Network+ Online Class for Certification
 Our Network+ certification training prepares you for supporting and administrating a network.
Network+ certification demonstrates your technical abilities in networking administration and support, and validates your knowledge of media and topologies, protocols and standards,
network implementation, and network support.
Our Online courses are pre-recorded classes that are available to you 24 x7 365 days a year.
Our instructors take you step by step through your Network+ Certification training. There are lab simulator that allow you to practice different tasks and hundreds of practice exam questions to
make sure you are ready for the certification exams. You also have access to our trainers by phone or over the internet to answer any of your questions.
Our Online Training Includes
- The Network+ Course Online
- One Year of Access and Free Upgrades Online. Guaranteed lastest test information
- CompTIA Approved Courseware
- Online Simulated Test Quizzers
- Online Mentoring support to trainers 24 x 7
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A+/ Network+ Online Training Classes
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netraino
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$399.00
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CompTIA Network+ Certification Training Online Class covers the following courses:
 Media and Topologies
Recognize the following logical or physical network topologies given a schematic diagram or description
- Star/hierarchical
- bus
- mesh
- ring
- wireless
Specify the main features of 802.2 (LLC), 802.3 (Ethernet), 802.5 (token ring), 802.11b (wireless) and FDDI networking technologies, including
- Speed
- Access
- Method
- Topology
- Media
Specify the characteristics (e.g., speed, length, topology, cable type, etc.) of the following
- 802.3 (Ethernet) standards
- 10BASE-T
- 100BASE-TX
- 10BASE2
- 10BASE5
- 100BASE-FX
- Gigabit Ethernet
Recognize the following media connectors and/or describe their uses
- RJ-11
- RJ-45
- AUI
- BNC
- ST
- SC
Choose the appropriate media type and connectors to add a client to an existing network.
Identify the purpose, features, and functions of the following network components
- Hubs
- Switches
- Bridges
- Routers
- Gateways
- CSU/DSU
- Network Interface Cards/ISDN adapters/system area network cards
- Wireless access points
- Modems
Protocols and Standards
Given an example identify a MAC address
Identify the seven layers of the OSI model and their functions
Differentiate between the following network protocols in terms of routing, addressing schemes, interoperability, and naming conventions
- TCP/IP
- IPX/SPX
- NetBEUI
- AppleTalk
Identify the OSI layers at which the following network components operate
- Hubs
- Switches
- Bridges
- Routers
- Network Interface Cards
Define the purpose, function and/or use of the following protocols within TCP/IP
- IP
- TCP
- UDP
- FTP
- TFTP
- SMTP
- HTTP
- HTTPS
- POP3/IMAP4
- TELNET
- ICMP
- ARP
- NTP
Define the function of TCP/UDP ports. Identify well-known ports.
Identify the purpose of the following network services (e.g. DHCP/bootp, DNS, NAT/ICS, WINS, and SNMP)
Identify IP addresses (Ipv4, Ipv6) and their default subnet masks.
Identify the purpose of subnetting and default gateways.
Identify the differences between public vs. private networks
Identify the basic charachteristics (e.g., speed, capacity, media) of the following WAN technologies
Packet switching vs. circuit switching
- ISDN
- FDDI
- ATM
- Frame Relay
- Sonet/SDH
- T1/E1
- T3/E3
- Ocx
Define the function of the following remote access protocols and services
Identify the following security protocols and describe their purpose and function
Network Implementation
Identify the basic capabilities (i.e. client support, interoperability, authentication, file and print services, application support, and security) of the following server operating systems
- UNIX/Linux
- Netware
- Windows
- Macintosh
Identify the basic capabilities of client workstations (i.e., client connectivity, local security mechanisms, and authentication)
Identify the main characteristics of VLANs
Identify the main characteristics of network attached storage
Identify the purpose and characteristics of fault tolerance
Identify the purpose and characteristics of disaster recovery
Given a remote connectivity scenario (e.g., IP, IPX, dial-up, PPPoE, authentication, physical connectivity etc.), configure the connection.
Identify the purpose, benefits and characteristics of using a firewall.
Identify the purpose, benefits and characteristics of using a proxy.
Given a scenario, predict the impact of a particular security implementation on network functionality (e.g. blocking port numbers, encryption, etc.)
Given a network configuration, select the appropriate NIC and network configuration settings (DHCP, DNS, WINS, protocols, NETBIOS/host name, etc.)
Network Support
Given a troubleshooting scenario, select the appropriate TCP/IP utility from among the following
- Tracert
- Ping
- Arp
- Netstat
- Nbtstat
- Ipconfig/Ifconfig
- Winipcfg
- Nslookup
Given a troubleshooting scenario involving a small office/home office network failure (e.g., xDSL, cable, home satellite, wireless, POTS), identify the cause of the failure.
Given a troubleshooting scenario involving a remote connectivity problem (e.g., authentication failure, protocol configuration, physical connectivity) identify the cause of the problem.
Given specific parameters, configure a client to connect to the following servers
- UNIX/Linux
- Netware
- Windows
- Macintosh
Given a wiring task, select the appropriate tool (e.g., wire crimper, media tester/certifier, punch down tool, tone generator, optical tester, etc.).
Given a network scenario interpret visual indicators (e.g., link lights, collision lights, etc.) to determine the nature of the problem.
Given output from a diagnostic utility (e.g. tracert, ping, ipconfig, etc.), identify the utility and interpret the output.
Given a scenario, predict the impact of modifying, adding, or removing network services (e.g., DHCP, DNS, WINS, etc.) on network resources and users.
Given a network problem scenario, select an appropriate course of action based on a general troubleshooting strategy. This strategy includes the following steps
1. Establish the symptoms
2. Identify the affected area
3. Establish what has changed
4. Select the most probable cause
5. Implement a solution
6. Test the result
7. Recognize the potential effects of the solution
8. Document the solution
Given a troubleshooting scenario involving a network with a particular physical topology (i.e., bus, star/hierarchical,
mesh, ring, and wireless) and including a network diagram, identify the network area effected and the cause of the problem.
Given a network troubleshooting scenario involving a client connectivity problem (e.g., incorrect protocol/client
software/authentication configuration, or insufficient rights/permission), identify the cause of the problem.
Given a network troubleshooting scenario involving a wiring/infrastructure problem, identify the cause of the problem (e.g., bad media, interference, network hardware).
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