Network+ Certification Practice Questions Exam Cram 2 (Exam N10-003)

Network+ Certification Practice Questions Exam Cram 2 (Exam N10-003)

4.33 (3 ratings by Goodreads)
By (author) 

List price: US$21.99

Currently unavailable

Add to wishlist

AbeBooks may have this title (opens in new window).

Try AbeBooks

Description

Attention Network + Candidates: Do your last minute studying with us! Network+ 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 complementary study tool to your other books or classes. Make sure that you have the full understanding of the information covered in this exam with Network + Exam Cram 2 Practice Questions.
show more

Product details

  • Mixed media product | 264 pages
  • 152 x 224 x 18mm | 358.34g
  • Pearson It Certification
  • Upper Saddle River, United States
  • English
  • 2nd edition
  • 0789733528
  • 9780789733528
  • 1,454,363

Back cover copy

Attention Network + Candidates: Do your last minute studying with us! "Network+ 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 complementary study tool to your other books or classes. Make sure that you have the full understanding of the information covered in this exam with "Network + Exam Cram 2 Practice Questions."
show more

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
show more

About Charles Brooks

Network+ Certification Practice Questions Exam Cram 2About the Author

Charles J. Brooks is currently the president of Marcraft International Corporation, located in Kennewick, Washington, and is in charge of research and development. He is the author of several books, including A+ Training Guide, A+ Concepts and Practices, and Microcomputer Systems-Theory and Service. Other titles produced by Mr. Brooks include: Speech Synthesis, Pneumatic Instrumentation, The Complete Introductory Computer Course, Radio-Controlled Car Project Manual, and IBM PC Peripheral Troubleshooting and Repair.

A former electronics instructor and technical writer with the National Education Corporation, Charles has taught and written on post-secondary EET curriculum, including introductory electronics, transistor theory, linear integrated circuits, basic digital theory, industrial electronics, microprocessors, and computer peripherals.


(c) Copyright Pearson Education. All rights reserved.
show more

Rating details

3 ratings
4.33 out of 5 stars
5 67% (2)
4 0% (0)
3 33% (1)
2 0% (0)
1 0% (0)
Book ratings by Goodreads
Goodreads is the world's largest site for readers with over 50 million reviews. We're featuring millions of their reader ratings on our book pages to help you find your new favourite book. Close X