CompTIA Network+ N10-008 Certification Training : Master The Objectives
This Comptia Network course equips students with the essential skills, hands-on experience, and knowledge needed to design, build, and manage functional systems. It also covers maintenance and troubleshooting across various aspects of modern digital infrastructure. Upon completion, students will have a comprehensive understanding of all the objectives required to pass the CompTIA N10-008 exam, along with adequate preparation for the certification process.
Included In This Course
Closed Captions
Certificate of Completion
Course Description for CompTIA Network+ N10-008 Certification
The CompTIA Network+ N10-008 Certification course is meticulously designed to provide you with a solid foundation in networking. This course covers a broad spectrum of networking concepts, from basic fundamentals to advanced protocols, ensuring you gain comprehensive knowledge in the field. You’ll explore critical topics such as the OSI model, TCP/IP protocols, network topologies, and much more, all essential for managing and securing modern network infrastructures.
Throughout the course, you’ll engage in practical activities like configuring IP settings, subnetting networks, and examining network protocols. These hands-on experiences are intended to reinforce your theoretical understanding and provide real-world applications. By the end of this course, you will be fully prepared to take the CompTIA Network+ N10-008 certification exam and embark on a successful career as a network professional, capable of handling complex networking environments.
What You Will Learn in CompTIA Network+ N10-008 Certification
By enrolling in this course, you will gain a deep understanding of essential networking concepts and hands-on experience with various tools and techniques. Here’s what you can expect to learn:
- Networking Fundamentals: Introduction to networking concepts and terminology.
- OSI and DoD Models: Understanding different network models and their layers.
- Protocols: In-depth knowledge of TCP, UDP, IP, ICMP, IGMP, and ARP.
- Network Topologies and Types: Exploring different network structures and their characteristics.
- Cables and Connectors: Learning about various cable types and their appropriate usage.
- IP Addressing: Mastering IPv4 and IPv6, subnetting, and supernetting techniques.
- Layer 7 Protocols: Understanding protocols related to remote control, file sharing, web, email, database, and security.
- Network Services: Configuring DHCP, DNS, NTP, and understanding cloud connectivity options.
- Networking Devices: Knowledge about repeaters, hubs, switches, routers, and security devices.
- Wireless Technologies: Basics of wireless networking, including Wi-Fi standards, security, and antennas.
- Network Performance: Monitoring performance metrics and using tools like SNMP and Netflow.
- High Availability and Disaster Recovery: Concepts and mechanisms to ensure network reliability.
- Network Security: Identifying common threats, implementing security measures, and managing authentication and authorization.
- Network Troubleshooting: Techniques to diagnose and resolve network issues effectively.
Who This CompTIA Network+ N10-008 Course is For
This course is ideal for anyone looking to enhance their networking skills and advance their career in IT. Whether you’re a beginner or an experienced professional, this course offers valuable insights and practical knowledge.
- Aspiring Network Professionals: Individuals aiming to start a career in networking.
- IT Professionals: System administrators, network administrators, and IT managers seeking to improve their networking expertise.
- Students and Graduates: Those studying IT or related fields who want to gain certification in networking.
- Career Changers: Professionals from other fields wanting to transition into networking roles.
Possible Jobs You Can Get With This Knowledge
The skills and knowledge gained from this course can open up various career opportunities in the IT networking field. Here are some roles you could pursue:
- Network Administrator: Managing and maintaining network systems.
- Network Engineer: Designing and implementing network solutions.
- Systems Engineer: Integrating and managing network and system infrastructures.
- Network Support Specialist: Providing technical support for network issues.
- IT Manager: Overseeing network operations and IT teams.
Average Industry Salaries for People with CompTIA Network+ N10-008 Skills
Investing in this course can significantly enhance your earning potential. Below are the average salary ranges for various networking roles:
- Network Administrators: $60,000 – $90,000 annually.
- Network Engineers: $75,000 – $110,000 per year.
- Systems Engineers: $80,000 – $120,000 annually.
- Network Support Specialists: $55,000 – $80,000 per year.
- IT Managers: $90,000 – $130,000 annually.
Get Started Today with CompTIA Network+ N10-008 Certification
Take the first step towards a successful career in networking by enrolling in the “CompTIA Network+ N10-008 Certification” course today. Gain extensive knowledge, practical skills, and industry-recognized certification to distinguish yourself in the job market. Join a community of learners and experts dedicated to mastering networking. Start now and secure your future in the ever-evolving field of IT networking.
Key Term Knowledge Base: Key Terms Related to CompTIA Network+ N10-008
Understanding the key terms related to CompTIA Network+ N10-008 is crucial for anyone preparing for the certification or working in network administration and IT infrastructure. This certification covers a broad range of networking concepts, from fundamental principles to advanced technologies, making it essential for professionals to be well-versed in these terms. The knowledge of these terms not only aids in passing the certification exam but also equips professionals with the language and concepts needed to excel in the field of networking.
Term | Definition |
---|---|
OSI Model | A conceptual framework used to understand and implement network communications between different systems. It divides networking functions into seven layers. |
TCP/IP Model | A set of communication protocols used to interconnect network devices on the internet. |
IPv4 | Internet Protocol version 4, the fourth version of the Internet Protocol, used to identify devices on a network using an addressing system. |
IPv6 | Internet Protocol version 6, the most recent version of the Internet Protocol, providing an identification and location system for computers on networks. |
Subnetting | The practice of dividing a network into two or more networks, improving performance and security. |
DHCP | Dynamic Host Configuration Protocol, a network management protocol used to automate the process of configuring devices on IP networks. |
DNS | Domain Name System, a hierarchical and decentralized naming system for computers, services, or other resources connected to the Internet or a private network. |
VLAN | Virtual Local Area Network, a group of devices on one or more LANs that are configured to communicate as if they are attached to the same wire. |
NAT | Network Address Translation, a method of remapping one IP address space into another. |
Firewall | A network security device that monitors and filters incoming and outgoing network traffic based on an organization’s previously established security policies. |
VPN | Virtual Private Network, extends a private network across a public network, enabling users to send and receive data across shared or public networks. |
Wireless Standards | Set of protocols for wireless communication, for example, 802.11a/b/g/n/ac. |
Network Topologies | The arrangement of a network, including its nodes and connecting lines. |
Switches | Networking devices that connect devices together on a computer network. |
Routers | Networking devices that forwards data packets between computer networks. |
Protocol | A set of rules governing the format of messages that are exchanged between computers. |
Ethernet | A family of computer networking technologies commonly used in local area networks (LAN), metropolitan area networks (MAN) and wide area networks (WAN). |
WAN | Wide Area Network, a network that extends over a large geographical area for the purpose of computer networking. |
LAN | Local Area Network, a computer network that interconnects computers within a limited area. |
Cloud Computing | The delivery of different services through the Internet, including data storage, servers, databases, networking, and software. |
Network Security | Measures to protect data during their transmission over a network of computers. |
Troubleshooting | The process of diagnosing the source of a problem in a computer network. |
QoS | Quality of Service, the description or measurement of the overall performance of a service. |
SNMP | Simple Network Management Protocol, an Internet Standard protocol for collecting and organizing information about managed devices on IP networks. |
BGP | Border Gateway Protocol, a standardized exterior gateway protocol designed to exchange routing and reachability information among autonomous systems on the Internet. |
VoIP | Voice over Internet Protocol, a methodology and group of technologies for the delivery of voice communications and multimedia sessions over Internet Protocol (IP) networks. |
SDN | Software-Defined Networking, an approach to network management that enables dynamic, programmatically efficient network configuration. |
Network Operations | The activities, methods, procedures, and tools that pertain to the operation, administration, maintenance, and provisioning of networked systems. |
Network Infrastructure | The hardware and software resources of an entire network that enable network connectivity, communication, operations, and management. |
Cybersecurity | The practice of defending computers, servers, mobile devices, electronic systems, networks, and data from malicious attacks. |
Bandwidth | The maximum rate of data transfer across a given path. |
Load Balancing | The process of distributing a set of tasks over a set of resources, with the aim of making their overall processing more efficient. |
Network Monitoring | The use of a system that constantly monitors a computer network for slow or failing components. |
Packet Switching | A method of grouping data that is transmitted over a digital network into packets. |
Network Interface Card (NIC) | A hardware component that connects a computer to a network. |
Access Point | A device that allows wireless devices to connect to a wired network using Wi-Fi or related standards. |
Network Management | The process of administering, managing, and operating a data network, using a network management system. |
Network Architecture | The design of a computer network; it is a framework for the specification of a network’s physical components and their functional organization and configuration. |
Data Encryption | The process of encoding data so that only authorized parties can access it. |
Cloud Services | Services available to users on demand via the Internet from a cloud computing provider’s servers. |
Virtualization | The process of creating a virtual version of something, including virtual computer hardware platforms, storage devices, and computer network resources. |
Mesh Network | A network topology in which each node relays data for the network. |
Network Protocol | A set of rules that govern the communications between devices on a network. |
Network Cabling | The medium through which information usually moves from one network device to another. |
IP Addressing | Assigning an IP address to a computer or device in a network. |
Network Redundancy | Having multiple paths to ensure network communication during failure or maintenance. |
This list covers a comprehensive range of terms that are integral to understanding and working with CompTIA Network+ N10-008 concepts, offering a solid foundation for professionals in the field.
FAQs About CompTIA Network N10 008 Network Operations, Network Security, Network Troubleshooting Exam
Are there any prerequisites or is there any experience needed in order to take N10-008?
No. While some experience can be helpful, it is not required to take N10-008
What makes ITU’s CompTIA Network+ N10-008 more effective than the competition?
ITU’s course is built and delivered by a leading IT expert. ITU continuing education program incorporates many different learning methods networking concepts and technical skills into a single course for maximum effectiveness.
Is N10-007 or N10-008 harder?
Although N00-008’s objectives were updated not too drastically, the content is largely new. 85% Pass rates give a margin of error of 15%.
What is CompTIA N10-008?
CompTIA’s updated CompTIA Network+ certificate validates the knowledge needed to develop network infrastructure to mitigate security vulnerabilities. Our Free CompTIA Network+ N10-008 Objectives PDF will proivde you with details on each objective you’ll cover in our comprehensive training course.
What is the difference between N10-007 and N10-008?
The examination N10-007 only aims to demonstrate a broader knowledge about the virtualization system and N 10-008 tests the system more deeply and efficiently. For example, examination N11-008 tests the ability of the candidate to diagnose VMs that are not connected via a wired and wireless network, via network administrator, network exam, local area networks, wired and wireless networks, network administrator, exam, networks, via network administrator, via wired and wireless network, networks, network exam, local area networks, network administrator, local area networks, only, network, or the Internet.
Is the CompTIA Network+ exam hard?
The network certification exam focuses on computer networking concepts functional networks existing network configurations, wired and wireless infrastructure protocols segment network traffic, service and physical security, network security and other network problems, network troubleshooting, computer networking and other network troubleshooting and network problems too, networks and other network troubleshooting and other network troubleshooting and other network troubleshooting problems too. Although the difficulty of the exam and preparing for the exam objectives, the difficulty may differ by person. This exam is generally considered challenging.
Is CompTIA certification worth IT?
These technical skills also should help recruit managers for job roles. CompTIA Network+ certification exams will increase your resumes instantly on LinkedIn. Passing CompTIA Network+ network exam and comptia network certification and exams also is an excellent career-building tool for IT and network professionals, and network engineers who take comptia network exam and certification exams want to earn competitive salaries for job roles.
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Proudly DisplayYour Achievement
Upon completion of your training, you’ll receive a personalized certificate of completion to help validate to others your new skills.CompTIA Network+ N10-008 Course Content
Module 0 - Course introduction
- 0.1 Instructor Intro
- 0.2 Course Overview
Module 1 - Networking Fundamentals
- 1.1 Intro to Networking
- 1.1.1 Activity: Creating a Network
- 1.2 Common Terminology
- 1.2.1 Activity: Examining Ports and Sockets
- 1.3 OSI Model
- 1.4 DoD Model
- 1.4.1 Activity: Examining Network Layers
- 1.5 TCP, UDP, IP
- 1.5.1 Activity: Examining TCP
- 1.5.2 Activity: Examining UDP
- 1.5.3 Activity: Examining IP
- 1.6 ICMP, IGMP, ARP
- 1.6.1 Activity: Examining ICMP
- 1.6.2 Activity: Examining ARP
- 1.6.3 Activity: Examining IGMP
- 1.7 Network Topologies
- 1.8 Network Types
- 1.9 Part 1: Network Characteristics
- 1.9 Part 2: Network Characteristics
- 1.10 Module 1 outro
Module 2 - Cables and Connectors
- 2.1 Ethernet Standards
- 2.2 Copper Cable Types
- 2.3 Fiber Optic Cable Types
- 2.4 Connector Types
- 2.4.1 Activity: Selecting the Right Cable
- 2.5 Media Converters and Transceivers
- 2.6 Cable Management
- 2.7 Module 2 Outro
Module 3 - Internet Protocol (IP)
- 3.1 IPv4 Basics
- 3.2 IP Packet and Interface Types
- 3.2.1 Activity: Configuring Client IP Settings
- 3.3 Binary Numbering System
- 3.4 Classful and Classless Addressing
- 3.5 Understanding CIDR Notation
- 3.6 IPv4 Subnetting Method
- 3.7 Verifying with Binary
- 3.8 Finding Subnet IDs
- 3.8.1 Activity: Subnetting a Class C Network
- 3.9 The Delta in Action
- 3.9.1 Activity: Subnetting With the Delta
- 3.10 Subnetting Based on Hosts
- 3.11 Subnetting in Other Octets
- 3.12 Supernetting
- 3.12.1 Activity: Supernetting
- 3.13 IPv6
- 3.14 IPv4 - IPv6 Transition Mechanisms
- 3.15 Module 3 Outro
Module 4 - Layer 7 Protocols
- 4.1 Remote Control Protocols
- 4.2 File Sharing Protocols
- 4.3 Web Protcols
- 4.4 Email Protocols
- 4.5 Database Protocols
- 4.6 Voice Protocols
- 4.7 Security Protocols
- 4.8 Management Protocols
- 4.9 Module 4 Outro
Module 5 - Network Services
- 5.1 DHCP
- 5.1.1 Activity: Configuring DHCP
- 5.1.2 Activity: Configuring a DHCP Relay Agent
- 5.2 DNS
- 5.2.1 Activity: Configuring DNS - Part 1
- 5.2.2 Activity: Configuring DNS - Part 2
- 5.3 NTP
- 5.4 Corporate and Datacenter Network Architecture
- 5.5 Cloud Concepts and Connectivity Options
- 5.6 Module 5 Outro
Module 6 - Networking Devices
- 6.1 Introductory Concepts
- 6.2 Repeaters and Hubs
- 6.2.1 Activity: Connecting Devices with a Hub
- 6.3 Bridges and Switches
- 6.3.1 Activity: Connecting Devices with a Switch
- 6.4 Routers and Multilayer Switches
- 6.5 Security Devices
- 6.6 Modems
- 6.7 Module 6 Outro
Module 7 - Networked Devices
- 7.1 IP Devices
- 7.2 IoT
- 7.2.1 Activity - Programming IoT Devices
- 7.3 ICS/SCADA
- 7.4 Module 7 Outro
Module 8 - Routing and Bandwidth Management
- 8.1 Routing Basics
- 8.1.1 Activity: Configuring Static Routes
- 8.2 Packet Delivery on the Same Network
- 8.3 IP Routing Across a Single Router
- 8.4 IP Routing Across Multiple Hops
- 8.4.1 Activity: Static Routes - CHALLENGE
- 8.5 Route Selection
- 8.6 RIP
- 8.6.1 Activity: Configuring RIP - CHALLENGE
- 8.7 OSPF
- 8.8 EIGRP
- 8.9 BGP
- 8.10 NAT/PAT
- 8.11 Bandwidth Management (with Module 8 Outro)
Module 9 - Ethernet Switching
- 9.1 Ethernet Basics
- 9.2 Switching Overview
- 9.2.1 Activity: Examining a MAC Table
- 9.3 VLANs
- 9.3.1 Activity: Creating VLANs
- 9.4 VLAN Trunking
- 9.4.1 Activity: Configuring VLAN Trunking
- 9.5 VLAN Routing
- 9.5.1 Activity: Configuring VLAN Routing
- 9.6 Contention Management
- 9.7 Switchport Configuration (with Module 9 Outro)
Module 10 - Wireless Technologies
- 10.1 Wireless Overview
- 10.2 Radio Basics
- 10.3 Modulation
- 10.4 Wi-Fi Standards
- 10.5 Antennas
- 10.6 Wi-Fi Service Sets
- 10.7 Wi-Fi Security
- 10.8 Cellular
Module 11 Network Performance
- 11.1 Monitoring Performance
- 11.2 Common Metrics
- 11.2.1 Activity: Examining Interface Statistics
- 11.3 SNMP
- 11.4 Netflow
- 11.5 Network Security Monitoring (with Module 11 Outro)
Module 12 High Availability and Disaster Recovery
- 12.1 HA and DR Concepts
- 12.2 High Availability Mechanisms
- 12.3 Disaster Recovery Mechanisms
- 12.4 Facility and Infrastructure Support (with Module 12 Outro)
Module 13 Organizational Documents
- 13.1 Plans and Procedures
- 13.2 Security Policies
- 13.3 Loss Prevention
- 13.4 Common Agreements
- 13.5 Common Documentation
- 13.6 Structured Cabling - MDF and IDF
- 13.7 Horizontal and Vertical Cabling
- 13.7.1 Activity - Implementing Cable Management
- 13.8 Labeling
- 13.9 Surveys and Assessments (with Module 13 Outro)
Module 14 Network Security
- 14.1 Common Security Concepts
- 14.2 Common Attack Types
- 14.3 Spoofing-based Attacks
- 14.4 Hijacking and MITM
- 14.5 Social Engineering
- 14.6 Network Segmentation
- 14.7 Private VLANs
- 14.8 Single Organization Authentication
- 14.9 Extending Authentication
- 14.10 Authorization
- 14.11 Network Device Hardening
- 14.12 Wireless Security
- 14.13 Remote Access Security
- 14.14 IoT Security
- 14.15 Physical Security (with Module 14 Outro)
Module 15 Network Troubleshooting
- 15.1 Troubleshooting Methodology
- 15.2 Physical Connectivity Issues
- 15.3 Hardware Testing Tools
- 15.3.1 Activity - Testing an Ethernet Cable
- 15.3.2 Activity - Crimping on an RJ-45 Connector
- 15.3.3 Activity - Punching Down Twisted Pair
- 15.3.4 Activity - Using a Telephone Toner
- 15.4 Understanding Electricity
- 15.4.1 Activity - Checking Cable Continuity
- 15.4.2 Activity - Testing DC Voltage
- 15.4.3 Activity - Testing AC Voltage
- 15.5 Twisted Pair Pinout Problems
- 15.6 Twisted Pair Termination Problems
- 15.7 Repairing Damaged Twisted Pair Cable
- 15.8 Fiber Optic Connectivity Issues
- 15.8.1 Activity - Testing a Fiber Optic Cable
- 15.9 Common Port Problems
- 15.9.1 Working with Ports and Their Devices
- 15.10 Common Software Testing Tools
- 15.10.1 Activity - Scanning for Open Ports
- 15.11 Common Command Line Utilities
- 15.12 Troubleshooting Basic IP Networking Issues
- 15.13 Common Switching Issues
- 15.14 Switching Test Tools and Techniques
- 15.15 Common IP Routing Issues
- 15.16 Wi-Fi Access Point Issues
- 15.17 Wirelss Interference
- 15.17.1 Activity - Using a Spectrum Analyzer
- 15.18 Wireless Antenna Issues
- 15.18.1 Activity - Configuring a Wi-Fi Router
- 15.19 WAP Placement Strategies
- 15.20 Infrastructure Service Issues (DHCP)
- 15.21 Infrastructure Service Issues (DNS)
- 15.22 Infrastructure Service Issues (NTP)
- 15.23 Fireall / ACL Issues
- 15.24 VPN Issues
- 15.25 Additional Network Security Troubleshooting and Tips
- 15.26 Advanced Networking Issues
- 15.27 Troubleshooting Server Services (with Module 15 Outro)
- CompTIA Network+ N10-008 Course Outro
Your Training Instructor
Chrys Thorsen is an education and technology expert who specializes in enterprise-level IT infrastructure consulting and certified training-of-trainers. In her career, she has garnered over 50 IT Certifications including CISSP, CISA, CEHv12, PenTest+, CompTIA CNVP, Cisco CCSI/CCNP, Microsoft Cloud and on-premises technologies, VMware vSphere, and many more. She has also authored 40 published certification textbooks, and over 35 full-length IT certification video courses.
When not working in the United States, Chrys spends her time abroad capacity-building IT literacy in developing nations in Sub-Saharan Africa. Her client list has included: the US Federal Government, the Republic of Zambia Ministry of Health, Cavendish University Zambia, Accenture, JP Morgan Chase, the US Centers for Disease Control and Prevention, the Elizabeth Glaser Pediatric AIDS Foundation (EGPAF), Hughes Aircraft, Microsoft, and many more.
Chrys lives by, and is fond of repeating, her professional creed:
“The only true measure of success for any project or training is results on the ground. Everything else is just noise.” “I teach what I deploy; I deploy what I teach.”
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I’ve enjoyed the training so far. Wish it was more focused on Linux like other training, but still good.
The educators at ituonline.com are highly skilled but could improve their methods of instruction. In the CCNA 200-301 course, there’s a heavy emphasis on oral lectures, and it would be beneficial to include more in-depth visual aids. Annotating labs and graphics could also make the educational journey more effective. On the other hand, the N10-008 course instructor consistently offers top-notch material.
This course is super detailed but not boring, and they give you cool projects to actually practice what you’re learning.