Cisco Certified Network Associate CCNA 200-301 Training Course

  • Designed for results
  • World-class experts
  • Flexible online learning
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$250

Everything you need

  • Video-based lessons (16 hours)
  • Interactive lab exercises
  • Self-study quizzes
  • Practice tests
  • 1-year access

Course experts

  • Kevin Wallace

    Best-selling Cisco Press author and Cisco Certified Internetwork Expert (CCIE No. 7945)

    Kevin Wallace
  • Wendell Odom

    Best-selling Cisco Press author, expert trainer, and Cisco Certified Internetwork Expert (CCIE No. 1624)

    Wendell Odom

Overview

Level up your career in IT with this video-based online training course (including 300+ interactive labs) designed to help you master foundational networking skills and succeed on the CCNA 200-301 exam.

The expert-led certification prep course provides hands-on training with core topics such as networking technologies, IPv4 and IPv6 addressing, Ethernet switching, routing, wireless networks, network services, and network programmability.

Who should take this course

Skill level | Beginner

  • Anyone involved with installing, operating, configuring and verifying small to medium-sized networks
  • Anyone planning to take the current CCNA 200-301 exam and obtain the latest Cisco Certified Network Associate (CCNA) certification
  • Anyone interested in developing skills fundamental to a broad range of IT careers

This self-paced online training product does not require any prior knowledge of network administration or configuration. You should, however, have a basic understanding of the purposes of a network and be comfortable working with a computer.

For an optimal course experience, we recommend using these browsers and devices.

Course includes

  • 16 hours of targeted video lessons from industry leaders on how to implement and administer Cisco networks
  • 300+ hands-on labs to simulate real-world experience (e.g., router and switch CLI configuration and troubleshooting)
  • Self-study tools, such as quizzes and flash cards
  • Exclusive practice exams to ensure test readiness
  • Tips on taking the Cisco Certified Network Associate (CCNA) 200-301 exam
  • 1 year of access*

What you'll learn

This Pearson IT Training Course covers the following skills tested on the Cisco Certified Network Associate (CCNA) 200-301 exam:

  • Common network components, architectures, and designs
  • Network cabling
  • IPv4 address structure, assignment, verification, and name resolution
  • Types of IPv6 communication
  • Binary numbering
  • Basic and advanced subnetting
  • IPv6 address format and communication
  • IPv6 addressing
  • Ethernet switching fundamentals
  • Neighbor discovery
  • Virtual LANs (VLANs)
  • Trunking, Spanning Tree Protocol (STP), and EtherChannel
  • Routing fundamentals
  • Static routing and OSPFv2 routing
  • First Hop Redundancy Protocols
  • Wireless network fundamentals
  • Wireless LAN installation and configuration
  • Network Address Translation (NAT)
  • Network Time Protocol (NTP)
  • Dynamic Host Configuration Protocol (DHCP)
  • Network management protocols
  • Quality of Service (QoS)
  • Network security threats and defense
  • Access Control Lists (ACLs)
  • Layer 2 security features
  • Software Defined Networking (SDN)
  • Configuration management

*Retake guarantee

Retake guaranteeDidn't pass your certification exam on your first try? We'll give you six months of additional access at no cost.

About Pearson IT Training Courses

Pearson IT Training Courses are complete and affordable packages of expert-led, self-paced courses designed to help you stand out with in-demand skills that take your career to the next level.

From learning to hands-on practice and application, our comprehensive certification prep courses ensure you are ready for exam success.

Course experts

  • Kevin Wallace - Author, network specialist, and technical trainer

    Kevin Wallace

    With Cisco experience dating back to 1989, Kevin Wallace (CCIEx2 #7945) has been a Network Design Specialist for the Walt Disney World Resort, a Network Manager at Eastern Kentucky University, an instructor for Cisco Learning Partners, an author of multiple Cisco Press books, and a Distinguished Speaker at Cisco Live. Currently, Kevin owns and operates Kevin Wallace Training, LLC (kwtrain.com), a provider of self-paced training materials that simplify computer networking.

  • Wendell Odom - Author, network engineer, and instructor

    Wendell Odom

    Wendell Odom, CCIE No. 1624, is the most respected author of Cisco networking books in the world. His past titles include books on the entry-level Cisco certifications (CCENT and CCNA), the more advanced CCNP, and the industry-renowned CCIE. Wendell has worked as a network engineer, consultant, instructor, course developer, and book author, and he has produced videos, software, and blogs related to Cisco certifications. His web site with links to various study tools and resources is at certskills.com.

  • Sean Wilkins - Networking consultant and writer

    Sean Wilkins

    Sean Wilkins (@Sean_R_Wilkins) is an accomplished networking consultant and writer for infoDispersion (www.infodispersion.com) who has been in the IT field for more than 25 years, working with several large enterprises. Sean holds certifications from many different vendors including Cisco, Microsoft, and CompTIA. His educational accomplishments include a Master's of Science in Information Technology with a focus in Network Architecture and Design, a Master's of Science in Organizational Management, a Master's Certificate in Network Security, a Bachelors of Science in Computer Networking, and an Associates of Applied Science in Computer Information Systems. Sean spends most of his time working with a variety of companies doing everything from creating course content to technology-specific products.

Course outline

  1. Overview
  1. Module 1: Introduction
  2. Lesson 1.1: Common Network Components
    1. Lesson 1.1 Learning Objectives
    2. 1.1.1 Routers
    3. 1.1.2 Switches
    4. 1.1.3 Security Appliances
    5. 1.1.4 Wireless Network Components
    6. 1.1.5 Endpoints and Servers
    7. 1.1.6 Cisco DNA Center
    8. 1.1.7 Virtualized Devices
    9. 1.1.8 TCP vs. UDP Protocols
  3. Lesson 1.1: Review
    1. Lesson 1.1 Quiz
  4. Lesson 1.1: Labs
  5. Lesson 1.2: Common Network Architectures and Designs
    1. Lesson 1.2 Learning Objectives
    2. 1.2.1 Collpased Core and Three-Tier Architecture
    3. 1.2.2 Spine-Leaf Design for Data Centers
    4. 1.2.3 Wide Area Network (WAN) Topologies
    5. 1.2.4. Small Office - Home Office (SOHO) Architecture
    6. 1.2.5 On-Premise vs. Cloud Architectures
    7. 1.2.6 INTERACTIVE EXERCISE: Topology Recognition
  6. Lesson 1.2: Review
    1. Lesson 1.2 Quiz
  7. Lesson 1.2: Labs
  8. Lesson 1.3: Network Cabling
    1. Lesson 1.3 Learning Objectives
    2. 1.3.1 Copper Media for Network Cables
    3. 1.3.2 Fiber Optic Media for Network Cables
    4. 1.3.3 INTERACTIVE EXERCISE: Selecting Network Components
    5. 1.3.4 Connectors for Network Cables
    6. 1.3.5 INTERACTIVE EXERCISE: T569-B Color Coding
    7. 1.3.6 Shared Media vs. Point-to-Point Connections
    8. 1.3.7 Power over Ethernet (PoE)
    9. 1.3.8 Troubleshooting Common Cabling Issues
  9. Lesson 1.3: Review
    1. Lesson 1.3 Quiz
  10. Lesson 1.3 Labs
  11. Module 1: Summary
  12. Module 1: Review
    1. Module 1 Flash Cards
    2. Module 1 Quiz
  1. Module 2: Introduction
  2. Lesson 2.1: IPV4 Address Structure
    1. Lesson 2.1 Learning Objectives
    2. 2.1.1 IPv4 Address Structure
    3. 2.1.2 IPv4 Address Classes
    4. 2.1.3 Public vs. Private IPv4 Addresses
  3. Lesson 2.1: Review
    1. Lesson 2.1 Quiz
  4. Lesson 2.1: Labs
  5. Lesson 2.2: IPV4 Address Assignment, Verification, and Name Resolution
    1. Lesson 2.2 Learning Objectives
    2. 2.2.1 Manual IPv4 Address Assignment
    3. 2.2.2 Dynamic IPv4 Address Assignment
    4. 2.2.3 Domain Name System (DNS)
  6. Lesson 2.2: Review
    1. Lesson 2.2 Quiz
  7. Lesson 2.2: Labs
  8. Lesson 2.3: Types of IPv4 Communication
    1. Lesson 2.3 Learing Objectives
    2. 2.3.1 IPv4 Unicast
    3. 2.3.2 IPv4 Broadcast
    4. 2.3.3 IPv4 Multicast
  9. Lesson 2.3: Review
    1. Lesson 2.3 Quiz
  10. Lesson 2.3: Labs
  11. Lesson 2.4: Binary Numbering
    1. Lesson 2.4 Learning Objectives
    2. 2.4.1 Binary Numbering Overview
    3. 2.4.2 Converting Binary Numbers to Decimals
    4. 2.4.3 Converting Decimal Numbers to Binary
    5. 2.4.4 IPv4 Exercise #1
    6. 2.4.5 IPv4 Exercise #2
  12. Lesson 2.4: Review
    1. Lesson 2.4 Quiz
  13. Lesson 2.4: Labs
  14. Lesson 2.5: Basic Subnetting
    1. Lesson 2.5 Learning Objectives
    2. 2.5.1 IPv4 Subnetting Overview
    3. 2.5.2 The Network Address
    4. 2.5.3 The Directed Broadcast Address
    5. 2.5.4 Calculating Available Subnets
    6. 2.5.5 Calculating Available Hosts
    7. 2.5.6 IPv4 Exercise #3
    8. 2.5.7 IPv4 Exercise #4
    9. 2.5.8 IPv4 Exercise #5
    10. 2.5.9 INTERACTIVE EXERCISE: Binary to Decimal Conversion
    11. 2.5.10 INTERACTIVE EXERCISE: Decimal to Binary Conversion
    12. 2.5.11 INTERACTIVE EXERCISE: Calculating Dotted Decimal Notations from Subnet Masks
    13. 2.5.12 INTERACTIVE EXERCISE: Calculating the Number of Hosts in a Subnet
    14. 2.5.13 Analyze Subnetting and Addressing Needs
    15. 2.5.14 Subnet Mask Conversion - C-head
  15. Lesson 2.5: Review
    1. Lesson 2.5 Quiz
  16. Lesson 2.5: Labs
  17. Lesson 2.6: Advanced Subnetting
    1. Lesson 2.6 Learning Objectives
    2. 2.6.1 Calculating Usable IPv4 Address Ranges
    3. 2.6.2 IPv4 Exercise #6
    4. 2.6.3 IPv4 Exercise #7
    5. 2.6.4 Classless Interdomain Routing (CIDR)
    6. 2.6.5 Subnetting Practice Exercises (PDF)
    7. 2.6.5 Subnetting Charts (PDF)
    8. 2.6.6 INTERACTIVE EXERCISE: Troubleshooting IPv4 Addressing
  18. Lesson 2.6: Review
    1. Lesson 2.6 Quiz
  19. Lesson 2.6: Labs
  20. Module 2: Summary
  21. Module 2: Review
    1. Module 2 Flashcards
    2. Module 2 Quiz
  1. Module 3: Introduction
    1. Module 3: Introduction
  2. Lesson 3.1: IPv6 Address Format and Communication
    1. Lesson 3.1 Learning Objectives
    2. 3.1.1 IPv6 Address Formatting
    3. 3.1.2 Shortening an IPv6 Address
    4. 3.1.3 IPv6 Exercise
    5. 3.1.4 IPv6 Traffic Flows
  3. Lesson 3.1: Review
    1. Lesson 3.1 Quiz
  4. Lesson 3.1: Labs
  5. Lesson 3.2: IPv6 Addressing
    1. Lesson 3.2 Learning Objectives
    2. 3.2.1 IPv6 Global Unicast
    3. 3.2.2 IPv6 Multicast
    4. 3.2.3 IPv6 Link Local
    5. 3.2.4 IPv6 Unique Look
    6. 3.2.5 IPv6 Loopback
    7. 3.2.6 IPv6 Unspecified
    8. 3.2.7 IPv6 Solicited-Node Multicast
    9. 3.2.8 EUI-64
    10. 3.2.9 Manual IPv6 Address Assignment
    11. 3.2.10 Dynamic IPv6 Address Assignment
    12. 3.2.11 INTERACTIVE EXERCISE: IPv6 Address Types
    13. 3.2.12 Implementing IPv6 Routing
  6. Lesson 3.2: Review
    1. Lesson 3.2 Quiz
  7. Lesson 3.2: Labs
  8. Module 3: Summary
  9. Module 3: Review
    1. Module 3 Flashcards
    2. Module 3 Quiz
  1. Module 4: Introduction
    1. Module 4: Introduction
  2. Lesson 4.1: Ethernet Switch Fundamentals
    1. Lesson 4.1 Learning Objectives
    2. 4.1.1 Layer 2 vs. Multilayer Switches
    3. 4.1.2 Examining the MAC Address Table
    4. 4.1.3 Using the Command Line Interface
    5. 4.1.4 Configuring Basic Switch Management
    6. 4.1.5 Configuring and Verifying Switch Interfaces
  3. Lesson 4.1: Review
    1. Lesson 4.1 Quiz
  4. Lesson 4.1: Labs
  5. Lesson 4.2: Neighbor Discovery
    1. Lesson 4.2  Learning Objectives
    2. 4.2.1 Cisco Discovery Protocol (CDP)
    3. 4.2.2 Link Layer Discovery Protocol (LLDP)
  6. Lesson 4.2: Review
    1. Lesson 4.2 Quiz
  7. Lesson 4.2: Labs
  8. Lesson 4.3: Virtual Lans (VLANS)
    1. Lesson 4.3 Learning Ojectives
    2. 4.3.1 VLAN Theory
    3. 4.3.2 VLAN Configuration
    4. 4.3.3 PACKET TRACER LAB: VLANs
  9. Lesson 4.3: Review
    1. Lesson 4.3 Quiz
  10. Lesson 4.3: Labs
  11. Lesson 4.4: Trunking
    1. Lesson 4.4 Learning Ojectives
    2. 4.4.1 Trunking Theory
    3. 4.4.2 Trunking Configuration
    4. 4.4.3 PACKET TRACER LAB: TRACING
  12. Lesson 4.4: Review
    1. Lesson 4.4 Quiz
  13. Lesson 4.4: Labs
  14. Lesson 4.5: Spanning Tree Protocol
    1. Lesson 4.5 Learning Objectives
    2. 4.5.1 STP Port States
    3. 4.5.2 STP Exercise
    4. 4.5.3 STP Convergence Times
    5. 4.5.4 PVST+ Theory and Configuration
    6. 4.5.5 PortFast
    7. 4.5.6 MSTP Theory
    8. 4.5.7 Rapid PVST+ Theory
    9. 4.5.8 Rapid PVST+ Configuration
    10. 4.5.9 PACKET TRACER LAB: Spanning Tree Protocol (STP)
    11. 4.5.10 INTERACTIVE EXERCISE: STP Port States
  15. Lesson 4.5: Review
    1. Lesson 4.5 Quiz
  16. Lesson 4.5: Labs
  17. Lesson 4.6: EtherChannel
    1. Lesson 4.6 Learning Objectives
    2. 4.6.1 Introduction to EtherChannel
    3. 4.6.2 EtherChannel Port Options
    4. 4.6.3 EtherChannel Load Balancing
    5. 4.6.4 Layer 2 EtherChannel Configuration
    6. 4.6.5 Layer 3 EtherChannel Configuration
    7. 4.6.6 PACKET TRACER LAB: EtherChannel
    8. 4.6.7 INTERACTIVE EXERCISE: EtherChannel Load-Balancing
  18. Lesson 4.6: Review
    1. Lesson 4.6 Quiz
  19. Lesson 4.6: Labs
  20. Module 4: Summary
  21. Module 4: Review
    1. Module 4 Flashcards
    2. Module 4 Quiz
  1. Module 5: Introduction
    1. Module 5: Introduction
  2. Lesson 5.1: Routing Fundamentals
    1. Lesson 5.1 Learning Objectives
    2. 5.1.1 Review of the Routing Process
    3. 5.1.2 Administrative Distance
    4. 5.1.3 Routing Protocol Comparison
    5. 5.1.4 Routing Table Examination
    6. 5.1.5 INTERACTIVE EXERCISE: Routing Protocol Categories
  3. Lesson 5.1: Review
    1. Lesson 5.1 Quiz
  4. Lesson 5.1: Labs
  5. Lesson 5.2: Static Routing
    1. Lesson 5.2 Learning Objectives
    2. 5.2.1 Static Default Route Configuration
    3. 5.2.2 Static Network Route Configuration
    4. 5.2.3 Static Host Route Configuration
    5. 5.2.4 Floating Static Route Configuration
  6. Lesson 5.2: Review
    1. Lesson 5.2 Quiz
  7. Lesson 5.2: Labs
  8. Lesson 5.3: OSPVF2 Routing
    1. Lesson 5.3 Learning Objectives
    2. 5.3.1 OSPF Neighbor Formation
    3. 5.3.2 DR and BDR Election
    4. 5.3.3 OSPF Network Types
    5. 5.3.4 OSPF Areas
    6. 5.3.5 LSA Types
    7. 5.3.6 OSPFv2 Configuration
    8. 5.3.7 OSPFv2 Verification
    9. 5.3.8 PACKET TRACER LAB: OSPF
    10. 5.3.9 INTERACTIVE EXERCISE: LSA Types
    11. 5.3.10 Using OSPFv2 Interface Subcommands - C-head
    12. 5.3.11 Additional OSPF Feartures - C-head
    13. 5.3.12 OSPF Neighbor Relationships - C-head
  9. Lesson 5.3: Review
    1. Lesson 5.3 Quiz
  10. Lesson 5.3: Labs
  11. Lesson 5.4: First Hop Redundancy Protocols (FHRPS)
    1. Lesson 5.4 Learning Objectives
    2. 5.4.1 Hot Standby Router Protocol (HSRP)
    3. 5.4.2 HSRP Configuration
    4. 5.4.3 Virtual Router Redundancy Protocol (VRRP)
    5. 5.4.4 Gateway Load Balancing Protocol (GLBP)
  12. Lesson 5.4: Review
    1. Lesson 5.4 Quiz
  13. Lesson 5.4: Labs
  14. Module 5: Summary
  15. Module 5: Review
    1. Module 5 Flashcards
    2. Module 5 Quiz
  1. Module 6: Introduction
    1. Module 6: Introduction
  2. Lesson 6.1: Overview of Wireless Networks
    1. Lesson 6.1 Learning Objectives
    2. 6.1.1 Wireless LAN Designs
    3. 6.1.2 Selecting WiFi Channels
    4. 6.1.3 Service Set Terminology
    5. 6.1.4 WiFi Standards
  3. Lesson 6.1: Review
    1. Lesson 6.1 Quiz
  4. Lesson 6.1: Labs
  5. Lesson 6.2: Wireless LAN Installation and Configuration
    1. Lesson 6.2 Learning Objectives
    2. 6.2.1 Options for Connecting to a Wireless LAN Controller (WLC)
    3. 6.2.2 WLC Configuration via a Graphical Interface
  6. Lesson 6.2: Review
    1. Lesson 6.2 Quiz
  7. Lesson 6.2: Labs
  8. Module 6: Summary
  9. Module 6: Review
    1. Module 6 Flashcards
    2. Module 6 Quiz
  1. Module 7: Introduction
    1. Module 7: Introduction
  2. Lesson 7.1: Network Address Translation (NAT)
    1. Lesson 7.1 Learning Objectives
    2. 7.1.1 NAT Theory
    3. 7.1.2 Static NAT Configuration
    4. 7.1.3 Dynamic NAT Configuration
    5. 7.1.4 Port Address Translation (PAT) Configuration
    6. 7.1.5 PACKET TRACER LAB: Static NAT
    7. 7.1.6 PACKET TRACER LAB: Dynamic NAT
    8. 7.1.7 PACKET TRACER LAB: Port Address Translation (PAT)
    9. 7.1.8 INTERACTIVE EXERCISE: NAT Address Types
  3. Lesson 7.1: Review
    1. Lesson 7.1 Quiz
  4. Lesson 7.1: Labs
  5. Lesson 7.2: Network Time Protocol (NTP)
    1. Lesson 7.2 Learning Objectives
    2. 7.2.1 NTP Theory
    3. 7.2.2 NTP Configuration and Verification
  6. Lesson 7.2: Review
    1. Lesson 7.2 Quiz
  7. Lesson 7.2: Labs
  8. Lesson 7.3: Dynamic Host Configuration Protocol (DHCP)
    1. Lesson 7.3 Learning Objectives
    2. 7.3.1 DHCP Theory
    3. 7.3.2 Configuring Routers as DHCP Clients and Servers
    4. 7.3.3 PACKET TRACER LAB: DHCP
    5. 7.3.4 Identifiying Host IPv4 Settings - C-head
  9. Lesson 7.3: Review
    1. Lesson 7.3 Quiz
  10. Lesson 7.3: Labs
  11. Lesson 7.4: Network Management Protocols
    1. Lesson 7.4 Learning Objectives
    2. 7.4.1 Simple Network Management Protocol (SNMP) Theory
    3. 7.4.2 SNMP Configuration
    4. 7.4.3 Syslog
    5. 7.4.4 Configuring Remote Access with Secure Shell (SSH)
    6. 7.4.5 FTP and TFTP
    7. 7.4.6 INTERACTIVE EXERCISE: Selecting a Management Protocol
  12. Lesson 7.4: Review
    1. Lesson 7.4 Quiz
  13. Lesson 7.4: Labs
  14. Lesson 7.5: Quality of Service (QOS)
    1. Lesson 7.5 Learning Objectives
    2. 7.5.1 Fundamentals of QoS
    3. 7.5.2 Traffic Markings
    4. 7.5.3 Prioritizing Traffic Types
    5. 7.5.4 Shaping, Policing, and the Token Bucket
    6. 7.5.5 Configuring QoS
    7. 7.5.6 INTERACTIVE EXERCISE: QoS Mechanisms
  15. Lesson 7.5: Review
    1. Lesson 7.5 Quiz
  16. Lesson 7.5: Labs
  17. Module 7: Summary
  18. Module 7: Review
    1. Module 7 Flashcards
    2. Module 7 Quiz
  1. Module 8: Introduction
    1. Module 8: Introduction
  2. Lesson 8.1: Network Security - Threats and Defense
    1. Lesson 8.1 Learning Objectives
    2. 8.1.1 Common Network Attacks
    3. 8.1.2 Common Defense Strategies
    4. 8.1.3 Password Protection of Cisco Devices
    5. 8.1.4 Authentication Technologies
    6. 8.1.5 Virtual Private Networks (VPNs)
    7. 8.1.6 AAA Security
    8. 8.1.7 Wireless Security Protocols
    9. 8.1.8 Configuring a Wireless LAN for WPA2 with a Pre-Shared Key
  3. Lesson 8.1: Review
    1. Lesson 8.1 Quiz
  4. Lesson 8.1: Labs
  5. Lesson 8.2: Access Control Lists (ACLs)
    1. Lesson 8.2 Learning Objectives
    2. 8.2.1 ACL Overview
    3. 8.2.2 Numbered Standard ACLs
    4. 8.2.3 Numbered Extended ACLs
    5. 8.2.4 Named ACLs
    6. 8.2.5 ACL Considerations
    7. 8.2.6 INTERACTIVE EXERCISE: Wildcard Masks
  6. Lesson 8.2: Review
    1. Lesson 8.2 Quiz
  7. Lesson 8.2: Labs
  8. Lesson 8.3: Layer 2 Security Features
    1. Lesson 8.3 Learning Objectives
    2. 8.3.1 DHCP Snooping
    3. 8.3.2 Dynamic ARP Inspection
    4. 8.3.3 Port Security
  9. Lesson 8.3: Review
    1. Lesson 8.3 Quiz
  10. Lesson 8.3: Labs
  11. Module 8: Summary
  12. Module 8: Review
    1. Module 8 Flashcards
    2. Module 8 Quiz
  1. Module 9: Introduction
    1. Module 9: Introduction
  2. Lesson 9.1: Software Defined Network (SDN)
    1. Lesson 9.1 Learning Objectives
    2. 9.1.1 Overview of Software Defined Networking (SDN)
    3. 9.1.2 REST APIs
    4. 9.1.3 JSON Formatting
    5. 9.1.4 Cisco SDN Controllers
    6. 9.1.5 Software Defined Architectures
    7. 9.1.6 Cisco Software-Defined Access (SDA)
  3. Lesson 9.1: Review
    1. Lesson 9.1 Quiz
  4. Lesson 9.1: Labs
  5. Lesson 9.2: Configuration Management
    1. Lesson 9.2 Learning Objectives
    2. 9.2.1 The DevOps Lifecycle
    3. 9.2.2 Configuration Management Tools
  6. Lesson 9.2: Review
    1. Lesson 9.2 Quiz
  7. Lesson 9.2: Labs
  8. Module 9: Summary
  9. Module 9: Review
    1. Module 9 Flashcards
    2. Module 9 Quiz
  1. Module 10: Introduction
  2. Lesson 10.1: How to Register for the Exam
    1. Lesson 10.1 Learning Objectives
  3. Lesson 10.2: Study Strategies
    1. Lesson 10.2 Learning Objectives
  4. Lesson 10.3: What to do on Exam Day
    1. Lesson 10.3 Learning Objectives
  5. Module 10: Summary

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