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Deck 3: Networking Media

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Question
Shielding works like a form of built-in ____, a type of metal or plastic pipe built specifically to contain cabling.

A)braiding
B)sheath
C)insulation
D)conduit
Use Space or
up arrow
down arrow
to flip the card.
Question
____ transmission systems use analog techniques to encode binary 1s and 0s across a continuous range of values.

A)Direct sequence
B)Electromagnetic
C)Baseband
D)Broadband
Question
Coaxial cable consists of a single conductor at the core, surrounded by an insulating layer, braided metal shielding, and an outer cover (usually called the ____).

A)braiding
B)sheath
C)insulation
D)conduit
Question
Whether STP or UTP, twisted-pair network cabling most commonly uses ____ connectors to plug into computer network interfaces or other networked devices.

A)BNC
B)MT-RJ
C)RJ-45
D)RJ-11
Question
____ transmission uses a digital encoding scheme at a single fixed frequency, where signals take the form of discrete pulses of electricity or light.

A)Analog
B)Electromagnetic
C)Baseband
D)Broadband
Question
Terrestrial microwave systems use tight-beam, high-frequency signals to link sender and receiver.
Question
The 1997 802.16 Wireless Networking Standard is also referred to as Wireless Fidelity (Wi-Fi).
Question
The cable plant is the combination of installed network cables, connectors, patch panels, wall jacks, and other media components.
Question
Each type of cable can transport data only so far before its signal begins to weaken beyond where it can be read accurately; this phenomenon is called ____.

A)attenuation
B)bandwidth
C)insertion loss
D)latency
Question
Spread-spectrum radio addresses several weaknesses of single-frequency communications, whether high or low power.
Question
10Base5 refers to ____.

A)thicknet
B)thinnet
C)Category 5 UTP
D)Category 6 UTP
Question
Fiber-optic cable eliminates the possibility of electronic eavesdropping.
Question
____ are special RJ-45-terminated TP cables that permit modular cables to stretch between wall plates and equipment.

A)Jack couplers
B)Wall plates
C)Patch panels
D)Patch cables
Question
10BaseT refers to ____.

A)TP
B)UTP
C)STP
D)ScTP
Question
The bend radius of fiber-optic cable is ____ degrees per foot.

A)15
B)30
C)45
D)60
Question
Category ____ cable is labeled as voicegrade.

A)1
B)2
C)3
D)4
Question
The frequency of the wave forms used for communication is measured in cycles per second usually expressed as Watts.
Question
The maximum cable length for Category 5, 5e and 6 UTP cables is 200 meters.
Question
____ encloses each pair of wires within a foil shield as well as an enclosing insulating sheath.

A)TP
B)UTP
C)STP
D)ScTP
Question
Category ____ cable is labeled as datagrade.

A)1
B)2
C)3
D)4
Question
With respect to structured cabling, the ____ is where computer workstations and other user devices are located.

A)work area
B)telecommunications closet
C)equipment room
D)entrance facility
Question
Instead of aiming at transmitters or receivers within a clear line of sight on the ground, satellite microwave systems send and receive data from ____________________ satellites that maintain fixed positions in the sky.
Question
Infrared transmissions are being used increasingly for ____________________ connections that enable portable computing devices to communicate with wired computers or peripheral devices, such as printers.
Question
Direct-sequence modulation breaks data into fixed-size segments called ____________________ and transmits the data on several different frequencies at the same time.
Question
A(n)____________________ cable is used to connect a computer's network interface card to a jack in the work area or to connect from a patch panel to a hub or switch in the wiring closet.
Question
EMI stands for ______________________________.
Question
The TIA/EIA developed the document "____ Commercial Building Wiring Standard", which specifies how network media should be installed to maximize performance and efficiency.

A)11
B)45
C)568
D)802
Question
____ is not a fiber-optic connector.

A)BNC
B)ST
C)SC
D)LC
Question
____ is not a fiber-optic connector.

A)MIC
B)SMA
C)MT-RJ
D)RJ-45
Question
Coaxial cable is often called "____________________" for short.
Question
IEEE stands for __________________________________________________.
Question
With respect to structured cabling, the ____ houses servers, routers, switches, and other major network equipment and serves as a connection point for backbone cabling running between TCs.

A)work area
B)cable plant
C)equipment room
D)entrance facility
Question
With respect to structured cabling, the ____ provides connectivity to computer equipment in the nearby work area.

A)cable plant
B)telecommunications closet
C)equipment room
D)entrance facility
Question
What is structured cabling? What are its components?
Question
What is the difference between mid-split and dual-cable broadband?
Question
What is the role of wall plates in a wiring center?
Question
With respect to network cabling, what do the terms thicknet and thinnet mean?
Question
With respect to structured cabling, a(n)____ is the location of the cabling and equipment that connects a corporate network to a third-party telecommunications provider.

A)work area
B)cable plant
C)equipment room
D)entrance facility
Question
Describe the twisted-pair (TP)cable network media.
Question
The ____ Worldwide Interoperability for Microwave Access (WiMax)standard, comes in two flavors.

A)802.3
B)802.5
C)802.11
D)802.16
Question
Match between columns
Premises:
Responses:
trades electrical pulses for their optical equivalents.
bandwidth
trades electrical pulses for their optical equivalents.
latency
trades electrical pulses for their optical equivalents.
insertion loss
trades electrical pulses for their optical equivalents.
repeater
trades electrical pulses for their optical equivalents.
amplifier
trades electrical pulses for their optical equivalents.
coaxial
trades electrical pulses for their optical equivalents.
shielding
trades electrical pulses for their optical equivalents.
twisted-pair
trades electrical pulses for their optical equivalents.
fiber-optic cable
was the predominant form of network cabling for many years.
bandwidth
was the predominant form of network cabling for many years.
latency
was the predominant form of network cabling for many years.
insertion loss
was the predominant form of network cabling for many years.
repeater
was the predominant form of network cabling for many years.
amplifier
was the predominant form of network cabling for many years.
coaxial
was the predominant form of network cabling for many years.
shielding
was the predominant form of network cabling for many years.
twisted-pair
was the predominant form of network cabling for many years.
fiber-optic cable
consists of one or more pairs of insulated strands of copper wire twisted around one another.
bandwidth
consists of one or more pairs of insulated strands of copper wire twisted around one another.
latency
consists of one or more pairs of insulated strands of copper wire twisted around one another.
insertion loss
consists of one or more pairs of insulated strands of copper wire twisted around one another.
repeater
consists of one or more pairs of insulated strands of copper wire twisted around one another.
amplifier
consists of one or more pairs of insulated strands of copper wire twisted around one another.
coaxial
consists of one or more pairs of insulated strands of copper wire twisted around one another.
shielding
consists of one or more pairs of insulated strands of copper wire twisted around one another.
twisted-pair
consists of one or more pairs of insulated strands of copper wire twisted around one another.
fiber-optic cable
measures the amount of time a signal takes to travel from one end of the cable to another.
bandwidth
measures the amount of time a signal takes to travel from one end of the cable to another.
latency
measures the amount of time a signal takes to travel from one end of the cable to another.
insertion loss
measures the amount of time a signal takes to travel from one end of the cable to another.
repeater
measures the amount of time a signal takes to travel from one end of the cable to another.
amplifier
measures the amount of time a signal takes to travel from one end of the cable to another.
coaxial
measures the amount of time a signal takes to travel from one end of the cable to another.
shielding
measures the amount of time a signal takes to travel from one end of the cable to another.
twisted-pair
measures the amount of time a signal takes to travel from one end of the cable to another.
fiber-optic cable
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
bandwidth
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
latency
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
insertion loss
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
repeater
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
amplifier
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
coaxial
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
shielding
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
twisted-pair
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
fiber-optic cable
how many bits or bytes of information a cable can carry over a unit of time.
bandwidth
how many bits or bytes of information a cable can carry over a unit of time.
latency
how many bits or bytes of information a cable can carry over a unit of time.
insertion loss
how many bits or bytes of information a cable can carry over a unit of time.
repeater
how many bits or bytes of information a cable can carry over a unit of time.
amplifier
how many bits or bytes of information a cable can carry over a unit of time.
coaxial
how many bits or bytes of information a cable can carry over a unit of time.
shielding
how many bits or bytes of information a cable can carry over a unit of time.
twisted-pair
how many bits or bytes of information a cable can carry over a unit of time.
fiber-optic cable
detects weak signals, strengthens those signals, and then rebroadcasts them.
bandwidth
detects weak signals, strengthens those signals, and then rebroadcasts them.
latency
detects weak signals, strengthens those signals, and then rebroadcasts them.
insertion loss
detects weak signals, strengthens those signals, and then rebroadcasts them.
repeater
detects weak signals, strengthens those signals, and then rebroadcasts them.
amplifier
detects weak signals, strengthens those signals, and then rebroadcasts them.
coaxial
detects weak signals, strengthens those signals, and then rebroadcasts them.
shielding
detects weak signals, strengthens those signals, and then rebroadcasts them.
twisted-pair
detects weak signals, strengthens those signals, and then rebroadcasts them.
fiber-optic cable
refers to any protective layers wrapped around a cable to protect it from external interference
bandwidth
refers to any protective layers wrapped around a cable to protect it from external interference
latency
refers to any protective layers wrapped around a cable to protect it from external interference
insertion loss
refers to any protective layers wrapped around a cable to protect it from external interference
repeater
refers to any protective layers wrapped around a cable to protect it from external interference
amplifier
refers to any protective layers wrapped around a cable to protect it from external interference
coaxial
refers to any protective layers wrapped around a cable to protect it from external interference
shielding
refers to any protective layers wrapped around a cable to protect it from external interference
twisted-pair
refers to any protective layers wrapped around a cable to protect it from external interference
fiber-optic cable
each physical connection adds to the attenuation of signals on a cable segment.
bandwidth
each physical connection adds to the attenuation of signals on a cable segment.
latency
each physical connection adds to the attenuation of signals on a cable segment.
insertion loss
each physical connection adds to the attenuation of signals on a cable segment.
repeater
each physical connection adds to the attenuation of signals on a cable segment.
amplifier
each physical connection adds to the attenuation of signals on a cable segment.
coaxial
each physical connection adds to the attenuation of signals on a cable segment.
shielding
each physical connection adds to the attenuation of signals on a cable segment.
twisted-pair
each physical connection adds to the attenuation of signals on a cable segment.
fiber-optic cable
Question
What is the role of wireless bridges?
Question
With respect to structured cabling, what is the role of backbone cabling?
Question
How do narrowband radio LAN technologies work?
Question
What is mobile WiMax?
Question
With respect to structured cabling, what is the role of horizontal wiring?
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Deck 3: Networking Media
1
Shielding works like a form of built-in ____, a type of metal or plastic pipe built specifically to contain cabling.

A)braiding
B)sheath
C)insulation
D)conduit
D
2
____ transmission systems use analog techniques to encode binary 1s and 0s across a continuous range of values.

A)Direct sequence
B)Electromagnetic
C)Baseband
D)Broadband
D
3
Coaxial cable consists of a single conductor at the core, surrounded by an insulating layer, braided metal shielding, and an outer cover (usually called the ____).

A)braiding
B)sheath
C)insulation
D)conduit
B
4
Whether STP or UTP, twisted-pair network cabling most commonly uses ____ connectors to plug into computer network interfaces or other networked devices.

A)BNC
B)MT-RJ
C)RJ-45
D)RJ-11
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5
____ transmission uses a digital encoding scheme at a single fixed frequency, where signals take the form of discrete pulses of electricity or light.

A)Analog
B)Electromagnetic
C)Baseband
D)Broadband
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6
Terrestrial microwave systems use tight-beam, high-frequency signals to link sender and receiver.
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7
The 1997 802.16 Wireless Networking Standard is also referred to as Wireless Fidelity (Wi-Fi).
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8
The cable plant is the combination of installed network cables, connectors, patch panels, wall jacks, and other media components.
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9
Each type of cable can transport data only so far before its signal begins to weaken beyond where it can be read accurately; this phenomenon is called ____.

A)attenuation
B)bandwidth
C)insertion loss
D)latency
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10
Spread-spectrum radio addresses several weaknesses of single-frequency communications, whether high or low power.
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11
10Base5 refers to ____.

A)thicknet
B)thinnet
C)Category 5 UTP
D)Category 6 UTP
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12
Fiber-optic cable eliminates the possibility of electronic eavesdropping.
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13
____ are special RJ-45-terminated TP cables that permit modular cables to stretch between wall plates and equipment.

A)Jack couplers
B)Wall plates
C)Patch panels
D)Patch cables
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14
10BaseT refers to ____.

A)TP
B)UTP
C)STP
D)ScTP
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15
The bend radius of fiber-optic cable is ____ degrees per foot.

A)15
B)30
C)45
D)60
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16
Category ____ cable is labeled as voicegrade.

A)1
B)2
C)3
D)4
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17
The frequency of the wave forms used for communication is measured in cycles per second usually expressed as Watts.
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18
The maximum cable length for Category 5, 5e and 6 UTP cables is 200 meters.
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k this deck
19
____ encloses each pair of wires within a foil shield as well as an enclosing insulating sheath.

A)TP
B)UTP
C)STP
D)ScTP
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k this deck
20
Category ____ cable is labeled as datagrade.

A)1
B)2
C)3
D)4
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k this deck
21
With respect to structured cabling, the ____ is where computer workstations and other user devices are located.

A)work area
B)telecommunications closet
C)equipment room
D)entrance facility
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k this deck
22
Instead of aiming at transmitters or receivers within a clear line of sight on the ground, satellite microwave systems send and receive data from ____________________ satellites that maintain fixed positions in the sky.
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k this deck
23
Infrared transmissions are being used increasingly for ____________________ connections that enable portable computing devices to communicate with wired computers or peripheral devices, such as printers.
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k this deck
24
Direct-sequence modulation breaks data into fixed-size segments called ____________________ and transmits the data on several different frequencies at the same time.
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25
A(n)____________________ cable is used to connect a computer's network interface card to a jack in the work area or to connect from a patch panel to a hub or switch in the wiring closet.
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26
EMI stands for ______________________________.
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27
The TIA/EIA developed the document "____ Commercial Building Wiring Standard", which specifies how network media should be installed to maximize performance and efficiency.

A)11
B)45
C)568
D)802
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28
____ is not a fiber-optic connector.

A)BNC
B)ST
C)SC
D)LC
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k this deck
29
____ is not a fiber-optic connector.

A)MIC
B)SMA
C)MT-RJ
D)RJ-45
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k this deck
30
Coaxial cable is often called "____________________" for short.
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31
IEEE stands for __________________________________________________.
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32
With respect to structured cabling, the ____ houses servers, routers, switches, and other major network equipment and serves as a connection point for backbone cabling running between TCs.

A)work area
B)cable plant
C)equipment room
D)entrance facility
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
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k this deck
33
With respect to structured cabling, the ____ provides connectivity to computer equipment in the nearby work area.

A)cable plant
B)telecommunications closet
C)equipment room
D)entrance facility
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k this deck
34
What is structured cabling? What are its components?
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35
What is the difference between mid-split and dual-cable broadband?
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36
What is the role of wall plates in a wiring center?
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37
With respect to network cabling, what do the terms thicknet and thinnet mean?
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38
With respect to structured cabling, a(n)____ is the location of the cabling and equipment that connects a corporate network to a third-party telecommunications provider.

A)work area
B)cable plant
C)equipment room
D)entrance facility
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39
Describe the twisted-pair (TP)cable network media.
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40
The ____ Worldwide Interoperability for Microwave Access (WiMax)standard, comes in two flavors.

A)802.3
B)802.5
C)802.11
D)802.16
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k this deck
41
Match between columns
Premises:
Responses:
trades electrical pulses for their optical equivalents.
bandwidth
trades electrical pulses for their optical equivalents.
latency
trades electrical pulses for their optical equivalents.
insertion loss
trades electrical pulses for their optical equivalents.
repeater
trades electrical pulses for their optical equivalents.
amplifier
trades electrical pulses for their optical equivalents.
coaxial
trades electrical pulses for their optical equivalents.
shielding
trades electrical pulses for their optical equivalents.
twisted-pair
trades electrical pulses for their optical equivalents.
fiber-optic cable
was the predominant form of network cabling for many years.
bandwidth
was the predominant form of network cabling for many years.
latency
was the predominant form of network cabling for many years.
insertion loss
was the predominant form of network cabling for many years.
repeater
was the predominant form of network cabling for many years.
amplifier
was the predominant form of network cabling for many years.
coaxial
was the predominant form of network cabling for many years.
shielding
was the predominant form of network cabling for many years.
twisted-pair
was the predominant form of network cabling for many years.
fiber-optic cable
consists of one or more pairs of insulated strands of copper wire twisted around one another.
bandwidth
consists of one or more pairs of insulated strands of copper wire twisted around one another.
latency
consists of one or more pairs of insulated strands of copper wire twisted around one another.
insertion loss
consists of one or more pairs of insulated strands of copper wire twisted around one another.
repeater
consists of one or more pairs of insulated strands of copper wire twisted around one another.
amplifier
consists of one or more pairs of insulated strands of copper wire twisted around one another.
coaxial
consists of one or more pairs of insulated strands of copper wire twisted around one another.
shielding
consists of one or more pairs of insulated strands of copper wire twisted around one another.
twisted-pair
consists of one or more pairs of insulated strands of copper wire twisted around one another.
fiber-optic cable
measures the amount of time a signal takes to travel from one end of the cable to another.
bandwidth
measures the amount of time a signal takes to travel from one end of the cable to another.
latency
measures the amount of time a signal takes to travel from one end of the cable to another.
insertion loss
measures the amount of time a signal takes to travel from one end of the cable to another.
repeater
measures the amount of time a signal takes to travel from one end of the cable to another.
amplifier
measures the amount of time a signal takes to travel from one end of the cable to another.
coaxial
measures the amount of time a signal takes to travel from one end of the cable to another.
shielding
measures the amount of time a signal takes to travel from one end of the cable to another.
twisted-pair
measures the amount of time a signal takes to travel from one end of the cable to another.
fiber-optic cable
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
bandwidth
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
latency
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
insertion loss
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
repeater
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
amplifier
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
coaxial
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
shielding
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
twisted-pair
receives incoming signals on one cable segment and refreshes them before retransmitting them on another cable segment.
fiber-optic cable
how many bits or bytes of information a cable can carry over a unit of time.
bandwidth
how many bits or bytes of information a cable can carry over a unit of time.
latency
how many bits or bytes of information a cable can carry over a unit of time.
insertion loss
how many bits or bytes of information a cable can carry over a unit of time.
repeater
how many bits or bytes of information a cable can carry over a unit of time.
amplifier
how many bits or bytes of information a cable can carry over a unit of time.
coaxial
how many bits or bytes of information a cable can carry over a unit of time.
shielding
how many bits or bytes of information a cable can carry over a unit of time.
twisted-pair
how many bits or bytes of information a cable can carry over a unit of time.
fiber-optic cable
detects weak signals, strengthens those signals, and then rebroadcasts them.
bandwidth
detects weak signals, strengthens those signals, and then rebroadcasts them.
latency
detects weak signals, strengthens those signals, and then rebroadcasts them.
insertion loss
detects weak signals, strengthens those signals, and then rebroadcasts them.
repeater
detects weak signals, strengthens those signals, and then rebroadcasts them.
amplifier
detects weak signals, strengthens those signals, and then rebroadcasts them.
coaxial
detects weak signals, strengthens those signals, and then rebroadcasts them.
shielding
detects weak signals, strengthens those signals, and then rebroadcasts them.
twisted-pair
detects weak signals, strengthens those signals, and then rebroadcasts them.
fiber-optic cable
refers to any protective layers wrapped around a cable to protect it from external interference
bandwidth
refers to any protective layers wrapped around a cable to protect it from external interference
latency
refers to any protective layers wrapped around a cable to protect it from external interference
insertion loss
refers to any protective layers wrapped around a cable to protect it from external interference
repeater
refers to any protective layers wrapped around a cable to protect it from external interference
amplifier
refers to any protective layers wrapped around a cable to protect it from external interference
coaxial
refers to any protective layers wrapped around a cable to protect it from external interference
shielding
refers to any protective layers wrapped around a cable to protect it from external interference
twisted-pair
refers to any protective layers wrapped around a cable to protect it from external interference
fiber-optic cable
each physical connection adds to the attenuation of signals on a cable segment.
bandwidth
each physical connection adds to the attenuation of signals on a cable segment.
latency
each physical connection adds to the attenuation of signals on a cable segment.
insertion loss
each physical connection adds to the attenuation of signals on a cable segment.
repeater
each physical connection adds to the attenuation of signals on a cable segment.
amplifier
each physical connection adds to the attenuation of signals on a cable segment.
coaxial
each physical connection adds to the attenuation of signals on a cable segment.
shielding
each physical connection adds to the attenuation of signals on a cable segment.
twisted-pair
each physical connection adds to the attenuation of signals on a cable segment.
fiber-optic cable
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42
What is the role of wireless bridges?
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43
With respect to structured cabling, what is the role of backbone cabling?
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44
How do narrowband radio LAN technologies work?
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45
What is mobile WiMax?
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46
With respect to structured cabling, what is the role of horizontal wiring?
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