IT Certification
(MCSE, A+, CCIE, etc)

CompTIA NETWORK+ 2005

Video Instructor-Led Format

Audience	Administrators, Application developers, programmers, project leaders and other technical individuals that need to acquire the necessary skills to pass the CompTIA Network+ certification exam series.
Duration	5 CDs
Course Abstract	The Network+ certification covering the 2005 objectives, certifies that the successful candidates knows the layers of the OSI model, can describe the features and functions of network components and has the skills needed to install, configure, and troubleshoot basic networking hardware peripherals and protocols. A typical candidate should have CompTIA A+ certification or equivalent knowledge, though A+ certification is not required. In addition to A+ certification level knowledge, candidates are encouraged to have at least nine months of work experience in network support or administration.
Price	Single User (CDROM) $595.00 Singe User (eLearning Portal) $395.00 Multi-User LAN (2-5 users) $989.00 more than 5 users Call for Pricing
Program Includes	The following components are included in this course: 5 CDs with over 12 hours of videos instruction by Bill Ferguson 1 MeasureUp Exam Simulator Live Education Support from Certified Trainers Exclusive One on One Training and Career Advisor Exclusive Exam Pass Guarantee Free 12 Months CBT upgrade Windows 2003 Seminar more details
Course Experts	Bill Ferguson, MCT, MCSE, MCP+I, CCSI, CCNA, A+, Network+, Server+, has been in the computer industry for over 15 years. Originally, in technical sales and sales management with Sprint, Bill made his transition to Certified Technical Trainer in 1997 with ExecuTrain. Bill now runs his own company as an independent contractor in Birmingham , Alabama , teaching classes for most of the national training companies and some regional training companies as well as many corporations. In addition, Bill writes and produces technical training material for several companies. Bill has recently coauthored an ExamCram guide with Diane Barrett, Implementing and Administering Security in a Windows Server 2003 Network, and has written MCDST: Microsoft Certified Desktop Support Technician for Sybex Press. ... Click here to view Bill Fergusen on Microsoft.com
Course Topics	The following list represents the sections and topics discussed in this virtual instructor-led course offering.
	Domain 1.0 - Media and Topologies - 20% 1.1 Recognize the following logical or physical network topologies given a diagram, schematic or description: 1.2 Specify the main features of 802.2 (Logical Link Control), 802.3 (Ethernet), 802.5 (token ring), 802.11 (wireless), and FDDI (Fiber Distributed Data Interface) networking technologies, including: 1.3 Specify the characteristics (For example: speed, length, topology, and cable type) of the following cable standards: 1.4 Recognize the following media connectors and describe their uses: 1.6 Identify the purposes, features and functions of the following network components: 1.7 Specify the general characteristics (For example: carrier speed, frequency, transmission type and topology) of the following wireless technologies: 1.8 Identify factors which affect the range and speed of wireless service (For example: interference, antenna type and environmental factors). Domain 2.0 - Protocols and Standards - 20% 2.1 Identify a MAC (Media Access Control) address and its parts. 2.2 Identify the seven layers of the OSI (Open Systems Interconnect) model and their functions. 2.3 Identify the OSI (Open Systems Interconnect) layers at which the following network components operate: 2.4 Differentiate between the following network protocols in terms of routing, addressing schemes, interoperability and naming conventions: 2.5 Identify the components and structure of IP (Internet Protocol) addresses (IPv4, IPv6) and the required setting for connections across the Internet. 2.6 Identify classful IP (Internet Protocol) ranges and their subnet masks (For example: Class A, B and C). 2.7 Identify the purpose of subnetting. 2.8 Identify the differences between private and public network addressing schemes. 2.9 Identify and differentiate between the following IP (Internet Protocol) addressing methods. 2.10 Define the purpose, function and use of the following protocols used in the TCP / IP (Transmission Control Protocol / Internet Protocol) suite. 2.11 Define the function of TCP / UDP (Transmission Control Protocol / User Datagram Protocol) ports. 2.12 Identify the well-known ports associated with the following commonly used services and protocols: 2.13 Identify the purpose of network services and protocols (For example: DNS (Domain Name Service), NAT(Network Address Translation), ICS (Internet Connection Sharing), WINS (Windows Internet Name Service), SNMP (Simple Network Management Protocol), NFS (Network File System), Zeroconf (Zero configuration), SMB (Server Message Block), AFP (Apple File Protocol), LPD (Line Printer Daemon) and Samba). 2.14 Identify the basic characteristics (For example: speed, capacity and media) of the following WAN (Wide Area Networks) technologies: 2.15 Identify the basic characteristics of the following internet access technologies: 2.16 Define the function of the following remote access protocols and services: 2.17 Identify the following security protocols and describe their purpose and function: 2.18 Identify authentication protocols (For example: CHAP (Challenge Handshake Authentication Protocol), MS-CHAP (Microsoft Challenge Handshake Authentication Protocol), PAP (Password Authentication Protocol), RADIUS (Remote Authentication Dial-In User Service), Kerberos and EAP (Extensible Authentication Protocol)). Domain 3.0 Network Implementation - 25% 3.1 Identify the basic capabilities (For example: client support, interoperability, authentication, file and print services, application support and security) of the following server operating systems to access network resources: 3.2 Identify the basic capabilities needed for client workstations to connect to and use network resources (For example: media, network protocols and peer and server services). 3.3 Identify the appropriate tool for a given wiring task (For example: wire crimper, media tester / certifier, punch down tool or tone generator). 3.4 Given a remote connectivity scenario comprised of a protocol, an authentication scheme, and physical connectivity, configure the connection. Includes connection to the following servers: 3.5 Identify the purpose, benefits and characteristics of using a firewall. 3.6 Identify the purpose, benefits and characteristics of using a proxy service. 3.7 Given a connectivity scenario, determine the impact on network functionality of a particular security implementation (For example: port blocking / filtering, authentication and encryption). 3.8 Identify the main characteristics of VLANs (Virtual Local Area Networks). 3.9 Identify the main characteristics and purpose of extranets and intranets. 3.10 Identify the purpose, benefits and characteristics of using antivirus software. 3.11 Identify the purpose and characteristics of fault tolerance: 3.12 Identify the purpose and characteristics of disaster recovery: Domain 4.0 Network Support - 35% 4.1 Given a troubleshooting scenario, select the appropriate network utility from the following: 4.2 Given output from a network diagnostic utility (For example: those utilities listed in objective 4.1), identify the utility and interpret the output. 4.3 Given a network scenario, interpret visual indicators (For example: link LEDs (Light Emitting Diode) and collision LEDs (Light Emitting Diode)) to determine the nature of a stated problem. 4.4 Given a troubleshooting scenario involving a client accessing remote network services, identify the cause of the problem (For example: file services, print services, authentication failure, protocol configuration, physical connectivity and SOHO (Small Office / Home Office) router). 4.5 Given a troubleshooting scenario between a client and the following server environments, identify the cause of a stated problem: 4.6 Given a scenario, determine the impact of modifying, adding or removing network services (For example: DHCP (Dynamic Host Configuration Protocol), DNS (Domain Name Service) and WINS (Windows Internet Name Service)) for network resources and users. 4.7 Given a troubleshooting scenario involving a network with a particular physical topology (For example: bus star, mesh or ring) and including a network diagram, identify the network area affected and the cause of the stated failure. 4.8 Given a network troubleshooting scenario involving an infrastructure (For example: wired or wireless) problem, identify the cause of a stated problem (For example: bad media, interference, network hardware or environment). 4.9 Given a network problem scenario, select an appropriate course of action based on a logical troubleshooting strategy.