Network+ Guide to Networks 6th Edition by Tamara Dean – Test Bank
To Purchase
this Complete Test Bank with Answers Click the link Below
https://tbzuiqe.com/product/network-guide-to-networks-6th-edition-by-tamara-dean-test-bank/
If face any problem or
Further information contact us At tbzuiqe@gmail.com
Sample Test
Chapter 3: Transmission Basics and Networking Media
TRUE/FALSE
1. The
strength of an electrical signal is directly proportional to its frequency.
ANS: F
PTS:
1
REF: 77
2. Modulation
can be used to make a signal conform to a specific pathway.
ANS:
T
PTS:
1
REF: 82
3. Ethernet
is an example of a baseband system found on many LANs.
ANS:
T
PTS:
1
REF: 89
4. Latency
occurs when a signal traveling on one wire or cable infringes on the signal
traveling over an adjacent wire or cable.
ANS:
F
PTS:
1
REF: 90
5. The
maximum distance a signal can travel and still be interpreted accurately is
equal to a segment’s maximum length.
ANS:
T
PTS:
1
REF: 95
MULTIPLE CHOICE
1. The
distance between corresponding points on a wave’s cycle is called its ____.
|
a. |
amplitude |
c. |
phase |
|
b. |
frequency |
d. |
wavelength |
ANS:
D
PTS:
1
REF: 78
2. A
digital signal composed of a pulse of positive voltage represents a(n) ____.
|
a. |
0 |
c. |
4 |
|
b. |
1 |
d. |
8 |
ANS:
B
PTS:
1
REF: 79
3. The
byte 00001110 means ____ on a digital network.
|
a. |
3 |
c. |
14 |
|
b. |
6 |
d. |
30 |
ANS:
C
PTS: 1
REF: 79
4. In
modulation, a simple wave called a(n) ____ wave, is combined with another
analog signal to produce a unique signal that gets transmitted from one node to
another.
|
a. |
carrier |
c. |
information |
|
b. |
data |
d. |
FM |
ANS: A
PTS:
1
REF: 82
5. When
signals are free to travel in both directions over a medium simultaneously, the
transmission is considered ____.
|
a. |
simplex |
c. |
half-duplex |
|
b. |
multiplex |
d. |
full-duplex |
ANS: D
PTS:
1
REF: 83
6. ____
is a technology used with fiber-optic cable, which enables one fiber-optic
connection to carry multiple light signals simultaneously.
|
a. |
Statistical multiplexing |
|
b. |
WDM (wavelength division
multiplexing) |
|
c. |
TDM (time division
multiplexing) |
|
d. |
FDM (frequency division
multiplexing) |
ANS:
B
PTS:
1
REF: 86
7. The
data transmission characteristic most frequently discussed and analyzed by
networking professionals is ____.
|
a. |
noise |
c. |
throughput |
|
b. |
scalability |
d. |
cost |
ANS:
C
PTS:
1
REF: 88
8. One
of the most common transmission flaws affecting data signals is ____.
|
a. |
noise |
c. |
throughput |
|
b. |
attenuation |
d. |
latency |
ANS:
A
PTS:
1
REF: 90
9. The
most significant factor in choosing a transmission method is its ____.
|
a. |
noise |
c. |
throughput |
|
b. |
attenuation |
d. |
latency |
ANS:
C
PTS:
1
REF: 93
10. The
more twists per foot in a pair of wires, the more resistant the pair will be to
____.
|
a. |
throughput |
c. |
cross talk |
|
b. |
attenuation |
d. |
latency |
ANS: C
PTS:
1
REF: 99
11. Modern
LANs use ____ or higher wiring.
|
a. |
Cat 3 |
c. |
RG-6 |
|
b. |
Cat 5 |
d. |
RG-59 |
ANS:
B
PTS:
1
REF: 100
12. Serial
refers to a style of data transmission in which the pulses that represent bits
follow one another along a ____ transmission line.
|
a. |
long |
c. |
secondary |
|
b. |
short |
d. |
single |
ANS:
D
PTS:
1
REF: 113-114
13. ____
describes a popular serial data transmission method.
|
a. |
EIA/TIA Commercial Building
Wiring Standard |
|
b. |
EIA/TIA RS-232 (Recommended
Standard 232) |
|
c. |
EIA/TIA 568A standard |
|
d. |
EIA/TIA 568BA standard |
ANS:
B
PTS: 1
REF: 114
14. Which
connector is used in RS-232 transmissions?
|
a. |
DB-25 |
c. |
BNC |
|
b. |
ST |
d. |
Cat-5 |
ANS:
A
PTS:
1
REF: 114
15. The
serial interface on the back of the connectivity device is often labeled
“____.”
|
a. |
Connector |
c. |
Board |
|
b. |
Port |
d. |
Console |
ANS:
D
PTS:
1
REF: 115
16. Which
term describes the hardware that makes up the enterprise-wide cabling system?
|
a. |
wiring board |
c. |
network diagram |
|
b. |
patch panel |
d. |
cable plant |
ANS:
D
PTS:
1
REF: 116
17. Which
standard is also known as structured cabling?
|
a. |
TIA/EIA Commercial Building
Wiring Standard |
|
b. |
TIA/EIA RS-232 (Recommended
Standard 232) |
|
c. |
TIA/EIA 568A Standard |
|
d. |
TIA/EIA 568BA Standard |
ANS:
A
PTS:
1
REF: 116
18. The
points where circuits interconnect with other circuits is known as ____.
|
a. |
entrance facilities |
c. |
IDF (intermediate
distribution frame) |
|
b. |
cross-connect facilities |
d. |
telecommunications closet |
ANS:
B
PTS:
1
REF: 117
19. Which
term identifies a room containing connectivity for groups of workstations in
its area?
|
a. |
MDF (main distribution
frame) |
c. |
work area |
|
b. |
entrance facilities |
d. |
telecommunications closet |
ANS:
D
PTS:
1
REF: 119
20. ____
describes wiring that connects workstations to the closest telecommunications
closet.
|
a. |
Backbone wiring |
c. |
Work area |
|
b. |
Horizontal wiring |
d. |
Simple wiring |
ANS:
B
PTS:
1
REF: 119
21. Many
network problems can be traced to poor cable ____ techniques.
|
a. |
manufacturing |
c. |
installation |
|
b. |
engineering |
d. |
planning |
ANS:
C
PTS:
1
REF: 120
COMPLETION
1. The
use of 1s and 0s to represent information is characteristic of a(n)
____________________ system.
ANS: binary
PTS:
1
REF: 79
2. ____________________
is a term used by networking professionals to describe the nondata information
that must accompany data for a signal to be properly routed and interpreted by
the network.
ANS: Overhead
PTS:
1
REF: 81
3. ____________________
transmission involves one transmitter and multiple receivers.
ANS: Point-to-multipoint
PTS:
1
REF: 87
4. ____________________
are the pieces of hardware that connect the wire to the network device.
ANS: Connectors
PTS:
1
REF: 95
5. ____________________
cabling consists of one or more insulated wire pairs encased in a plastic
sheath.
ANS:
UTP (unshielded twisted pair)
Unshielded twisted pair
UTP
PTS:
1
REF: 101
MATCHING
Match each item with a statement below:
|
a. |
bit |
f. |
populated segment |
|
b. |
data modulation |
g. |
unpopulated segment |
|
c. |
baseband |
h. |
broadband |
|
d. |
EMI (electromagnetic
interference) |
i. |
nonbroadcast |
|
e. |
broadcast |
|
|
1. Transmission
that involves one transmitter and multiple, undefined receivers.
2. Transmission
that issues signals to multiple, defined recipients.
3. Transmission
form in which (typically) digital signals are sent through direct current (DC)
pulses applied to the wire.
4. Part
of a network that contains end nodes.
5. A
common source of noise.
6. Every
pulse in a digital signal.
7. Part
of the network that does not contain end nodes.
8. A
form of transmission in which signals are modulated as radio frequency (RF)
analog waves that use different frequency ranges.
9. Technology
used to modify analog signals to make them suitable for carrying data over a
communication path.
1. ANS:
E
PTS:
1
REF: 87
2. ANS:
I
PTS:
1
REF: 87
3. ANS:
C
PTS:
1
REF: 89
4. ANS:
F
PTS: 1
REF: 95
5. ANS:
D
PTS:
1
REF: 90
6. ANS:
A
PTS:
1
REF: 79
7. ANS:
G
PTS:
1
REF: 95
8. ANS:
H
PTS:
1
REF: 89
9. ANS:
B
PTS:
1
REF: 82
SHORT ANSWER
1. Describe
a drawback of analog signals.
ANS:
One drawback to analog signals is that their voltage is varied
and imprecise. Thus, analog transmission is more susceptible to transmission
flaws such as noise, or any type of interference that may degrade a signal,
than digital signals.
PTS:
1
REF: 79
2. Describe
two benefits of digital signaling that make it worthwhile even though extra
signaling pulses are involved.
ANS:
Because digital transmission involves sending and receiving only
a pattern of 1s and 0s, represented by precise pulses, it is more reliable than
analog transmission, which relies on variable waves. In addition, noise affects
digital transmission less severely.
PTS:
1
REF: 81
3. Explain
how half-duplex transmissions work.
ANS:
In half-duplex transmission, signals may travel in both
directions over a medium but in only one direction at a time. Half-duplex
systems contain only one channel for communication, and that channel must be
shared for multiple nodes to exchange information.
PTS:
1
REF: 83
4. Describe
what FDM (frequency division multiplexing) is and how it works.
ANS:
FDM (frequency division multiplexing) is a type of multiplexing
that assigns a unique frequency band to each communications subchannel. Signals
are modulated with different carrier frequencies, then multiplexed to
simultaneously travel over a single channel. The first use of FDM was in the
early 20th century when telephone companies discovered they could send multiple
voice signals over a single cable. That meant that rather than stringing
separate lines for each residence (and adding to the urban tangle of wires),
they could send as many as 24 multiplexed signals over a single neighborhood
line. Each signal was then demultiplexed before being brought into the home.
PTS:
1
REF: 85-86
5. Describe
variables that may influence the final cost of implementing a certain type of
media.
ANS:
The following variables can all influence the final cost of
implementing a certain type of media:
·
Cost of installation – Can you install the media yourself, or
must you hire contractors to do it? Will you need to move walls or build new
conduits or closets? Will you need to lease lines from a service provider?
·
Cost of new infrastructure versus reusing existing
infrastructure – Can you use existing wiring? In some cases, for example,
installing all new Category 6 UTP wiring may not pay off if you can use
existing Category 5 UTP wiring. If you replace only part of your
infrastructure, will it be easily integrated with the existing media?
·
Cost of maintenance and support – Reuse of an existing cabling
infrastructure does not save any money if it is in constant need of repair or
enhancement. Also, if you use an unfamiliar media type, it may cost more to
hire a technician to service it. Will you be able to service the media
yourself, or must you hire contractors to service it?
·
Cost of a lower transmission rate affecting productivity – If
you save money by reusing existing slower lines, are you incurring costs by
reducing productivity? In other words, are you making staff wait longer to save
and print reports or exchange e-mail?
·
Cost of downtime—If a cabling system is poorly installed and
needs fixing, or if an inexpensive solution needs to be replaced in just a few
years, at least some of your organization’s users will not be able to work.
Even at a small office, a few hours of downtime can cost a business several
thousand dollars in lost productivity. For an organization that relies on its
network for taking orders or providing services, the toll could be much higher.
·
Cost of obsolescence – Are you choosing media that may become
passing fads, requiring rapid replacement? Will you be able to find reasonably
priced connectivity hardware that will be compatible with your chosen media for
years to come?
PTS: 1
REF: 93-94
6. Explain
the makeup of coaxial cable.
ANS:
Coaxial cable consists of a central metal core (often copper)
surrounded by an insulator, a braided metal shielding, called braiding or
shield, and an outer cover, called the sheath or jacket. The core may be
constructed of one solid metal wire or several thin strands of metal wire. The
core carries the electromagnetic signal, and the braided metal shielding acts
as both a shield against noise and a ground for the signal. The insulator layer
usually consists of a plastic material such as PVC (polyvinyl chloride) or
Teflon. It protects the core from the metal shielding, because if the two made
contact, the wire would short-circuit. The sheath, which protects the cable
from physical damage, may be PVC or a more expensive, fire-resistant plastic.
PTS:
1
REF: 96-97
7. Explain
the makeup of twisted pair wire.
ANS:
Twisted pair cable consists of color-coded pairs of insulated
copper wires, each with a diameter of 0.4 to 0.8 mm (approximately the diameter
of a straight pin). Every two wires are twisted around each other to form
pairs, and all the pairs are encased in a plastic sheath. The number of pairs
in a cable varies, depending on the cable type.
PTS:
1
REF: 99
8. Describe
the advantages of twisted pair wiring.
ANS:
Twisted pair cable is relatively inexpensive, flexible, and easy
to install, and it can span a significant distance before requiring a repeater
(though not as far as coax). Twisted pair cable easily accommodates several
different topologies, although it is most often implemented in star or
star-hybrid topologies. All twisted pair cable falls into one of two
categories: STP (shielded twisted pair) or UTP (unshielded twisted pair).
PTS:
1
REF: 100
9. Explain
the makeup of fiber-optic cable.
ANS:
Fiber-optic cable, or simply fiber, contains one or several
glass or plastic fibers at its center, or core. Data is transmitted via pulsing
light sent from a laser (in the case of 1- and 10-Gigabit technologies) or an
LED (light-emitting diode) through the central fibers. Surrounding the fibers
is a layer of glass or plastic called cladding. The cladding has a different
density from the glass or plastic in the strands. It reflects light back to the
core in patterns that vary depending on the transmission mode. This reflection
allows the fiber to bend around corners without diminishing the integrity of
the light-based signal. Outside the cladding, a plastic buffer protects the
cladding and core. Because the buffer is opaque, it also absorbs any light that
might escape. To prevent the cable from stretching, and to protect the inner
core further, strands of Kevlar (a polymeric fiber) surround the plastic buffer.
Finally, a plastic sheath covers the strands of Kevlar.
PTS:
1
REF: 108-109
10. Describe
the benefits of fiber-optic cabling over copper cabling.
ANS:
Fiber-optic cable provides the following benefits over copper cabling:
·
Extremely high throughput
·
Very high resistance to noise
·
Excellent security
·
Ability to carry signals for much longer distances before
requiring repeaters than copper cable
·
Industry standard for high-speed networking
PTS:
1
REF: 109-110
Chapter 4: Introduction to TCP/IP Protocols
TRUE/FALSE
1. All
protocols are routable.
ANS:
F
PTS:
1
REF: 141
2. ICMP
(Internet Control Message Protocol) reports on the success or failure of data
delivery.
ANS:
T
PTS:
1
REF: 153
3. The
format of ARP tables is the same from one operating system to another.
ANS:
F
PTS:
1
REF: 153
4. The
command used to view IP information on a Windows workstation is ipconfig.
ANS:
T
PTS:
1
REF: 156
5. If
your network does not need or use APIPA, it must be uninstalled to avoid
conflicts.
ANS: F
PTS:
1
REF: 164
MULTIPLE CHOICE
1. TCP
is a(n) ____ subprotocol.
|
a. |
open-ended |
c. |
connection-oriented |
|
b. |
indiscriminating |
d. |
connectionless |
ANS:
C
PTS: 1
REF: 143
2. A(n)
____ number is the address on a host where an application makes itself
available to incoming or outgoing data.
|
a. |
port |
c. |
destination |
|
b. |
source |
d. |
application |
ANS:
A
PTS: 1
REF: 144
3. ____
is more efficient than TCP for carrying messages that fit within one data
packet.
|
a. |
IP |
c. |
ICMP |
|
b. |
UDP |
d. |
IGMP |
ANS:
B
PTS:
1
REF: 147
4. A UDP
header contains ____fields.
|
a. |
four |
c. |
eight |
|
b. |
six |
d. |
ten |
ANS:
A
PTS:
1
REF: 147
5. The
subprotocol that enables TCP/IP to internetwork – that is, to traverse more
than one LAN segment and more than one type of network through a router is
____.
|
a. |
TCP |
c. |
UDP |
|
b. |
ICMP |
d. |
IP |
ANS:
D
PTS:
1
REF: 148
6. ____
operates at the Network layer and manages multicasting.
|
a. |
IGMP |
c. |
UDP |
|
b. |
ICMP |
d. |
IP |
ANS: A
PTS:
1
REF: 152
7. ____
ARP table entries are created when a client makes an ARP request that cannot be
satisfied by data already in the ARP table.
|
a. |
Static |
c. |
Temporary |
|
b. |
Dynamic |
d. |
On-demand |
ANS: B
PTS:
1
REF: 153
8. In
the TCP/IP protocol suite, ____ is the core protocol responsible for logical
addressing.
|
a. |
TCP |
c. |
IP |
|
b. |
UDP |
d. |
ARP |
ANS:
C
PTS: 1
REF: 153-154
9. In
IPv4 addressing, each IP address is a unique ____ number.
|
a. |
12-bit |
c. |
64-bit |
|
b. |
32-bit |
d. |
128-bit |
ANS:
B
PTS:
1
REF: 154
10. In
IPv4 addressing, a node with an IP address of 168.34.88.29 belongs to a Class
____ network.
|
a. |
A |
c. |
C |
|
b. |
B |
d. |
D |
ANS:
B
PTS:
1
REF: 154
11. In
IPv4 addressing, an IP address whose first octet is in the range of 192–223
belongs to a Class ____ network.
|
a. |
A |
c. |
C |
|
b. |
B |
d. |
D |
ANS:
C
PTS:
1
REF: 155
12. In
dotted decimal notation, a(n) ____ separates each decimal.
|
a. |
dash |
c. |
colon |
|
b. |
slash |
d. |
period |
ANS: D
PTS:
1
REF: 157
13. The
default subnet mask for a Class B network is ____.
|
a. |
255.0.0.0 |
c. |
255.255.255.0 |
|
b. |
255.255.0.0 |
d. |
255.255.255.255 |
ANS:
B
PTS: 1
REF: 158
14. In
most cases, BOOTP has been surpassed by the more sophisticated IP addressing
utility, ____.
|
a. |
DNS |
c. |
DHCP |
|
b. |
RARP |
d. |
APIPA |
ANS:
C
PTS:
1
REF: 158
15. A(n)
____ address represents any one interface from a group of interfaces, any one
of which can accept a transmission.
|
a. |
anycast |
c. |
multicast |
|
b. |
unicast |
d. |
singlecast |
ANS:
A
PTS:
1
REF: 159
16. In
IPv6, each address contains a(n) ____, or a variable-length field at the
beginning of the address that indicates what type of address it is.
|
a. |
Variable Prefix |
c. |
Format Prefix |
|
b. |
Address Prefix |
d. |
Field Prefix |
ANS:
C
PTS: 1
REF: 159
Comments
Post a Comment