CompTIA Network+ N10-008 Certification Training : Master The Objectives

Self-paced

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.

With internship

$864

~~$1199~~

Without internship

$269

~~$699~~

this course includes

46 Training Hours

189 On-demand Videos

Closed Captions

16 Topics

179 Prep Questions

Certificate of Completion

What you’ll
learn

01

Network Concepts

02

Infrastructure

03

Network Operations

04

Network Security

05

Network Troubleshooting and Tools

06

Network Technologies

Networking Salary & Position Options

Earning a CompTIA certification opens up a world of exciting career opportunities in the field of networking. As businesses increasingly rely on robust and secure network infrastructures, the demand for skilled professionals continues to grow. In this blog, we will delve into the various positions that a CompTIA Network+ certified individual can pursue and explore the associated high and low salaries. Additionally, we will highlight some typical responsibilities that come with each job title.

course CURRICULUM

Course introduction

0.1 Instructor Intro
0.2 Course Overview

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

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

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

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

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

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

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

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)

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)

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

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)

High Availability and Disaster Recovery

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)

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

Why become a Cybersecurity Engineer?

Growing Demand for Cybersecurity Professionals

The field of cybersecurity is experiencing rapid growth, driven by the escalating number and complexity of cyber threats. Both public and private sectors are investing heavily in cybersecurity measures to protect sensitive information and secure critical infrastructure. This increased investment has created a substantial demand for cybersecurity professionals, and the job market is teeming with opportunities. By becoming a cybersecurity engineer, you position yourself at the forefront of a booming industry with a multitude of career prospects.

Lucrative Salaries and Career Advancement

Cybersecurity professionals are highly sought after, and as a result, they enjoy attractive salaries and excellent benefits. The specialized skills and expertise required in this field command a premium in the job market. Furthermore, as you gain experience and demonstrate your capabilities, the potential for career advancement becomes significant. Cybersecurity engineers can progress to leadership positions, such as Chief Information Security Officer (CISO), and take on strategic roles in shaping an organization's security posture.

Global Relevance and Job Security

Cybersecurity is a global concern affecting organizations of all sizes and industries worldwide. The need for cybersecurity professionals extends beyond borders, making it a globally relevant field. By becoming a cybersecurity engineer, you equip yourself with skills that are in demand not only locally but also internationally. Job security in the field of cybersecurity is robust, as the increasing threat landscape ensures a constant need for skilled professionals to protect against attacks and mitigate risks.

Continuous Learning and Growth

The field of UX/UI design is dynamic and ever-evolving. To stay competitive, designers need to keep learning and adapting to new technologies and design trends. This continuous learning keeps the work interesting and provides opportunities for personal and professional growth.

Opportunities for growth

As software testers gain experience and develop their skills, they can take on more challenging roles and responsibilities. This can lead to promotions and career advancement opportunities. Most Manual testers progress to QA automation, Software development, DevOps, or Cloud Engineering.

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Our talentstories

We connect learners with peers and experts from around the world, facilitating networking and collaboration opportunities.

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IBT Training's DevOps course provided a comprehensive and insightful learning experience with valuable hands-on exercises. While the internship placement was beneficial, additional guidance could enhance the overall transition. Overall, IBT Training lays a solid foundation for entering the DevOps field.

Olaniyan Olatunde Kubernetes Admin, Microsoft

Enrolling in this course proved career-defining, offering invaluable knowledge and a guaranteed internship. It set me on a path to success, delivering everything promised—free certification, ongoing learning, and the ability to pass my sec+ on the first try.

Solomon Awuku Cybersecurity Analyst, Tek Computers

Upon completing the class, I felt confident and prepared to embark on a career in cybersecurity. The skills and knowledge I acquired have already proven invaluable, as I find myself better equipped to tackle real-world challenges and contribute to the protection of digital assets.

Raymond A. CYBERSECURITY ANALYST BLUE CROSS

"IBT Learning is an outstanding tech school, with experienced teachers. Graduates gain hands-on experience with management tools such as Git, Maven, Nexus, SonarQube, Ansible, Docker for microservices, Kubernetes for container orchestration, and Terraform for Infras as Code"

Landric N DevOps Engineer, Transportation Insight

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Your Questions, Answered

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.