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Network+ Certification Practice Questions Exam Cram 2 (Exam N10-003) View Larger Image | Charles J. Brooks
Que, Paperback, 2nd Bk&CD edition, Published June 2005, 264 pages, ISBN 0789733528 | List Price: $24.99
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Exam Cram 2 Practice Questions provides you with more than 500 practice
test questions for Exam N10-003. We will also provide you with complete
answer explanations and the "Cram Sheet" tear card that makes this the perfect
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Table of Contents
Introduction
1: Media
and Topologies
Domain 1.0: Media and Topologies
Objective 1.1: Recognize Logical or Physical Topologies, Given a Schematic
Diagram or Description
Objective 1.2: Specify the Main Features of the 802.2 (LLC), 802.3 (Ethernet),
802.5 (Token Ring), 802.11 (Wireless), and FDDI Networking Technologies
Objective 1.3: Specify the Characteristics (e.g., Speed, Length, Topology,
Cable Type, etc.) of the Following Cable Standards: 10BASE-T, 10BASE-FL,
100BASE-TX, 100BASE-FX, 1000BASE-T, 1000BASE-CX, 1000BASE-SX, 1000BASE-LX,
10GBASE-SR, 10GBASE-LR, and 10G
Objective 1.4: Recognize the Following Media Connectors and Describe Their
Uses: RJ-11, RJ-45, F-Type, ST, SC, IEEE-1394, Fiber LC, MT-RJ, and USB
Objective 1.5: Recognize the Following Media Types and Describe Their Use:
Cat 3,5,5e, and 6, UTP, STP, Coax, Single-Mode Fiber, and Multimode Fiber
Objective 1.6: Identify the Purpose, Features, and Functions of the Following
Network Components: Hubs, Switches, Bridges, Routers, Gateways, CSU/DSU,
NICs, ISDN, WAPs, Modems, Transceivers, and Firewalls
Objective 1.7: Specify the General Characteristics (For Example:
Speed, Carrier Speed, Frequency, Transmission Type and Topology) of the
Following Wireless Technologies: 802.11 (Frequency Hopping Spread Spectrum),
802.11x (Direct Sequence Spread Spectrum)
Objective 1.8: Identify Factors That Affect the Range and Speed of Wireless
Service (For Example: Interference, Antenna Type and Environmental Factors)
Quick Check Answer Key
Objective 1.1: Recognize Logical or Physical Topologies, Given a Schematic
Diagram or Description
Objective 1.2: Specify the Main Features of the 802.2 (LLC), 802.3 (Ethernet),
802.5 (Token Ring), 802.11 (Wireless), and FDDI Networking Technologies
Objective 1.3: Specify the Characteristics (For Example, Speed, Length,
Topology, Cable Type, and so on) of the Following Cable Standards: 10BASE-T,
10BASE-FL, 100BASE-TX, 100BASE-FX, 1000BASE-T, 1000BASE-CX, 1000BASE-SX,
1000BASE-LX, 10GBASE-SR, 10GBASE-
Objective 1.4: Recognize the Following Media Connectors and Describe Their
Uses: RJ-11, RJ-45, F-Type, ST, SC, IEEE-1394, Fiber LC, MT-RJ, and USB
Objective 1.5: Recognize the Following Media Types and Describe Their Use:
Cat 3,5,5e, and 6, UTP, STP, Coax, Single-Mode Fiber, and Multimode Fiber
Objective 1.6: Identify the Purpose, Features, and Functions of the Following
Network Components: Hubs, Switches, Bridges, Routers, Gateways, CSU/DSU,
NICs, ISDN, WAPs, Modems, Transceivers, and Firewalls
Objective 1.7: Specify the General Characteristics (For Example: Speed,
Carrier Speed, Frequency, Transmission Type and Topology) of the Following
Wireless Technologies: 802.11 (Frequency Hopping Spread Spectrum), 802.11x
(Direct Sequence Spread Spectrum)
Objective 1.8: Identify Factors That Affect the Range and Speed of Wireless
Service (For Example: Interference, Antenna Type, and Environmental Factors)
Answers and Explanations
Objective 1.1
Objective 1.2
Objective 1.3
Objective 1.4
Objective 1.5
Objective 1.6
Objective 1.7
Objective 1.8
2: Protocols
and Standards
Domain 2.0: Protocols and Standards
Objective 2.1: Given an Example, Identify a Media Access Control (MAC) Address
and its Parts
Objective 2.2: Identify the Seven Layers of the OSI Model and Their Functions
Objective 2.3: Identify the OSI Layers at Which the Following Network Devices
Operate: Hubs, Switches, Bridges, Routers, NICs, and WAPs
Objective 2.4: Differentiate Between the Network Protocols in Terms of Routing,
Addressing Schemes, Interoperability, and Naming Conventions for IPX/SPX,
NetBEUI, AppleTalk, and TCP/IP
Objective 2.5: Identify the Components and Structure of IP Addresses (Ipv4,
Ipv6) and Required Settings for Connections Across the Internet
Objective 2.6: Identify Classful IP Address Ranges and Their Default Subnet
Masks
Objective 2.7: Identify the Purpose of Subnetting
Objective 2.8: Identify the Differences Between Public vs. Private Network
Addressing Schemes
Objective 2.9: Identify and Differentiate Between the Following IP Addressing
Methods: Static, Dynamic, and Self-Assigned (APIPA)
Objective 2.10: Define the Purpose, Function, and Use of the Following Protocols
Within the TCP/IP Suite: TCP, UDP, FTP, SFTP, TFTP, SMTP, HTTP, HTTPS, POP3/IMAP4,
Telnet, SSH, ICMP, ARP, NTP, NNTP, SCP, LDAP, IGMP, and LPR
Objectives 2.11 and 2.12: Define the Function of TCP/UDP Ports and Identify
Well-Known Ports Associated with the Following Commonly Used Services and
Protocols: FTP, SSH, Telnet, SMTP, DNS, TFTP, HTTP, POP3, NNTP, NTP, IMPA4,
and HTTPS
Objective 2.13: Identify the Purpose of the Following Network Services and
Protocols: DHCP/BOOTP, DNS, NAT/ICS, WINS, SNMP, NFS, Zeroconfig, SMB, AFP,
LDP, and Samba
Objective 2.14: Identify the Basic Characteristics (For Example, Speed,
Capacity, Media) of the Following WAN Technologies: Packet Switching, Circuit
Switching, ISDN, FDDI, T1/E1/J1, T3/E3/J3, OC-x, and X.25
Objective 2.15: Identify the Basic Characteristics of the Following Internet
Access Technologies: xDSL, Broadband Cable, POTS/PSTN, Satellite, and Wireless
Objective 2.16: Define the Function of the Following Remote Access Protocols
and Services: RAS, PPP, SLIP, PPPoE, PPTP, VPN and RDP
Objective 2.17: Identify the Following Security Protocols and Describe Their
Purpose and Function: IPsec, L2TP, SSL, WEP, WPA, and 802.1x
Objective 2.18: Identify Authentication Protocols (For Example: CHAP, MS-CHAP,
PAP, RADIUS, Kerberos, and EAP)
Objective 2.1: Given an Example, Identify a Media Access Control (MAC) Address
Objective 2.2: Identify the Seven Layers of the OSI Model and Their Functions
Objective 2.3: Identify the OSI Layers at Which the Following Network Devices
Operate: Hubs, Switches, Bridges, Routers, NICs, and WAPs
Objective 2.4: Differentiate Between the Network Protocols in Terms of Routing,
Addressing Schemes, Interoperability, and Naming Conventions for IPX/SPX,
NetBEUI, AppleTalk, and TCP/IP
Objective 2.5: Identify the Components and Structure of IP Addresses
(Ipv4, Ipv6) and Required Settings for Connections Across the Internet
Objective 2.6: Identify Classful IP Address Ranges and Their Default Subnet
Masks
Objective 2.7: Identify the Purpose of Subnetting
Objective 2.8: Identify the Differences Between Public Versus Private Network
Addressing Schemes
Objective 2.9: Identify and Differentiate Between the Following IP Addressing
Methods: Static, Dynamic, and Self-Assigned (APIPA)
Objective 2.10: Define the Purpose, Function, and Use of the Following Protocols
Within the TCP/IP Suite: TCP, UDP, FTP, SFTP, TFTP, SMTP, HTTP, HTTPS, POP3/IMAP4,
Telnet, SSH, ICMP, ARP, NTP, NNTP, SCP, LDAP, IGMP, and LPR
Objectives 2.11 and 2.12: Define the Function of TCP/UDP Ports and Identify
Well-Known Ports Associated with the Following Commonly Used Services and
Protocols: FTP, SSH, Telnet, SMTP, DNS, TFTP, HTTP, POP3, NNTP, NTP, IMPA4,
and HTTPS
Objective 2.13: Identify the Purpose of the Following Network Services and
Protocols: DHCP/BOOTP, DNS, NAT/ICS, WINS, SNMP, NFS, Zeroconf, SMB, AFP,
LDP, and Samba
Objective 2.14: Identify the Basic Characteristics (For Example, Speed,
Capacity, Media) of the Following WAN Technologies: Packet Switching, Circuit
Switching, ISDN, FDDI, T1/E1/J1, T3/E3/J3, OC-x, and X.25
Objective 2.15: Identify the Basic Characteristics of the Following Internet
Access Technologies: xDSL, Broadband Cable, POTS/PSTN, Satellite, and Wireless
Objective 2.16: Define the Function of the Following Remote Access Protocols
and Services: RAS, PPP, SLIP, PPPoE, PPTP, VPN and RDP
Objective 2.17: Identify the Following Security Protocols and Describe Their
Purpose and Function: IPsec, L2TP, SSL, WEP, WPA, and 802.1x
Objective 2.18: Identify Authentication Protocols (For Example: CHAP, MS-CHAP,
PAP, RADIUS, Kerberos, and EAP)
Answers and Explanations
Objective 2.1
Objective 2.2
Objective 2.3
Objective 2.4
Objective 2.5
Objective 2.6
Objective 2.7
Objective 2.8
Objective 2.9
Objective 2.10
Objectives 2.11 and 2.12
Objective 2.13
Objective 2.14
Objective 2.15
Objective 2.16
Objective 2.17
Objective 2.18
3: Network
Implementation
Domain 3.0: Network Implementation
Objective 3.1: Identify the Basic Capabilities (Client Support, Interoperability,
Authentication, File and Print Services, Application Support, and Security)
of the Following Server Operating Systems: UNIX/Linux, NetWare, Windows,
and Appleshare IP (Internet Protocol)
Objective 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)
Objective 3.3: Identify the Appropriate Tool for a Given Wiring Task (Wire
Crimper, Media Tester/Certifier, Punch Down Tool or Tone Generator)
Objective 3.4: Given a Remote Connectivity Scenario Comprised of a Protocol,
an Authentication Scheme, and Physical Connectivity, Configure the
Connection for UNIX/Linux/MAC OS X Server, NetWare, Windows, and Appleshare
IP
Objective 3.5: Identify the Purpose, Benefits, and Characteristics of Using
a Firewall
Objective 3.6: Identify the Purpose, Benefits, and Characteristics of Using
a Proxy Server
Objective 3.7: Given a Connectivity Scenario, Predict the Impact of a Particular
Security Implementation on Network Functionality (Blocking Port Numbers,
Authentication, Encryption, and so on)
Objective 3.8: Identify the Main Characteristics of VLANs
Objective 3.9: Identify the Main Characteristics and Purpose of Extranets
and Intranets
Objective 3.10: Identify the Purpose, Benefits, and Characteristics
of Using Antivirus Software
Objective 3.11: Identify the Purpose and Characteristics of Fault Tolerance
Objective 3.12: Identify the Purpose and Characteristics of Disaster Recovery
Objective 3.1: Identify the Basic Capabilities (Client Support, Interoperability,
Authentication, File and Print Services, Application Support, and Security)
of the Following Server Operating Systems: UNIX/Linux, NetWare, Windows,
and Appleshare IP (Internet Protocol)
Objective 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)
Objective 3.3: Identify the Appropriate Tool for a Given Wiring Task (Wire
Crimper, Media Tester/Certifier, Punch Down Tool or Tone Generator)
Objective 3.4: Given a Remote Connectivity Scenario Comprised of a Protocol,
an Authentication Scheme, and Physical Connectivity, Configure the Connection
for UNIX/Linux/MAC OS X Server, NetWare, Windows, and Appleshare IP
Objective 3.5: Identify the Purpose, Benefits, and Characteristics of Using
a Firewall
Objective 3.6: Identify the Purpose, Benefits, and Characteristics of Using
a Proxy Server
Objective 3.7: Given a Scenario, Predict the Impact of a Particular Security
Implementation on Network Functionality (Blocking Port Numbers, Encryption,
and so on)
Objective 3.8: Identify the Main Characteristics of VLANs
Objective 3.9: Identify the Main Characteristics and Purpose of Extranets
and Intranets
Objective 3.10: Identify the Purpose, Benefits, and Characteristics of Using
Antivirus Software
Objective 3.11: Identify the Purpose and Characteristics of Fault Tolerance
Objective 3.12: Identify the Purpose and Characteristics of Disaster Recovery
Answers and Explanations
Objective 3.1
Objective 3.2
Objective 3.3
Objective 3.4
Objective 3.5
Objective 3.6
Objective 3.7
Objective 3.8
Objective 3.9
Objective 3.10
Objective 3.11
Objective 3.12
4: Network
Support
Practice Questions
Objective 4.1: Given a Troubleshooting Scenario, Select the Appropriate
Network Utility
Objective 4.2: Given Output from a Diagnostic Utility (Tracert, Ping, Ipconfig,
and so on), Identify the Utility and Interpret the Output
Objective 4.3: Given a Network Scenario, Interpret Visual Indicators (Link
Lights, Collision Lights, and so on) to Determine the Nature of the Stated
Problem
Objective 4.4: Given a Troubleshooting Scenario Involving a Client Accessing
Remote Network, Identify the Cause of the Problem (File Services, Print
Services, Authentication Failure, Protocol Configuration, Physical Connectivity
and SOHO Router)
Objective 4.5: Given a Troubleshooting Scenario Between a Client and the
Following Server Environments (UNIX/Linux/MAC OS X, NetWare, Windows, and
Appleshare IP), Identify the Cause
Objective 4.6: Given a Scenario, Determine the Impact of Modifying, Adding,
or Removing Network Services (DHCP, DNS, WINS, and so on) on Network Resources
and Users
Objective 4.7: Given a Troubleshooting Scenario Involving a Network with
a Particular Physical Topology (Bus, Star, Mesh, or Ring) and Including
a Network Diagram, Identify the Network Area Affected and the Cause of the
Stated Failure
Objective 4.8: Given a Network Troubleshooting Scenario Involving an Infrastructure
Problem (Wired or Wireless), Identify the Cause of the Problem (Bad Media,
Interference, Network Hardware or Environment)
Objective 4.9: Given a Network Problem Scenario, Select an Appropriate Course
of Action Based on a General Logical Troubleshooting Strategy
Objective 4.1: Given a Troubleshooting Scenario, Select the Appropriate
Network Utility
Objective 4.2: Given Output from a Diagnostic Utility (tracert, ping, ipconfig,
and so on), Identify the Utility and Interpret the Output
Objective 4.3: Given a Network Scenario, Interpret Visual Indicators (Link
Lights, Collision Lights) to Determine the Nature of the Stated Problem
Objective 4.4: Given a Troubleshooting Scenario Involving a Client Accessing
Remote Network Services, Identify the Cause of the Problem (File Services,
Print Services, Authentication Failure, Protocol Configuration, Physical
Connectivity and SOHO Router)
Objective 4.5: Given a Troubleshooting Scenario Between a Client and the
Following Server Environments (UNIX/Linux/MAC OS X, NetWare, Windows, and
Appleshare IP), Identify the Cause
Objective 4.6: Given a Scenario, Determine the Impact of Modifying, Adding,
or Removing Network Services (DHCP, DNS, WINS, and so on)
Objective 4.7: Given a Troubleshooting Scenario Involving a Network with
a Particular Physical Topology (Bus, Star, Mesh, or Ring) and Including
a Network Diagram, Identify the Network Area Affected and the Cause of the
Stated Failure
Objective 4.8: Given a Network Troubleshooting Scenario Involving an Infrastructure
Problem (Wired or Wireless), Identify the Cause of the Problem (Bad Media,
Interference, Network Hardware or Environment)
Objective 4.9: Given a Network Problem Scenario, Select an Appropriate Course
of Action Based on a General Logical Troubleshooting Strategy
Answers and Explanations
Objective 4.1
Objective 4.2
Objective 4.3
Objective 4.4
Objective 4.5
Objective 4.6
Objective 4.7
Objective 4.8
Objective 4.9
Appendix
A: CD Contents and Installation Instructions
Multiple Test Modes
Study Mode
Certification
Mode
Custom Mode
Missed Question Mode
Non-Duplicate Mode
Random Questions and Order of Answers
Detailed Explanations of Correct and Incorrect Answers
Attention to Exam Objectives
Installing the CD
Creating a Shortcut to the MeasureUp Practice Tests
Technical Support
About the Authors
Charles J. Brooks is currently vice president in charge of research and development
at Marcraft International Corporation. A former electronics instructor and technical
writer with the National Education Corporation, Charles taught and wrote on
post-secondary EET curriculum, including introductory electronics, transistor
theory, linear integrated circuits, basic digital theory, industrial electronics,
microprocessors, and computer peripherals. Charles has authored several books,
including the first three editions of A+ Certification Training Guide,
The Complete Introductory Computer Course, and IBM PC Peripheral Troubleshooting
& Repair.
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