Sure, here's a lab exercise for implementing static routes between multiple routers:
### Lab: Implementing Static Routes Between Multiple Routers
#### Objective: Configure static routes on multiple Cisco routers to establish connectivity between different networks.
#### Topology: ```
[Router A] -- [Router B] -- [Router C] | | | [Network A] [Network B] [Network C]
```
#### Steps:
1. Assign IP Addresses:
2. Configure Static Routes:
```
RouterA(config)# ip route <destination_network_B> <subnet_mask_B> <next_hop_RouterB_IP> RouterA(config)# ip route <destination_network_C> <subnet_mask_C> <next_hop_RouterB_IP> ``` - On Router B: ``` RouterB(config)# ip route <destination_network_A> <subnet_mask_A> <next_hop_RouterA_IP> RouterB(config)# ip route <destination_network_C> <subnet_mask_C> <next_hop_RouterC_IP> ``` - On Router C: ``` RouterC(config)# ip route <destination_network_A> <subnet_mask_A> <next_hop_RouterB_IP> RouterC(config)# ip route <destination_network_B> <subnet_mask_B> <next_hop_RouterB_IP> ```
3. Verify Connectivity:
4. Verify Routing Tables:
5. Test Redundancy:
6. Restore Connectivity:
#### Conclusion: This lab exercise provides hands-on experience with configuring static routes between multiple routers in a network topology. By completing this exercise, you will gain practical knowledge of configuring static routes, verifying connectivity, and observing routing table updates in response to network changes. Additionally, you will understand the importance of static routing in establishing connectivity and providing redundancy in a network environment.