Ignite

Ready to Shine? Review Your Knowledge from Section One

This is your moment to spark what you’ve learned and see how far you’ve come.

If you haven’t explored the lessons in Section One yet, we recommend starting with Start Learning and moving through the lessons in order. That way, you’ll build a solid foundation before testing yourself.

But if you’re curious and want to jump in to see how much you already know, you’re more than welcome to take this quiz right now. Let’s light up your knowledge and see it in action!

What Did You Learn?
Let’s Find Out!

Instructions

Select the correct answer for each technology concept.
All questions pertain directly to the networking technologies explained.
After answering, click “See Result” to see your score and feedback.
To successfully pass this quiz, you need to answer at least 80% of the questions correctly.

Quiz: Review What You’ve Learned On Section One

Take a short self‑assessment to reinforce your understanding of the key networking concepts introduced in Section One. These questions are designed to help you review what you’ve learned so far and identify topics that may need more attention.

1 / 30

What design element improves both availability and reliability?

Redundant links and devices

No backups

A single cable

Removing QoS policies

2 / 30

Why might a diagram show different interface types (Serial, FastEthernet, Gigabit)?

To mark access lists

To assign VLAN IDs

To illustrate varying media and speeds in use

To indicate power requirements

3 / 30

What term refers to varying delays in packet delivery?

Uptime

Jitter

Throughput

MTBF

4 / 30

What kind of service stores and distributes files such as backup images and configurations?

QoS scheduler

DHCP

DNS resolver

FTP/TFTP server

5 / 30

Which layout offers multiple routes for redundancy?

Mesh

Hub‑and‑spoke

Ring

Star

6 / 30

What does high availability indicate?

The speed of a single frame

The proportion of time the network stays operational

The number of routers in a rack

The number of VLANs in use

7 / 30

What is the purpose of a controller in a large wireless deployment?

To provide additional cabling

To configure and monitor many access points centrally

To regulate electricity

To assign public IP addresses

8 / 30

Which component links several local devices so they can directly exchange information?

Firewall

IPS

WLC

Switch

9 / 30

What is a key difference between physical and logical maps?

Physical maps ignore devices

Logical maps list warranty details

Physical = cabling and port, logical = IP structure and routing

Logical maps show power cables

10 / 30

Which arrangement links every device to a single central device?

Ring

Mesh

Star

Bus

11 / 30

Why are standard communication rules necessary between networks?

To reduce memory usage

To ensure signals are always wireless

To assign hostnames

To allow different systems to understand and forward data consistently

12 / 30

What is the best description of a network in the context of computers?

A single user’s desktop setup

A set of isolated servers

A software update system

A group of connected devices exchanging information and sharing resources

13 / 30

Why is Quality of Service important in congested networks?

It assigns priority to critical data flows

It changes subnet masks

It reduces cost

It disables error checking

14 / 30

Which of these is a wide‑area implementation?

A system connecting multiple cities over large distances

A switch linking two computers in a lab

A classroom with ten PCs

A single cable between two printers

15 / 30

Which type of process transfers files without ongoing user involvement?

Streaming

Batch

Interactive

Real‑time

16 / 30

Which type of application is most sensitive to delay and packet loss?

Video calls

Offline backups

Static web pages

Batch file transfers

17 / 30

What does the “/24” portion of “192.168.10.0/24” signify?

The subnet mask length

The logical topology type

The speed of the link

The router model

18 / 30

What hardware interface translates data from a computer into signals on a cable?

Patch cord

Console port

PoE injector

NIC

19 / 30

What measurement shows how many bits travel over a link each second?

Availability

Bitrate

Jitter

MTBF

20 / 30

How do diagrams help troubleshoot issues?

They provide a clear visual of paths and dependencies

They disable loops

They change IP addresses

They automatically repair links

21 / 30

Why implement QoS on a busy network?

To power off unused ports

To prevent all backups

To prioritize time‑sensitive data like voice over less urgent traffic

To replace routing tables

22 / 30

A legacy hub creates a physical star. Logically, it behaves like what?

Bus

Mesh

Ring

Cheap switches

23 / 30

Why do interactive apps require good response times?

Because they use static routing

Because they calculate MTBF

Because users expect immediate feedback from actions

Because they only run on one device

24 / 30

What does an identifier like “Gi0/1” on a diagram represent?

A user credential

A DHCP scope

A port type and its location

A VLAN name

25 / 30

Why do modern companies depend on networking technology?

Because it eliminates the need for staff

Because it only increases hardware speed

Because it prevents any connection to the internet

Because it links devices and services, enabling collaboration and resource sharing

26 / 30

What feature lets a network accept growth without hurting performance?

QoS

Latency

Scalability

MAC learning

27 / 30

What does a small home or office network commonly connect through to reach a larger enterprise?

An isolated switch

A standalone modem with no uplink

A cable that is never linked to other devices

A connection through the internet or a wide‑area path

28 / 30

Which device decides how to forward data between separate networks?

Access Point

Patch Panel

Router

Hub

29 / 30

How does a logical map differ from a physical map?

It ignores intermediary devices

It shows how data flows regardless of actual cabling

It is identical in every case

It lists only IP addresses

30 / 30

In which design does every device share the same backbone medium?

Star

Mesh

Ring

Bus

Your score is

The average score is 42%

Next Stop: [Section 1 | Packet Tracer]