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Deck 2: Network Standards and the OSI Model

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Question
____ oversees the IAB (Internet Architecture Board).

A) EIA
B) ISOC
C) ICANN
D) ISO
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Question
For greater network efficiency, segmentation is preferred.
Question
Each network node has ____ types of addresses.

A) two
B) three
C) four
D) five
Question
In which OSI model layer does TCP operate?

A) Physical
B) Transport
C) Network
D) Data Link
Question
The ____ is a specialized United Nations agency that provides developing countries with technical expertise and equipment to advance those nations' technological bases.

A) ANSI
B) ISO
C) ITU
D) ISOC
Question
Standards assist in network design.
Question
Transport layer protocols break large data units into ____.

A) PDUs
B) segments
C) frames
D) block IDs
Question
The process of determining the best path from Point A on one network to Point B on another is known as ____.

A) mapping
B) enhancing
C) reconfiguring
D) routing
Question
Which OSI model layer initiates the flow of information?

A) Physical
B) Session
C) Application
D) Presentation
Question
The goal of ____ is to establish international technological standards to facilitate the global exchange of information and barrier free trade.

A) ANSI
B) ISO
C) ITU
D) ISOC
Question
Standards define the ____ performance of a product or service.

A) ideal
B) most acceptable
C) minimum acceptable
D) maximum acceptable
Question
Which type of protocol is useful when data must be transferred quickly?

A) connection-oriented
B) connectionless
C) TCP
D) IP
Question
____ is the process of reconstructing segmented data.

A) Reassembly
B) Reengineering
C) Resegmenting
D) Realigning
Question
Not all Transport layer protocols are concerned with reliability.
Question
Which OSI model layer manages data encryption?

A) Physical
B) Session
C) Application
D) Presentation
Question
Which statement accurately describes the OSI model?

A) It describes how software programs interact with humans.
B) It prescribes the type of hardware or software that should support each layer.
C) It describes how software programs interact with other software programs.
D) It describes a theoretical representation of what happens between two nodes communicating on a network.
Question
Which Data Link sublayer manages flow control?

A) LLC
B) MAC
C) Management layer
D) Addressing layer
Question
In which OSI model layer does IP operate?

A) Physical
B) Transport
C) Network
D) Data Link
Question
Network functions are associated with only one layer of the OSI model.
Question
The Application layer includes software applications.
Question
Which IEEE standard describes Ethernet?

A) 802.1
B) 802.3
C) 802.5
D) 802.11
Question
____________________ are documented agreements containing technical specifications or other precise criteria that stipulate how a particular product or service should be designed or performed.
Question
Define and describe sequencing.
Question
In which OSI model layer do hubs operate?

A) Physical
B) Network
C) Data Link
D) Physical and Data Link
Question
The Application layer separates data into ____________________, or discrete amounts of data.
Question
Define a checksum and describe how Transport layer protocols implement them to ensure data integrity.
Question
____________________ protocols establish a connection with another node before they begin transmitting data.
Question
Describe how error checking is handled in the Data Link layer.
Question
A network's ____________________ represents the largest data unit the network will carry.
Question
Describe the role of Network layer protocols including the formation of packets, routing and factors considered in routing decisions.
Question
Which IEEE standard describes specifications for wireless transmissions?

A) 802.1
B) 802.3
C) 802.5
D) 802.11
Question
Define and describe the two parts of a physical address.
Question
Describe the OSI model Session layer's functions.
Question
____________________ is the process of gauging the appropriate rate of transmission based on how fast the recipient can accept data.
Question
In which OSI model layer(s) do NICs operate?

A) Physical
B) Network and Physical
C) Data Link
D) Physical and Data Link
Question
The ____ is a fixed number associated with a device's NIC.

A) LLC address
B) frame address
C) logical address
D) physical address
Question
Describe Physical layer protocol functions when receiving data.
Question
Which Data Link sublayer manages access to the physical medium?

A) LLC
B) MAC
C) Management layer
D) Addressing layer
Question
Describe a network address including its addressing scheme, formats and alternate names.
Question
Compare Ethernet and Token Ring frames in terms of their operation on a network.
Question
Briefly describe IEEE's Project 802.
Question
Match between columns
Premises:
Responses:
A professional membership society that helps to establish technical standards for the Internet.
ISOC
A professional membership society that helps to establish technical standards for the Internet.
ISO
A professional membership society that helps to establish technical standards for the Internet.
ANSI
A professional membership society that helps to establish technical standards for the Internet.
IEEE
A professional membership society that helps to establish technical standards for the Internet.
Network layer
A professional membership society that helps to establish technical standards for the Internet.
Presentation layer
A professional membership society that helps to establish technical standards for the Internet.
Physical layer
A professional membership society that helps to establish technical standards for the Internet.
Transport layer
A professional membership society that helps to establish technical standards for the Internet.
Session layer
Manages end-to-end delivery of data.
ISOC
Manages end-to-end delivery of data.
ISO
Manages end-to-end delivery of data.
ANSI
Manages end-to-end delivery of data.
IEEE
Manages end-to-end delivery of data.
Network layer
Manages end-to-end delivery of data.
Presentation layer
Manages end-to-end delivery of data.
Physical layer
Manages end-to-end delivery of data.
Transport layer
Manages end-to-end delivery of data.
Session layer
A collection of standards organizations representing 162 countries.
ISOC
A collection of standards organizations representing 162 countries.
ISO
A collection of standards organizations representing 162 countries.
ANSI
A collection of standards organizations representing 162 countries.
IEEE
A collection of standards organizations representing 162 countries.
Network layer
A collection of standards organizations representing 162 countries.
Presentation layer
A collection of standards organizations representing 162 countries.
Physical layer
A collection of standards organizations representing 162 countries.
Transport layer
A collection of standards organizations representing 162 countries.
Session layer
Generates signals as changes in voltage at the NIC.
ISOC
Generates signals as changes in voltage at the NIC.
ISO
Generates signals as changes in voltage at the NIC.
ANSI
Generates signals as changes in voltage at the NIC.
IEEE
Generates signals as changes in voltage at the NIC.
Network layer
Generates signals as changes in voltage at the NIC.
Presentation layer
Generates signals as changes in voltage at the NIC.
Physical layer
Generates signals as changes in voltage at the NIC.
Transport layer
Generates signals as changes in voltage at the NIC.
Session layer
Coordinates and maintains communications between two nodes on the network.
ISOC
Coordinates and maintains communications between two nodes on the network.
ISO
Coordinates and maintains communications between two nodes on the network.
ANSI
Coordinates and maintains communications between two nodes on the network.
IEEE
Coordinates and maintains communications between two nodes on the network.
Network layer
Coordinates and maintains communications between two nodes on the network.
Presentation layer
Coordinates and maintains communications between two nodes on the network.
Physical layer
Coordinates and maintains communications between two nodes on the network.
Transport layer
Coordinates and maintains communications between two nodes on the network.
Session layer
Serves as a translator.
ISOC
Serves as a translator.
ISO
Serves as a translator.
ANSI
Serves as a translator.
IEEE
Serves as a translator.
Network layer
Serves as a translator.
Presentation layer
Serves as a translator.
Physical layer
Serves as a translator.
Transport layer
Serves as a translator.
Session layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
ISOC
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
ISO
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
ANSI
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
IEEE
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Network layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Presentation layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Physical layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Transport layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Session layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
ISOC
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
ISO
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
ANSI
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
IEEE
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Network layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Presentation layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Physical layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Transport layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Session layer
Translates network addresses into their physical counterparts.
ISOC
Translates network addresses into their physical counterparts.
ISO
Translates network addresses into their physical counterparts.
ANSI
Translates network addresses into their physical counterparts.
IEEE
Translates network addresses into their physical counterparts.
Network layer
Translates network addresses into their physical counterparts.
Presentation layer
Translates network addresses into their physical counterparts.
Physical layer
Translates network addresses into their physical counterparts.
Transport layer
Translates network addresses into their physical counterparts.
Session layer
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Deck 2: Network Standards and the OSI Model
1
____ oversees the IAB (Internet Architecture Board).

A) EIA
B) ISOC
C) ICANN
D) ISO
B
2
For greater network efficiency, segmentation is preferred.
False
3
Each network node has ____ types of addresses.

A) two
B) three
C) four
D) five
A
4
In which OSI model layer does TCP operate?

A) Physical
B) Transport
C) Network
D) Data Link
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
5
The ____ is a specialized United Nations agency that provides developing countries with technical expertise and equipment to advance those nations' technological bases.

A) ANSI
B) ISO
C) ITU
D) ISOC
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
6
Standards assist in network design.
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
7
Transport layer protocols break large data units into ____.

A) PDUs
B) segments
C) frames
D) block IDs
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
8
The process of determining the best path from Point A on one network to Point B on another is known as ____.

A) mapping
B) enhancing
C) reconfiguring
D) routing
Unlock Deck
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Unlock Deck
k this deck
9
Which OSI model layer initiates the flow of information?

A) Physical
B) Session
C) Application
D) Presentation
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
10
The goal of ____ is to establish international technological standards to facilitate the global exchange of information and barrier free trade.

A) ANSI
B) ISO
C) ITU
D) ISOC
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
11
Standards define the ____ performance of a product or service.

A) ideal
B) most acceptable
C) minimum acceptable
D) maximum acceptable
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
12
Which type of protocol is useful when data must be transferred quickly?

A) connection-oriented
B) connectionless
C) TCP
D) IP
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
13
____ is the process of reconstructing segmented data.

A) Reassembly
B) Reengineering
C) Resegmenting
D) Realigning
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k this deck
14
Not all Transport layer protocols are concerned with reliability.
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15
Which OSI model layer manages data encryption?

A) Physical
B) Session
C) Application
D) Presentation
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k this deck
16
Which statement accurately describes the OSI model?

A) It describes how software programs interact with humans.
B) It prescribes the type of hardware or software that should support each layer.
C) It describes how software programs interact with other software programs.
D) It describes a theoretical representation of what happens between two nodes communicating on a network.
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
17
Which Data Link sublayer manages flow control?

A) LLC
B) MAC
C) Management layer
D) Addressing layer
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k this deck
18
In which OSI model layer does IP operate?

A) Physical
B) Transport
C) Network
D) Data Link
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19
Network functions are associated with only one layer of the OSI model.
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20
The Application layer includes software applications.
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21
Which IEEE standard describes Ethernet?

A) 802.1
B) 802.3
C) 802.5
D) 802.11
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k this deck
22
____________________ are documented agreements containing technical specifications or other precise criteria that stipulate how a particular product or service should be designed or performed.
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23
Define and describe sequencing.
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24
In which OSI model layer do hubs operate?

A) Physical
B) Network
C) Data Link
D) Physical and Data Link
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25
The Application layer separates data into ____________________, or discrete amounts of data.
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26
Define a checksum and describe how Transport layer protocols implement them to ensure data integrity.
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27
____________________ protocols establish a connection with another node before they begin transmitting data.
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28
Describe how error checking is handled in the Data Link layer.
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29
A network's ____________________ represents the largest data unit the network will carry.
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30
Describe the role of Network layer protocols including the formation of packets, routing and factors considered in routing decisions.
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k this deck
31
Which IEEE standard describes specifications for wireless transmissions?

A) 802.1
B) 802.3
C) 802.5
D) 802.11
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k this deck
32
Define and describe the two parts of a physical address.
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33
Describe the OSI model Session layer's functions.
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34
____________________ is the process of gauging the appropriate rate of transmission based on how fast the recipient can accept data.
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k this deck
35
In which OSI model layer(s) do NICs operate?

A) Physical
B) Network and Physical
C) Data Link
D) Physical and Data Link
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k this deck
36
The ____ is a fixed number associated with a device's NIC.

A) LLC address
B) frame address
C) logical address
D) physical address
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k this deck
37
Describe Physical layer protocol functions when receiving data.
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38
Which Data Link sublayer manages access to the physical medium?

A) LLC
B) MAC
C) Management layer
D) Addressing layer
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39
Describe a network address including its addressing scheme, formats and alternate names.
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40
Compare Ethernet and Token Ring frames in terms of their operation on a network.
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41
Briefly describe IEEE's Project 802.
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42
Match between columns
Premises:
Responses:
A professional membership society that helps to establish technical standards for the Internet.
ISOC
A professional membership society that helps to establish technical standards for the Internet.
ISO
A professional membership society that helps to establish technical standards for the Internet.
ANSI
A professional membership society that helps to establish technical standards for the Internet.
IEEE
A professional membership society that helps to establish technical standards for the Internet.
Network layer
A professional membership society that helps to establish technical standards for the Internet.
Presentation layer
A professional membership society that helps to establish technical standards for the Internet.
Physical layer
A professional membership society that helps to establish technical standards for the Internet.
Transport layer
A professional membership society that helps to establish technical standards for the Internet.
Session layer
Manages end-to-end delivery of data.
ISOC
Manages end-to-end delivery of data.
ISO
Manages end-to-end delivery of data.
ANSI
Manages end-to-end delivery of data.
IEEE
Manages end-to-end delivery of data.
Network layer
Manages end-to-end delivery of data.
Presentation layer
Manages end-to-end delivery of data.
Physical layer
Manages end-to-end delivery of data.
Transport layer
Manages end-to-end delivery of data.
Session layer
A collection of standards organizations representing 162 countries.
ISOC
A collection of standards organizations representing 162 countries.
ISO
A collection of standards organizations representing 162 countries.
ANSI
A collection of standards organizations representing 162 countries.
IEEE
A collection of standards organizations representing 162 countries.
Network layer
A collection of standards organizations representing 162 countries.
Presentation layer
A collection of standards organizations representing 162 countries.
Physical layer
A collection of standards organizations representing 162 countries.
Transport layer
A collection of standards organizations representing 162 countries.
Session layer
Generates signals as changes in voltage at the NIC.
ISOC
Generates signals as changes in voltage at the NIC.
ISO
Generates signals as changes in voltage at the NIC.
ANSI
Generates signals as changes in voltage at the NIC.
IEEE
Generates signals as changes in voltage at the NIC.
Network layer
Generates signals as changes in voltage at the NIC.
Presentation layer
Generates signals as changes in voltage at the NIC.
Physical layer
Generates signals as changes in voltage at the NIC.
Transport layer
Generates signals as changes in voltage at the NIC.
Session layer
Coordinates and maintains communications between two nodes on the network.
ISOC
Coordinates and maintains communications between two nodes on the network.
ISO
Coordinates and maintains communications between two nodes on the network.
ANSI
Coordinates and maintains communications between two nodes on the network.
IEEE
Coordinates and maintains communications between two nodes on the network.
Network layer
Coordinates and maintains communications between two nodes on the network.
Presentation layer
Coordinates and maintains communications between two nodes on the network.
Physical layer
Coordinates and maintains communications between two nodes on the network.
Transport layer
Coordinates and maintains communications between two nodes on the network.
Session layer
Serves as a translator.
ISOC
Serves as a translator.
ISO
Serves as a translator.
ANSI
Serves as a translator.
IEEE
Serves as a translator.
Network layer
Serves as a translator.
Presentation layer
Serves as a translator.
Physical layer
Serves as a translator.
Transport layer
Serves as a translator.
Session layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
ISOC
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
ISO
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
ANSI
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
IEEE
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Network layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Presentation layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Physical layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Transport layer
An international society composed of engineering professionals with goals of promoting development and education in the electrical engineering and computer science fields.
Session layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
ISOC
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
ISO
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
ANSI
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
IEEE
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Network layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Presentation layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Physical layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Transport layer
Determines standards for the electronics industry and other fields, such as chemical and nuclear engineering, health and safety, and construction.
Session layer
Translates network addresses into their physical counterparts.
ISOC
Translates network addresses into their physical counterparts.
ISO
Translates network addresses into their physical counterparts.
ANSI
Translates network addresses into their physical counterparts.
IEEE
Translates network addresses into their physical counterparts.
Network layer
Translates network addresses into their physical counterparts.
Presentation layer
Translates network addresses into their physical counterparts.
Physical layer
Translates network addresses into their physical counterparts.
Transport layer
Translates network addresses into their physical counterparts.
Session layer
Unlock Deck
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