCNA Exploration LAN Switching and Wireless: Basic Wireless Concepts and Configuration PT Activity 7.6.1: Skills Integration Challenge All contents are Copyright © 1992-2007 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information. Page 5 of 5 Step 5. Verify remote access capability. Step 6. Check results. Your completion percentage should be 100%. If not, click Check Results to see which required components are not yet completed. Task 9: Verify End-to-End Connectivity Step 1. Verify that PC1 and Web/TFTP Server can ping each other. Step 2. Verify that PC1 and PC2 can ping each other. Step 3. Verify that PC3 and PC1 can ping each other. Step 4. Verify that PC2 and PC3 can ping each other.
Brouters combine the characteristics of switches and routers?
Yes
Do Brouters combine the characteristics of switches and routers?
Yes
Sophisticated networks generally use which of the following hardware devices to ease the flow of data packets throughout the network?
Modern networks used two devices for the data packets within the network will flow easily. The two devices are the routers and switches.
What is one feature that distinguishes routers from Layer 2 switches?
Routers support a variety of interface types. Switches typically support Ethernet interfaces.
What device separates collision domains?
Bridges, Switches and Routers will all separate collision domains.
How many routers and switches do you need to connect 81 computers?
Depends on how many switches each router takes. You need a router to connect all the other routers, and then enough switches to make 81. For example, you can use 6 16 port routers to connect the computers and 1 8 port router to connect those routers together
What is stack routers?
To stack routers means to physically stack routers. Some stack a couple of routers on top of each other if they plan to just use them as switches or similar.
What is Cisco most known for manufacturing and or selling?
routers and switches
Which usually connects a LAN togeather?
hubs, switches or routers.
What is the use of console port in cisco switches?
Like Cisco routers, most Cisco switches run IOS, and can be configured in a similar way. Older non-IOS switches still use the console port to configure them, just like the routers.
A network backbone is the WHAT that connects the hubs switches and routers on a network?
cabling
What are the peripheral involved in computer networking?
Routers, Switches, Cables, End devices .
