Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part

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Certificate

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66 Videos
20.01 Hours
250 Test Questions

Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part

Course Highlights

Closed Caption

Certificate

Dedicated Tutors

20.01 Hours
66 Videos

Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part

Course Description

20.01 Hours

66 Videos

Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part 2 is an essential certification exam designed for IT professionals seeking to advance their networking skills and knowledge. This exam is part of the Cisco CCNA certification track and focuses on building and managing complex network infrastructures. It covers a range of topics crucial for configuring, managing, and troubleshooting Cisco network devices.

The ICND2 exam delves into advanced networking concepts such as routing protocols (RIP, OSPF, EIGRP), VLANs, and inter-VLAN routing. It also addresses WAN technologies, including PPP and NAT, and provides insights into network security measures and device management. Candidates are expected to demonstrate their ability to implement and maintain network solutions that enhance performance and reliability.

Successful completion of the ICND2 exam confirms proficiency in key networking principles and the ability to work with Cisco networking devices. It prepares IT professionals for roles involving network administration, support, and management. This certification is valuable for those aiming to deepen their understanding of Cisco network technologies and advance their careers in networking and IT infrastructure.

Features of Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part

  1. Advanced Routing Protocols: Examines knowledge of routing protocols such as RIP, OSPF, and EIGRP for optimizing and managing network paths.
  2. Switching Technologies: Covers VLANs, inter-VLAN routing, and Layer 2 and Layer 3 switching concepts to enhance network segmentation and performance.
  3. WAN Technologies: Focuses on understanding and configuring WAN protocols, including PPP and NAT, for effective wide-area network connectivity.
  4. Network Security: Includes topics related to securing network devices and data, such as access control lists (ACLs) and security best practices.
  5. Network Management: Addresses skills for managing and troubleshooting Cisco devices, including device configuration and network monitoring.
  6. IPv4 and IPv6 Addressing: Ensures proficiency in both IPv4 and IPv6 addressing schemes for network design and implementation.
  7. Troubleshooting: Tests the ability to diagnose and resolve network issues, utilizing various troubleshooting tools and techniques.
  8. Device Configuration: Involves practical skills in configuring Cisco routers and switches to meet specific network requirements and scenarios.
Course Syllabus

Module 1: Configuring Ethernet LANs

  1. Introduction
  2. Ethernet LAN Fundamentals- Part 1
  3. Ethernet LAN Fundamentals- Part 2
  4. Implementing Virtual LANs- Part 1
  5. Implementing Virtual LANs- Part 2
  6. Using VLAN Trunking- Part 1
  7. Using VLAN Trunking- Part 2
  8. Understanding Spanning Tree Protocol- Part 1
  9. Understanding Spanning Tree Protocol- Part 2
  10. Understanding Spanning Tree Protocol- Part 3
  11. Spanning Tree Implementation- Part 1
  12. Spanning Tree Implementation- Part 2
  13. Spanning Tree Implementation- Part 3
  14. Security Management- Part 1
  15. Security Management- Part 2
  16. Security Management- Part 3
  17. Security Management- Part 4

Module 2: Configuring IPv4 Routing Protocols

  1. Understanding OSPF- Part 1
  2. Understanding OSPF- Part 2
  3. Understanding OSPF- Part 3
  4. Implementing OSPF- Part 1
  5. Implementing OSPF- Part 2
  6. Implementing OSPF- Part 3
  7. Implementing OSPF- Part 4
  8. Understanding EIGRP- Part 1
  9. Understanding EIGRP- Part 2
  10. Understanding EIGRP- Part 3
  11. Implementing EIGRP- Part 1
  12. Implementing EIGRP- Part 2
  13. Troubleshooting IPv4- Part 1
  14. Troubleshooting IPv4- Part 2
  15. Troubleshooting IPv4- Part 3

Module 3: Wide Area Networks

  1. Implementing Point-To-Point WANs- Part 1
  2. Implementing Point-To-Point WANs- Part 2
  3. Implementing Point-To-Point WANs- Part 3
  4. Private WANs With Ethernet And MPLS- Part 1
  5. Private WANs With Ethernet And MPLS- Part 2
  6. Private WANs With Ethernet And MPLS- Part 3
  7. Private WANs With Internet VPNs- Part 1
  8. Private WANs With Internet VPNs- Part 2
  9. Private WANs With Internet VPNs- Part 3

Module 4: IPv4 Services

  1. Basic Access Control Lists- Part 1
  2. Basic Access Control Lists- Part 2
  3. Advanced Access Control Lists- Part 1
  4. Advanced Access Control Lists- Part 2
  5. Quality Of Service- Part 1
  6. Quality Of Service- Part 2

Module 5: IPv4 Routing And Troubleshooting

  1. IPv4 Routing In The LAN- Part 1
  2. IPv4 Routing In The LAN- Part 2
  3. Implementing HSRP- Part 1
  4. Implementing HSRP- Part 2
  5. Troubleshooting IPv4 Routing- Part 1
  6. Troubleshooting IPv4 Routing- Part 2

Module 6: IPv6 Routing

  1. IPv6 Implementation And Routing Basics- Part 1
  2. IPv6 Implementation And Routing Basics- Part 2
  3. IPv6 Implementation And Routing Basics- Part 3
  4. IPv6 Implementation And Routing Basics- Part 4
  5. Implementing OSPF For IPv6- Part 1
  6. Implementing OSPF For IPv6- Part 2
  7. Implementing EIGRP For IPv6- Part 1
  8. Implementing EIGRP For IPv6- Part 2
  9. IPv6 Access Control Lists- Part 1
  10. IPv6 Access Control Lists- Part 2

Module 7: Cloud Based Networking

  1. Overview Of Cloud Computing- Part 1
  2. Overview Of Cloud Computing- Part 2
  3. Conclusion

What you’ll learn in this course:

The Interconnecting Cisco Networking Devices, Part 2 (ICND2) v3.0 course helps you prepare for the Cisco
CCNA® Routing and Switching certification and for associate-level routing and switching network engineering roles.
This course gives you the knowledge and skills you need to install, configure, operate, and troubleshoot a small
enterprise network. In addition this latest revision provides an understanding of Quality-of-Service (QoS) elements
and their applicability and of how virtualized and cloud services will interact with and impact enterprise networks,
along with an overview of network programmability and the related controller types and tools that are available to
support Software-Defined Network (SDN) architectures.
In this course, you’ll use a full suite of labs in the virtual Cisco IOS® Software environment, with flexible topologies
to help reinforce your knowledge and hands-on exercises that align to each lesson module.
This course is the second of two courses in a series that can help you prepare for the CCNA Routing and
Switching certification. The first course in the series is Interconnecting Cisco Networking Devices, Part 1
(ICND1).

Course Highlights

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Frequently Asked Questions

Instructional methods, course requirements, and learning technologies can vary significantly from one online program to the next, but the vast bulk of them use a learning management system (LMS) to deliver lectures and materials, monitor student progress, assess comprehension, and accept student work. LMS providers design these platforms to accommodate a multitude of instructor needs and preferences.

Online education may seem relatively new, but years of research suggests it can be just as effective as traditional coursework, and often more so. According to a U.S. Department of Education analysis of more than 1,000 learning studies, online students tend to outperform classroom-based students across most disciplines and demographics. Another major review published the same year found that online students had the advantage 70 percent of the time, a gap authors projected would only widen as programs and technologies evolve.

All new learning innovations are met with some degree of scrutiny, but skepticism subsides as methods become more mainstream. Such is the case for online learning. Studies indicate employers who are familiar with online degrees tend to view them more favorably, and more employers are acquainted with them than ever before. The majority of colleges now offer online degrees, including most public, not-for-profit, and Ivy League universities. Online learning is also increasingly prevalent in the workplace as more companies invest in web-based employee training and development programs.

The concern that online students cheat more than traditional students is perhaps misplaced. When researchers at Marshall University conducted a study to measure the prevalence of cheating in online and classroom-based courses, they concluded, “Somewhat surprisingly, the results showed higher rates of academic dishonesty in live courses.” The authors suggest the social familiarity of students in a classroom setting may lessen their sense of moral obligation.

Choosing the right course takes time and careful research no matter how one intends to study. Learning styles, goals, and programs always vary, but students considering online courses must consider technical skills, ability to self-motivate, and other factors specific to the medium. Online course demos and trials can also be helpful.
Our platform is typically designed to be as user-friendly as possible: intuitive controls, clear instructions, and tutorials guide students through new tasks. However, students still need basic computer skills to access and navigate these programs. These skills include: using a keyboard and a mouse; running computer programs; using the Internet; sending and receiving email; using word processing programs; and using forums and other collaborative tools. Most online programs publish such requirements on their websites. If not, an admissions adviser can help.

Frequently Asked Questions

Instructional methods, course requirements, and learning technologies can vary significantly from one online program to the next, but the vast bulk of them use a learning management system (LMS) to deliver lectures and materials, monitor student progress, assess comprehension, and accept student work. LMS providers design these platforms to accommodate a multitude of instructor needs and preferences.

Online education may seem relatively new, but years of research suggests it can be just as effective as traditional coursework, and often more so. According to a U.S. Department of Education analysis of more than 1,000 learning studies, online students tend to outperform classroom-based students across most disciplines and demographics. Another major review published the same year found that online students had the advantage 70 percent of the time, a gap authors projected would only widen as programs and technologies evolve.

All new learning innovations are met with some degree of scrutiny, but skepticism subsides as methods become more mainstream. Such is the case for online learning. Studies indicate employers who are familiar with online degrees tend to view them more favorably, and more employers are acquainted with them than ever before. The majority of colleges now offer online degrees, including most public, not-for-profit, and Ivy League universities. Online learning is also increasingly prevalent in the workplace as more companies invest in web-based employee training and development programs.

The concern that online students cheat more than traditional students is perhaps misplaced. When researchers at Marshall University conducted a study to measure the prevalence of cheating in online and classroom-based courses, they concluded, “Somewhat surprisingly, the results showed higher rates of academic dishonesty in live courses.” The authors suggest the social familiarity of students in a classroom setting may lessen their sense of moral obligation.

Choosing the right course takes time and careful research no matter how one intends to study. Learning styles, goals, and programs always vary, but students considering online courses must consider technical skills, ability to self-motivate, and other factors specific to the medium. Online course demos and trials can also be helpful.
Our platform is typically designed to be as user-friendly as possible: intuitive controls, clear instructions, and tutorials guide students through new tasks. However, students still need basic computer skills to access and navigate these programs. These skills include: using a keyboard and a mouse; running computer programs; using the Internet; sending and receiving email; using word processing programs; and using forums and other collaborative tools. Most online programs publish such requirements on their websites. If not, an admissions adviser can help.

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Description

Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part 2 is an essential certification exam designed for IT professionals seeking to advance their networking skills and knowledge. This exam is part of the Cisco CCNA certification track and focuses on building and managing complex network infrastructures. It covers a range of topics crucial for configuring, managing, and troubleshooting Cisco network devices.

The ICND2 exam delves into advanced networking concepts such as routing protocols (RIP, OSPF, EIGRP), VLANs, and inter-VLAN routing. It also addresses WAN technologies, including PPP and NAT, and provides insights into network security measures and device management. Candidates are expected to demonstrate their ability to implement and maintain network solutions that enhance performance and reliability.

Successful completion of the ICND2 exam confirms proficiency in key networking principles and the ability to work with Cisco networking devices. It prepares IT professionals for roles involving network administration, support, and management. This certification is valuable for those aiming to deepen their understanding of Cisco network technologies and advance their careers in networking and IT infrastructure.

Features of Cisco 200-105: ICND2 – Interconnecting Cisco Networking Devices Part

  1. Advanced Routing Protocols: Examines knowledge of routing protocols such as RIP, OSPF, and EIGRP for optimizing and managing network paths.
  2. Switching Technologies: Covers VLANs, inter-VLAN routing, and Layer 2 and Layer 3 switching concepts to enhance network segmentation and performance.
  3. WAN Technologies: Focuses on understanding and configuring WAN protocols, including PPP and NAT, for effective wide-area network connectivity.
  4. Network Security: Includes topics related to securing network devices and data, such as access control lists (ACLs) and security best practices.
  5. Network Management: Addresses skills for managing and troubleshooting Cisco devices, including device configuration and network monitoring.
  6. IPv4 and IPv6 Addressing: Ensures proficiency in both IPv4 and IPv6 addressing schemes for network design and implementation.
  7. Troubleshooting: Tests the ability to diagnose and resolve network issues, utilizing various troubleshooting tools and techniques.
  8. Device Configuration: Involves practical skills in configuring Cisco routers and switches to meet specific network requirements and scenarios.

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