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Updated in [March 06th, 2023]
This course provides an overview of the topics related to troubleshooting Campus Networks for the Cisco CCNA Exam. Students will learn about the ARP protocol, layer 3 switching, SVIs, routed ports, and more. They will also review multiple Ethernet troubleshooting scenarios and learn how to fix Campus Network issues. By the end of the course, students will have a better understanding of how to troubleshoot Ethernet networks and be better prepared for the CCNA exam.
[Applications]
After completing this course, students will be able to apply their knowledge of Ethernet troubleshooting to the CCNA 200-301 exam. They will be able to identify and troubleshoot issues related to ARP, MAC address learning, Ethernet frames, layer 3 switching, SVIs, routed ports, and more. Additionally, they will be able to explain the differences between ip-default gateway and ip default route. With this knowledge, students will be better prepared to pass the CCNA 200-301 exam.
[Career Paths]
The three job position paths recommended for learners of this course are:
1. Network Engineer: Network engineers are responsible for designing, implementing, and maintaining computer networks. They must be knowledgeable in a variety of networking technologies, such as Ethernet, TCP/IP, and routing protocols. Network engineers must also be able to troubleshoot network issues and identify and resolve problems. The demand for network engineers is increasing as businesses rely more heavily on technology and the need for secure and reliable networks.
2. Network Administrator: Network administrators are responsible for the day-to-day operations of a computer network. They must be knowledgeable in a variety of networking technologies, such as Ethernet, TCP/IP, and routing protocols. Network administrators must also be able to troubleshoot network issues and identify and resolve problems. The demand for network administrators is increasing as businesses rely more heavily on technology and the need for secure and reliable networks.
3. Network Security Engineer: Network security engineers are responsible for designing, implementing, and maintaining secure computer networks. They must be knowledgeable in a variety of networking technologies, such as Ethernet, TCP/IP, and routing protocols. Network security engineers must also be able to troubleshoot network issues and identify and resolve security issues. The demand for network security engineers is increasing as businesses rely more heavily on technology and the need for secure and reliable networks.
[Education Paths]
Recommended Degree Paths:
1. Bachelor of Science in Computer Networking: This degree program provides students with the knowledge and skills needed to design, implement, and manage computer networks. Students learn about network protocols, network security, network architecture, and network troubleshooting. This degree program is ideal for those interested in pursuing a career in network engineering, network administration, or network security.
2. Master of Science in Network Security: This degree program focuses on the security of computer networks. Students learn about network security protocols, network security architecture, and network security management. This degree program is ideal for those interested in pursuing a career in network security, network engineering, or network administration.
3. Master of Science in Network Engineering: This degree program focuses on the design and implementation of computer networks. Students learn about network protocols, network architecture, and network troubleshooting. This degree program is ideal for those interested in pursuing a career in network engineering, network administration, or network security.
4. Doctor of Philosophy in Networking: This degree program focuses on advanced topics in computer networking. Students learn about network protocols, network architecture, network security, and network troubleshooting. This degree program is ideal for those interested in pursuing a career in network engineering, network administration, or network security.
Developing Trends:
1. Network Automation: Network automation is becoming increasingly important as networks become more complex and require more efficient management. Network automation tools allow network administrators to automate tasks such as network configuration, network monitoring, and network troubleshooting.
2. Network Virtualization: Network virtualization is becoming increasingly important as networks become more complex and require more efficient management. Network virtualization allows network administrators to create virtual networks that can be managed and monitored more efficiently.
3. Network Security: Network security is becoming increasingly important as networks become more complex and require more secure management. Network security tools allow network administrators to protect networks from malicious attacks and unauthorized access.