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Deck 2: Network Design Essentials

Full screen (f)
exit full mode
Question
A physical ring is a(n)____ topology.

A)passive
B)active
C)standard
D)logical
Use Space or
up arrow
down arrow
to flip the card.
Question
A(n)____ attached to each end of a cable prevents signals from bouncing on a physical bus.

A)server
B)hub
C)access point
D)terminator
Question
All computers, no matter what their topology, communicate in the same way: They address data to one or more computers and then transmit that data across the cable in the form of ____.

A)bits
B)bytes
C)bps
D)electronic signals
Question
A network's topology has a significant effect on its performance and growth potential.
Question
In a(n)____ topology network, computers and other devices attached to the network regenerate signals and are responsible for moving data through the network.

A)passive
B)active
C)physical
D)logical
Question
At the center of a logical ring implemented as a physical star is a device called a(n)____.

A)hub
B)switch
C)concentrator
D)access point
Question
All network designs today are based on ____ simple physical topologies.

A)two
B)three
C)four
D)five
Question
A physical bus topology is almost always implemented as a logical ____ topology.

A)ring
B)switching
C)bus
D)mesh
Question
In the simplest wireless configuration, two computers can communicate directly with one another in a(n)____ topology.

A)access point
B)point-to-point
C)infrastructure mode
D)ad hoc
Question
The first step in any network design is to evaluate the underlying requirements.
Question
A disadvantage of the ring topology lies in its inability to share network resources fairly.
Question
When wireless devices are configured to use an access point, they are said to be in ____ mode.

A)access point
B)point-to-point
C)infrastructure
D)ad hoc
Question
In a physical ring topology, signals typically travel in both directions around the ring.
Question
Because of the ____ phenomenon, a method to ensure that all signals stop when they reach the end of any segment in a bus topology must be devised.

A)signal bounce
B)signal propagation
C)cable termination
D)cable breaks
Question
In most situations, wireless LANs use a central device, called a(n)____, to control communications.

A)hub
B)switch
C)concentrator
D)access point
Question
At the center of a logical bus implemented as a physical star is a device called a(n)____.

A)hub
B)switch
C)concentrator
D)access point
Question
The mesh network topology is the most expensive one.
Question
The ring-based technologies implemented as a physical star include ____ and token ring.

A)SONET
B)Wi-Fi
C)Ethernet
D)FDDI
Question
Signals on a bus generated by the signal bounce effect significantly reduce the performance, but do not render computer communication on the bus network unworkable.
Question
On a bus network, open ends in a cable segment must be terminated to prevent ____.

A)signal propagation
B)cable breaks
C)signal bounce
D)cable termination
Question
A(n)____________________ topology might be the only reasonable topology choice in an environment that's not conducive to running cables, such as warehouses and old or historic buildings.
Question
Describe how the logical ring topology works.
Question
Describe the signal bounce phenomenon in a physical bus topology.
Question
Describe the process of sending the signal in a logical bus topology.
Question
A ____ network topology is the most fault tolerant one.

A)ring
B)mesh
C)bus
D)star
Question
The mesh topology formula for determining how many connections are needed for the number of nodes on a network, with n representing the number of nodes on the network is: ____.

A)n ( n -1)/2
B)n * n /2
C)n ( n +1)/2
D)n * n -1
Question
A hub-based bus topology should be considered if a small network (____ or fewer computers)is being constructed and keeping costs down is paramount.

A)5
B)10
C)25
D)50
Question
It's important to note that a bus topology is a(n)____________________ topology; this means that computers on the bus only listen for data being sent; they aren't responsible for moving data from one computer to the next.
Question
Describe how cable failure affects communications in a physical bus topology.
Question
In a(n)____ hub, such as a patch panel or punchdown block, the signal passes through the hub without any amplification or regeneration.

A)active
B)passive
C)repeating
D)switching
Question
How does the physical bus topology work?
Question
The logical topologies that dominate LANs include bus, ring, and ____________________.
Question
A hub-based ____ topology might be considered if a few computers are being added to an existing network, and the new computers are grouped in a somewhat remote location.

A)bus
B)star
C)ring
D)mesh
Question
FDDI stands for ___________________________________.
Question
Discuss the advantages and disadvantages of a physical star topology.
Question
Describe the signal propagation process in the physical bus topology.
Question
A logical bus topology is still in use on some physical topologies, in particular a(n)____________________.
Question
Generally, active hubs have many ports-eight or more-and so are sometimes called ____________________ repeaters or repeating hubs.
Question
The majority of hubs installed in networks today are ____ hubs.

A)active
B)passive
C)repeating
D)switching
Question
A central device, usually a(n)____, sits in the middle of the extended star topology.

A)hub
B)concentrator
C)switch
D)access point
Question
Match between columns
Premises:
Responses:
topology in which each computer connects directly to the next computer in line, ending at the starting computer
topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
logical topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical bus topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
backbone
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical ring topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
logical bus topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical star topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
MSAU
single cable segment that (theoretically)interconnects all the computers in a straight line
topology
single cable segment that (theoretically)interconnects all the computers in a straight line
physical topology
single cable segment that (theoretically)interconnects all the computers in a straight line
logical topology
single cable segment that (theoretically)interconnects all the computers in a straight line
physical bus topology
single cable segment that (theoretically)interconnects all the computers in a straight line
backbone
single cable segment that (theoretically)interconnects all the computers in a straight line
physical ring topology
single cable segment that (theoretically)interconnects all the computers in a straight line
logical bus topology
single cable segment that (theoretically)interconnects all the computers in a straight line
physical star topology
single cable segment that (theoretically)interconnects all the computers in a straight line
MSAU
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
logical topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical bus topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
backbone
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical ring topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
logical bus topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical star topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
MSAU
by far the simplest topology
topology
by far the simplest topology
physical topology
by far the simplest topology
logical topology
by far the simplest topology
physical bus topology
by far the simplest topology
backbone
by far the simplest topology
physical ring topology
by far the simplest topology
logical bus topology
by far the simplest topology
physical star topology
by far the simplest topology
MSAU
arrangement of cabling in a network
topology
arrangement of cabling in a network
physical topology
arrangement of cabling in a network
logical topology
arrangement of cabling in a network
physical bus topology
arrangement of cabling in a network
backbone
arrangement of cabling in a network
physical ring topology
arrangement of cabling in a network
logical bus topology
arrangement of cabling in a network
physical star topology
arrangement of cabling in a network
MSAU
computers are connected by cable segments to a central device
topology
computers are connected by cable segments to a central device
physical topology
computers are connected by cable segments to a central device
logical topology
computers are connected by cable segments to a central device
physical bus topology
computers are connected by cable segments to a central device
backbone
computers are connected by cable segments to a central device
physical ring topology
computers are connected by cable segments to a central device
logical bus topology
computers are connected by cable segments to a central device
physical star topology
computers are connected by cable segments to a central device
MSAU
can be implemented as a physical bus or as a physical star
topology
can be implemented as a physical bus or as a physical star
physical topology
can be implemented as a physical bus or as a physical star
logical topology
can be implemented as a physical bus or as a physical star
physical bus topology
can be implemented as a physical bus or as a physical star
backbone
can be implemented as a physical bus or as a physical star
physical ring topology
can be implemented as a physical bus or as a physical star
logical bus topology
can be implemented as a physical bus or as a physical star
physical star topology
can be implemented as a physical bus or as a physical star
MSAU
path that data travels between computers on a network
topology
path that data travels between computers on a network
physical topology
path that data travels between computers on a network
logical topology
path that data travels between computers on a network
physical bus topology
path that data travels between computers on a network
backbone
path that data travels between computers on a network
physical ring topology
path that data travels between computers on a network
logical bus topology
path that data travels between computers on a network
physical star topology
path that data travels between computers on a network
MSAU
device at the center of a star ring
topology
device at the center of a star ring
physical topology
device at the center of a star ring
logical topology
device at the center of a star ring
physical bus topology
device at the center of a star ring
backbone
device at the center of a star ring
physical ring topology
device at the center of a star ring
logical bus topology
device at the center of a star ring
physical star topology
device at the center of a star ring
MSAU
Question
How does the functionality of a switch differ from the functionality of a hub?
Question
What is the extended star topology?
Question
Briefly describe the process involved in designing a simple network.
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Deck 2: Network Design Essentials
1
A physical ring is a(n)____ topology.

A)passive
B)active
C)standard
D)logical
B
2
A(n)____ attached to each end of a cable prevents signals from bouncing on a physical bus.

A)server
B)hub
C)access point
D)terminator
D
3
All computers, no matter what their topology, communicate in the same way: They address data to one or more computers and then transmit that data across the cable in the form of ____.

A)bits
B)bytes
C)bps
D)electronic signals
D
4
A network's topology has a significant effect on its performance and growth potential.
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
5
In a(n)____ topology network, computers and other devices attached to the network regenerate signals and are responsible for moving data through the network.

A)passive
B)active
C)physical
D)logical
Unlock Deck
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k this deck
6
At the center of a logical ring implemented as a physical star is a device called a(n)____.

A)hub
B)switch
C)concentrator
D)access point
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
7
All network designs today are based on ____ simple physical topologies.

A)two
B)three
C)four
D)five
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
8
A physical bus topology is almost always implemented as a logical ____ topology.

A)ring
B)switching
C)bus
D)mesh
Unlock Deck
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Unlock Deck
k this deck
9
In the simplest wireless configuration, two computers can communicate directly with one another in a(n)____ topology.

A)access point
B)point-to-point
C)infrastructure mode
D)ad hoc
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k this deck
10
The first step in any network design is to evaluate the underlying requirements.
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k this deck
11
A disadvantage of the ring topology lies in its inability to share network resources fairly.
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k this deck
12
When wireless devices are configured to use an access point, they are said to be in ____ mode.

A)access point
B)point-to-point
C)infrastructure
D)ad hoc
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k this deck
13
In a physical ring topology, signals typically travel in both directions around the ring.
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14
Because of the ____ phenomenon, a method to ensure that all signals stop when they reach the end of any segment in a bus topology must be devised.

A)signal bounce
B)signal propagation
C)cable termination
D)cable breaks
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
15
In most situations, wireless LANs use a central device, called a(n)____, to control communications.

A)hub
B)switch
C)concentrator
D)access point
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
16
At the center of a logical bus implemented as a physical star is a device called a(n)____.

A)hub
B)switch
C)concentrator
D)access point
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17
The mesh network topology is the most expensive one.
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18
The ring-based technologies implemented as a physical star include ____ and token ring.

A)SONET
B)Wi-Fi
C)Ethernet
D)FDDI
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19
Signals on a bus generated by the signal bounce effect significantly reduce the performance, but do not render computer communication on the bus network unworkable.
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k this deck
20
On a bus network, open ends in a cable segment must be terminated to prevent ____.

A)signal propagation
B)cable breaks
C)signal bounce
D)cable termination
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21
A(n)____________________ topology might be the only reasonable topology choice in an environment that's not conducive to running cables, such as warehouses and old or historic buildings.
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k this deck
22
Describe how the logical ring topology works.
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23
Describe the signal bounce phenomenon in a physical bus topology.
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24
Describe the process of sending the signal in a logical bus topology.
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25
A ____ network topology is the most fault tolerant one.

A)ring
B)mesh
C)bus
D)star
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26
The mesh topology formula for determining how many connections are needed for the number of nodes on a network, with n representing the number of nodes on the network is: ____.

A)n ( n -1)/2
B)n * n /2
C)n ( n +1)/2
D)n * n -1
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Unlock for access to all 44 flashcards in this deck.
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k this deck
27
A hub-based bus topology should be considered if a small network (____ or fewer computers)is being constructed and keeping costs down is paramount.

A)5
B)10
C)25
D)50
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
28
It's important to note that a bus topology is a(n)____________________ topology; this means that computers on the bus only listen for data being sent; they aren't responsible for moving data from one computer to the next.
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29
Describe how cable failure affects communications in a physical bus topology.
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30
In a(n)____ hub, such as a patch panel or punchdown block, the signal passes through the hub without any amplification or regeneration.

A)active
B)passive
C)repeating
D)switching
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k this deck
31
How does the physical bus topology work?
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32
The logical topologies that dominate LANs include bus, ring, and ____________________.
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33
A hub-based ____ topology might be considered if a few computers are being added to an existing network, and the new computers are grouped in a somewhat remote location.

A)bus
B)star
C)ring
D)mesh
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34
FDDI stands for ___________________________________.
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35
Discuss the advantages and disadvantages of a physical star topology.
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36
Describe the signal propagation process in the physical bus topology.
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37
A logical bus topology is still in use on some physical topologies, in particular a(n)____________________.
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38
Generally, active hubs have many ports-eight or more-and so are sometimes called ____________________ repeaters or repeating hubs.
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39
The majority of hubs installed in networks today are ____ hubs.

A)active
B)passive
C)repeating
D)switching
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k this deck
40
A central device, usually a(n)____, sits in the middle of the extended star topology.

A)hub
B)concentrator
C)switch
D)access point
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
41
Match between columns
Premises:
Responses:
topology in which each computer connects directly to the next computer in line, ending at the starting computer
topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
logical topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical bus topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
backbone
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical ring topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
logical bus topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
physical star topology
topology in which each computer connects directly to the next computer in line, ending at the starting computer
MSAU
single cable segment that (theoretically)interconnects all the computers in a straight line
topology
single cable segment that (theoretically)interconnects all the computers in a straight line
physical topology
single cable segment that (theoretically)interconnects all the computers in a straight line
logical topology
single cable segment that (theoretically)interconnects all the computers in a straight line
physical bus topology
single cable segment that (theoretically)interconnects all the computers in a straight line
backbone
single cable segment that (theoretically)interconnects all the computers in a straight line
physical ring topology
single cable segment that (theoretically)interconnects all the computers in a straight line
logical bus topology
single cable segment that (theoretically)interconnects all the computers in a straight line
physical star topology
single cable segment that (theoretically)interconnects all the computers in a straight line
MSAU
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
logical topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical bus topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
backbone
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical ring topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
logical bus topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
physical star topology
refers not only to the physical layout of its computers, cables, and other resources, but also to how those components communicate with each other
MSAU
by far the simplest topology
topology
by far the simplest topology
physical topology
by far the simplest topology
logical topology
by far the simplest topology
physical bus topology
by far the simplest topology
backbone
by far the simplest topology
physical ring topology
by far the simplest topology
logical bus topology
by far the simplest topology
physical star topology
by far the simplest topology
MSAU
arrangement of cabling in a network
topology
arrangement of cabling in a network
physical topology
arrangement of cabling in a network
logical topology
arrangement of cabling in a network
physical bus topology
arrangement of cabling in a network
backbone
arrangement of cabling in a network
physical ring topology
arrangement of cabling in a network
logical bus topology
arrangement of cabling in a network
physical star topology
arrangement of cabling in a network
MSAU
computers are connected by cable segments to a central device
topology
computers are connected by cable segments to a central device
physical topology
computers are connected by cable segments to a central device
logical topology
computers are connected by cable segments to a central device
physical bus topology
computers are connected by cable segments to a central device
backbone
computers are connected by cable segments to a central device
physical ring topology
computers are connected by cable segments to a central device
logical bus topology
computers are connected by cable segments to a central device
physical star topology
computers are connected by cable segments to a central device
MSAU
can be implemented as a physical bus or as a physical star
topology
can be implemented as a physical bus or as a physical star
physical topology
can be implemented as a physical bus or as a physical star
logical topology
can be implemented as a physical bus or as a physical star
physical bus topology
can be implemented as a physical bus or as a physical star
backbone
can be implemented as a physical bus or as a physical star
physical ring topology
can be implemented as a physical bus or as a physical star
logical bus topology
can be implemented as a physical bus or as a physical star
physical star topology
can be implemented as a physical bus or as a physical star
MSAU
path that data travels between computers on a network
topology
path that data travels between computers on a network
physical topology
path that data travels between computers on a network
logical topology
path that data travels between computers on a network
physical bus topology
path that data travels between computers on a network
backbone
path that data travels between computers on a network
physical ring topology
path that data travels between computers on a network
logical bus topology
path that data travels between computers on a network
physical star topology
path that data travels between computers on a network
MSAU
device at the center of a star ring
topology
device at the center of a star ring
physical topology
device at the center of a star ring
logical topology
device at the center of a star ring
physical bus topology
device at the center of a star ring
backbone
device at the center of a star ring
physical ring topology
device at the center of a star ring
logical bus topology
device at the center of a star ring
physical star topology
device at the center of a star ring
MSAU
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42
How does the functionality of a switch differ from the functionality of a hub?
Unlock Deck
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k this deck
43
What is the extended star topology?
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44
Briefly describe the process involved in designing a simple network.
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