Microsoft Networking Fundamentals (MTA Windows Server Administration Fundamentals) Exam Syllabus

Networking Fundamentals PDF, 98-366 Dumps, 98-366 PDF, Networking Fundamentals VCE, 98-366 Questions PDF, Microsoft 98-366 VCE, Microsoft MTA Windows Server Administration Fundamentals Dumps, Microsoft MTA Windows Server Administration Fundamentals PDFUse this quick start guide to collect all the information about Microsoft Networking Fundamentals (98-366) Certification exam. This study guide provides a list of objectives and resources that will help you prepare for items on the 98-366 Microsoft Networking Fundamentals exam. The Sample Questions will help you identify the type and difficulty level of the questions and the Practice Exams will make you familiar with the format and environment of an exam. You should refer this guide carefully before attempting your actual Microsoft MTA Windows Server Administration Fundamentals certification exam.

The Microsoft Networking Fundamentals certification is mainly targeted to those candidates who want to build their career in Windows Server domain. The Microsoft Technology Associate (MTA) - Networking Fundamentals exam verifies that the candidate possesses the fundamental knowledge and proven skills in the area of Microsoft MTA Windows Server Administration Fundamentals.

Microsoft Networking Fundamentals Exam Summary:

Exam Name Microsoft Technology Associate (MTA) - Networking Fundamentals
Exam Code 98-366
Exam Price $127 (USD)
Duration 45 mins
Number of Questions 40-60
Passing Score 700 / 1000
Books / Training 40032A: Networking and Security Fundamentals: Training 2-Pack for MTA Exams 98-366 and 98-367 (five days)
40366A: Networking Fundamentals: MTA Exam 98-366 (three days)
Schedule Exam Pearson VUE
Sample Questions Microsoft Networking Fundamentals Sample Questions
Practice Exam Microsoft 98-366 Certification Practice Exam

Microsoft 98-366 Exam Syllabus Topics:

Topic Details Weights
Understanding network infrastructures

Understand the concepts of Internet, intranet, and extranet
- Virtual Private Network (VPN), security zones, firewalls

Understand local area networks (LANs)
- Perimeter networks; addressing; reserved address ranges for local use (including local loopback IP), VLANs; wired LAN and wireless LAN

Understand wide area networks (WANs)
- Leased lines, dial-up, ISDN, VPN, T1, T3, E1, E3, DSL, cable modem, and more, and their characteristics (speed, availability)

Understand wireless networking
- Types of wireless networking standards and their characteristics (802.11a,b,g,n,ac including different GHz ranges), types of network security (WPA, WEP, 802.1X, and others), point-to-point (P2P) wireless, ad hoc networks, wireless bridging

Understand network topologies and access methods
- Star, mesh, ring, bus, logical and physical topologies

30-35%
Understanding network hardware

Understand switches
- Transmission speed, number and type of ports, number of uplinks, speed of uplinks, managed or unmanaged switches, VLAN capabilities, Layer 2 and Layer 3 switches and security options, hardware redundancy, support, backplane speed, switching types and MAC table, understand capabilities of hubs versus switches, virtual switches

Understand routers
- Transmission speed considerations, directly connected routes, static routing, dynamic routing (routing protocols), RIP vs. OSPF, default routes; routing table and how it selects best route(s); routing table memory, Network Address Translation (NAT), software routing in Windows Server, installing and configuring routing; Quality of Service (QoS)

Understand media types
- Cable types and their characteristics, including media segment length and speed; fiber optic; twisted pair shielded or unshielded; catxx cabling, wireless; susceptibility to external interference (machinery and power cables); susceptibility to electricity (lightning), susceptibility to interception

20-25%
Understanding protocols and services

Understand the Open Systems Interconnection (OSI) model
- OSI model; Transmission Control Protocol (TCP) model; examples of devices, protocols, applications, and which OSI/TCP layer they belong to; TCP and User Datagram Protocol (UDP); well-known ports for most used purposes (not necessarily Internet); packets and frames

Understand IPv4
- Subnetting, IPconfig, why use Internet Protocol version 4 (IPv4), addressing, ipv4toipv6 tunneling protocols to ensure backward compatibility, dual IP stack, subnetmask, gateway, ports, packets, reserved address ranges for local use (including local loopback IP)

Understand IPv6
- Subnetting, IPconfig, why use IPv6, addressing, ipv4toipv6 tunneling protocols to ensure backward compatibility, dual IP stack, subnetmask, gateway, ports, packets, reserved address ranges for local use (including local loopback IP)

Understand names resolution
- DNS, resource records, Windows Internet Name Service (WINS), steps in the name resolution process, HOSTS file, LMHOSTS file

Understand networking services
- Dynamic Host Configuration Protocol (DHCP), Network Address Translation (NAT), firewalls, remote access, VPN

Understand TCP/IP
- Tools (such as ping), tracert, pathping, Telnet, IPconfig, netstat, reserved address ranges for local use (including local loopback IP), protocols

40-45%

To ensure success in Microsoft MTA Windows Server Administration Fundamentals certification exam, we recommend authorized training course, practice test and hands-on experience to prepare for Microsoft Networking Fundamentals (98-366) exam.

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