- Packet Tracer 6.2.2.4
- 6.2 2.4 Packet Tracer Configuring Trunks Answers
- Packet Tracer 6.2.4.4
- 6.4.1.2 Packet Tracer
- Packet Tracer 6.2 2.4 Free Download
- Packet Tracer 6.2.2.4 Configuring Eigrp
- 6.2 2.4 Packet Tracer Configuring Trunks Instructions Answers
6.2.2.4 Packet Tracer – Configuring Basic EIGRP with IPv4
CCNA 2 Lab: 3.2.2.4/6.2.2.4 Packet Tracer - Configuring Trunks Instructions Answers file completed free download.pdf file Answers 100%. 6.2.2.4 Packet Tracer – Configuring Basic EIGRP with IPv4 Packet Tracer – Configuring Basic EIGRP with IPv4 (Answer Version) Answer Note: Red font color or Gray highlights indicate text that appears in the Answer copy only.
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Packet Tracer – Configuring Basic EIGRP with IPv4 (Answer Version)
Answer Note: Red font color or Gray highlights indicate text that appears in the Answer copy only.
Topology
6.2.2.4 Packet Tracer – Configuring Basic EIGRP with IPv4
Addressing Table
6.2.2.4 Packet Tracer – Configuring Trunks Packet Tracer – Configuring Trunks (Answer Version) Answer Note: Red font color or Gray highlights indicate text that appears in the Answer copy only. Topology Addressing Table Device Interface IP Address Subnet Mask Switch Port VLAN PC1 NIC 172.17.10.21 255.255.255.0 S2 F0/11 10 PC2 NIC 172.17.20. 6.2.2.4 Packet Tracer - Configuring IPv4 Static and Default Routes Instructions - AJHSaccuan - Free download as PDF File (.pdf), Text File (.txt) or read online for free.
Device | Interface | IP Address | Subnet Mask | Default Gateway |
R1 | G0/0 | 172.16.1.1 | 255.255.255.0 | N/A |
S0/0/0 | 172.16.3.1 | 255.255.255.252 | N/A | |
S0/0/1 | 192.168.10.5 | 255.255.255.252 | N/A | |
R2 | G0/0 | 172.16.2.1 | 255.255.255.0 | N/A |
S0/0/0 | 172.16.3.2 | 255.255.255.252 | N/A | |
S0/0/1 | 192.168.10.9 | 255.255.255.252 | N/A | |
R3 | G0/0 | 192.168.1.1 | 255.255.255.0 | N/A |
S0/0/0 | 192.168.10.6 | 255.255.255.252 | N/A | |
S0/0/1 | 192.168.10.10 | 255.255.255.252 | N/A | |
PC1 | NIC | 172.16.1.10 | 255.255.255.0 | 172.16.1.1 |
PC2 | NIC | 172.16.2.10 | 255.255.255.0 | 172.16.2.1 |
PC3 | NIC | 192.168.1.10 | 255.255.255.0 | 192.168.1.1 |
Objectives
Part 1: Configure EIGRP
Part 2: Verify EIGRP Routing
Background
In this activity, you will implement basic EIGRP configurations including network commands, passive interfaces and disabling automatic summarization. You will then verify your EIGRP configuration using a variety of show commands and testing end-to-end connectivity.
Part 1: Configure EIGRP
Step 1: Enable the EIGRP routing process.
Enable the EIGRP routing process on each router using AS number 1. The configuration for R1 is shown.
What is the range of numbers that can be used for AS numbers? 1 – 65,535
Step 2: Advertise directly connected networks.
- Use the show ip route command to display the directly connected networks on each router.
- How can you tell the difference between subnet addresses and interface addresses? Subnets are identified with a “C” and link addresses are identified with an “L”.
- On each router, configure EIGRP to advertise the specific directly connected subnets. The configuration for R1 is shown.
Step 3: Configure passive interfaces.
Configure the LAN interfaces to not advertise EIGRP updates. The configuration for R1 is shown.
Step 4: Disable automatic summarization.
The topology contains discontiguous networks. Therefore, disable automatic summarization on each router. The configuration for R1 is shown.
Note: Prior to IOS 15 auto-summary had to be manually disabled.
Step 5: Save the configurations.
Part 2: Verify EIGRP Routing
Step 1: Examine neighbor adjacencies.
- Which command displays the neighbors discovered by EIGRP? show ip eigrp neighbors
- All three routers should have two neighbors listed. The output for R1 should look similar to the following:
Step 2: Display the EIGRP routing protocol parameters.
Packet Tracer 6.2.2.4
- What command displays the parameters and other information about the current state of any active IPv4 routing protocol processes configured on the router? show ip protocols
- On R2, enter the command you listed for 2a and answer the following questions:
How many routers are sharing routing information with R2? 2
Where is this information located under? Routing Information Sources
What is the maximum hop count? 100
Step 3: Verify end-to-end connectivity
PC1, PC2 and PC3 should now be able to ping each other. If not, troubleshoot your EIGRP configurations.
Suggested Scoring Rubric
Activity Section | Question Location | Possible Points | Earned Points |
Part 1: Configure EIGRP | Step 1 | 2 | |
Step 2a | 2 | ||
Part 1 Total | 4 | ||
Part 2: Verify EIGRP Routing | Step 1a | 5 | |
Step 2a | 5 | ||
Step 2b | 6 | ||
Part 2 Total | 16 | ||
Packet Tracer Score | 80 | ||
Total Score | 100 |
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Packet Tracer – Configuring Trunks
Addressing Table
Objectives
Part 1: Verify VLANs
Part 2: Configure Trunks
Background
Trunks are required to pass VLAN information between switches. A port on a switch is either an access port or a trunk port. Access ports carry traffic from a specific VLAN assigned to the port. A trunk port by default is a member of all VLANs; therefore, it carries traffic for all VLANs. This activity focuses on creating trunk ports, and assigning them to a native VLAN other than the default.
Part 1: Verify VLANs
Step 1: Display the current VLANs.
a. On S1, issue the command that will display all VLANs configured. There should be 9 VLANs in total. Notice how all 26 ports on the switch are assigned to one port or another.
![Packet tracer 6.4.3.3 solutions Packet tracer 6.4.3.3 solutions](/uploads/1/1/9/5/119546956/392482290.jpg)
6.2 2.4 Packet Tracer Configuring Trunks Answers
b. On S2 and S3, display and verify all the VLANs are configure and assigned to the correct switchports according to the Addressing Table.
Step 2: Verify loss of connectivity between PCs on the same network.
Although PC1 and PC4 are on the same network, they cannot ping one another. This is because the ports connecting the switches are assigned to VLAN 1 by default. In order to provide connectivity between the PCs on the same network and VLAN, trunks must be configured.
Part 2: Configure Trunks
Step 1: Configure trunking on S1 and use VLAN 99 as the native VLAN.
a. Configure G1/1 and G1/2 interfaces on S1 for trunking.
Packet Tracer 6.2.4.4
S1(config)#int range g0/1 – 2
S1(config-if-range)#switchport mode trunk
S1(config-if-range)#switchport mode trunk
b. Configure VLAN 99 as the native VLAN for G1/1 and G1/2 interfaces on S1.
S1(config-if-range)#switchport trunk native vlan 99
The trunk port takes about a minute to become active due to Spanning Tree which you will learn in the proceeding chapters. Click Fast Forward Time to speed the process. After the ports become active, you will periodically receive the following syslog messages:
%CDP-4-NATIVE_VLAN_MISMATCH: Native VLAN mismatch discovered on GigabitEthernet1/2 (99), with S3 GigabitEthernet1/2 (1).
%CDP-4-NATIVE_VLAN_MISMATCH: Native VLAN mismatch discovered on GigabitEthernet1/1 (99), with S2 GigabitEthernet1/1 (1).
%CDP-4-NATIVE_VLAN_MISMATCH: Native VLAN mismatch discovered on GigabitEthernet1/1 (99), with S2 GigabitEthernet1/1 (1).
You configured VLAN 99 as the native VLAN on S1. However, the S2 and S3 are using VLAN 1 as the default native VLAN as indicated by the syslog message.
Although you have a native VLAN mismatch, pings between PCs on the same VLAN are now successful. Why?
Pings are successful because trunking has been enabled on S1. Dynamic Trunking Protocol (DTP) has automatically negotiated the other side of the trunk links. In this case, S2 and S3 have now automatically configured the ports attached to S1 as trunking ports.
6.4.1.2 Packet Tracer
Verify trunking is enabled on S2 and S3.
On S2 and S3, issue the show interface trunk command to confirm that DTP has successfully negotiated trunking with S1 on S2 and S3. The output also displays information about the trunk interfaces on S2 and S3.
Which active VLANs are allowed to across the trunk?
Which active VLANs are allowed to across the trunk?
1, 10, 20, 30, and 99
Step 2: Correct the native VLAN mismatch on S2 and S3.
Packet Tracer 6.2 2.4 Free Download
a. Configure VLAN 99 as the native VLAN for the appropriate interfaces on S2 and S3.
S2(config)#int g0/1
S2(config-if)#switchport trunk native vlan 99
S2(config-if)#switchport trunk native vlan 99
S3(config)#int g0/2
S3(config-if)#switchport trunk native vlan 99
S3(config-if)#switchport trunk native vlan 99
Packet Tracer 6.2.2.4 Configuring Eigrp
b. Issue show interface trunk command to verify the correct native VLAN configuration.
6.2 2.4 Packet Tracer Configuring Trunks Instructions Answers
Step 3: Verify configurations on S2 and S3.
a. Issue the show interface interface switchport command to verify that the native VLAN is now 99.
b. Use the show vlan command to display information regarding configured VLANs. Why is port G1/1 on S2 no longer assigned to VLAN 1?
Port G0/1 is a trunk port and trunks ports are not displayed
Suggested Scoring Rubric
Packet Tracer scores 80 points. The three questions in Step 1, 2 and 4 are worth 20 points.
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