Explanation: Cable television delivers programming via coaxial or fiber-optic cables, contrasting with broadcast television's over-the-air transmission via radio waves.

Explanation: The standard cable used for cable television in the U.S. is RG-6, which has a 75 ohm impedance, not RG-11 with 50 ohm impedance.

Explanation: This statement accurately describes the fundamental structure of a coaxial cable, which is commonly used for cable television signals.

Explanation: Cable television utilizes physical cables (coaxial or fiber-optic) for signal delivery, whereas broadcast television relies on over-the-air radio wave transmission received by antennas.

Explanation: Cable television systems are capable of providing high-speed Internet, FM radio programming, and telephone services through the same cable infrastructure, leveraging its versatility.

Explanation: The standard cable used for cable television in the U.S. is RG-6, which has a 75 ohm impedance and connects using a type F connector.

Explanation: Since the 2000s, cable systems have been upgraded to digital cable operation, allowing for more efficient data transmission and a wider array of services compared to 20th-century analog systems.

Explanation: The abbreviation CATV originally stood for 'community antenna television,' reflecting its origins in relaying signals from large community antennas.

Explanation: Cable television adoption in American households increased from 7.5% in 1978 to 52.8% by 1988, demonstrating a rapid growth in popularity.

Explanation: The very first local cable networks were operated in London and Berlin in 1936, with operations in the United States beginning from 1948 onwards.

Explanation: Cable television began as a commercial business in the United States in the 1950s, not the 1940s.

Explanation: The initial function of early U.S. cable systems was to receive and amplify weak broadcast channels for communities with poor reception, not to create original local programming.

Explanation: Early VHF television receivers were limited to a maximum of 7 channels in a single city due to their inability to receive strong local signals on adjacent channels without distortion.

Explanation: The All-Channel Receiver Act of 1964 mandated the inclusion of UHF tuners in all new television sets, thereby enhancing the competitiveness and accessibility of UHF stations.

Explanation: Early pay TV channels like HBO were initially transmitted 'in the clear' (unscrambled) on midband channels because standard TV sets could not easily pick up these non-standard signals.

Explanation: United States regulations in the 1980s fostered, rather than restricted, the development of cable-originated live television programming, encouraging local content creation.

Explanation: 'Narrowcasting' refers to the practice of targeting programming to specific, smaller audiences, in contrast to broadcasting to the widest possible general audience.

Explanation: Digital transmission was introduced in the 1990s to enhance the efficient use of VHF signal capacity in cable systems, allowing for more channels and improved quality.

Explanation: A 1981 demonstration in the Netherlands showcased a 30-channel cable TV system, indicating a more advanced stage of development than a 5-channel system.

Explanation: Digital cable operation transmits signals as discrete data, which enables the provision of more channels, superior picture quality, and additional data services compared to analog systems.

Explanation: The abbreviation CATV originally stood for 'community antenna television,' reflecting its initial purpose of relaying signals from large community antennas to homes in areas with poor reception.

Explanation: Cable television adoption in American households increased from 52.8% in 1988 to 62.4% in 1994, representing an increase of approximately 9.6%.

Explanation: The initial purpose of the very first local cable networks in places like London and Berlin in 1936 was to relay terrestrial television channels in geographical areas experiencing poor reception due to distance from transmitters or challenging terrain.

Explanation: Cable television began its commercial operations in the United States in the 1950s, marking its transition from experimental systems to a structured industry.

Explanation: The primary limitation on the number of channels broadcast in a single city by early VHF television receivers was their inability to handle strong local signals on adjacent channels without experiencing distortion, necessitating frequency gaps.

Explanation: Cable systems initially expanded beyond the standard 12 VHF channels by utilizing non-standard 'midband' and 'superband' channels, which required separate tuner boxes for access.

Explanation: The All-Channel Receiver Act of 1964 mandated that all new television sets include a UHF tuner, which, over time, significantly enhanced the competitiveness of UHF broadcast stations by making their signals widely accessible.

Explanation: Early pay TV channels were initially transmitted 'in the clear' because standard television sets of that era could not easily receive these non-standard midband signals, thus providing a de facto form of access control.

Explanation: 'Narrowcasting' in cable television refers to the strategic practice of targeting programming to specific, smaller audiences with niche interests, rather than attempting to reach the broadest possible general audience.

Explanation: A 1981 demonstration in the Netherlands showcased a 30-channel cable TV system, illustrating the expanding capacity and technological advancements of cable television during that era.

Explanation: The key characteristic of digital cable operation, compared to analog, is its transmission of signals as discrete data, which enables more channels, superior picture quality, and additional data services.

Explanation: 'Midband' channels in early cable television systems were non-standard frequency ranges located between the FM radio band and VHF Channel 7, used to expand channel offerings beyond the initial 12 VHF channels.

Explanation: In the historical context of cable television, 'Pay TV' referred to premium channels, such as The Z Channel and HBO, that were offered to subscribers for an additional fee, often carrying movies or special events.

Explanation: A splitter is used to divide an incoming cable signal into multiple separate cables for distribution to different rooms or television sets, not to combine signals.

Explanation: TV gateways convert DVB-C/C2 streams to Internet Protocol (IP) for distributing television over an IP network within the home, not the other way around.

Explanation: Cable television systems transmit multiple channels through a single coaxial cable using frequency division multiplexing, not time division multiplexing.

Explanation: The headend is indeed the central facility where television channels are received, processed, and multiplexed onto a single coaxial cable for distribution to subscribers.

Explanation: Upstream channels typically occupy a lower frequency band (5 to 42 MHz) compared to downstream channels (50 MHz to 1 GHz).

Explanation: At the local headend, cable companies primarily receive channel feed signals through dish antennas that capture signals from communication satellites, not terrestrial broadcast towers.

Explanation: A Hybrid Fiber-Coaxial (HFC) system uses optical fiber for trunklines to local neighborhoods, but coaxial cable is used for the final distribution to individual customers' homes.

Explanation: In an HFC network, TV channels are converted from optical to electrical signals at optical nodes in local communities before being distributed via coaxial cable to the customer's home.

Explanation: A service drop is the coaxial cable that brings the signal from distribution lines to the customer's building, whereas trunklines connect the headend to local neighborhoods, often using optical fiber in modern systems.

Explanation: Downstream channels carry data from the cable headend to the customer's home, while upstream channels carry data from the customer's home to the headend.

Explanation: Optical nodes in an HFC system perform the critical function of converting the optical signal received via fiber back into an electrical signal for subsequent distribution over coaxial cable to subscribers.

Explanation: Taps are passive RF devices that branch off from the main coaxial cable to deliver the signal to individual customer premises; they do not amplify the signal.

Explanation: A splitter is a small device used to divide the incoming cable signal into multiple separate cables, allowing distribution to different rooms or multiple television sets within a building.

Explanation: Cable television systems employ frequency division multiplexing, assigning each channel a unique 'frequency slot' on the coaxial cable to prevent interference and allow simultaneous transmission of multiple channels.

Explanation: The primary function of the headend in a cable television system is to receive, process, and multiplex multiple television channels onto a single coaxial cable for efficient distribution to subscriber residences.

Explanation: Upstream channels, which transmit data from the customer's home back to the headend, typically occupy a frequency band of 5 to 42 MHz.

Explanation: At the local headend, cable companies primarily receive feed signals for individual television channels through dish antennas that capture signals from communication satellites, enabling access to a wide array of programming.

Explanation: Hybrid Fiber-Coaxial (HFC) systems are primarily used in modern cable networks to provide greater bandwidth and extra capacity for future expansion, leveraging the efficiency of optical fiber over longer distances.

Explanation: At an optical node in an HFC system, the optical signal received via fiber is converted back into an electrical signal, which is then distributed over coaxial cable to individual subscribers.

Explanation: A cable television distribution box typically contains a splitter, which divides the incoming signal to supply separate cables routed to different rooms within the building, facilitating multi-room signal distribution.

Explanation: A 'service drop' is an overhead or underground coaxial cable that serves as the final connection point, bringing the cable television signal from the main distribution lines to the customer's building.

Explanation: In a cable television system, 'upstream' channels refer to the communication path that carries data from the customer's home (e.g., from a set-top box or cable modem) back to the cable headend.

Explanation: Taps are passive RF devices in cable television distribution lines that branch off from the main coaxial cable to deliver the signal to individual customer premises, allowing multiple subscribers to connect to the same distribution line.

Explanation: The majority of digital cable channels are encrypted or scrambled to prevent unauthorized access and reduce cable service theft, necessitating a set-top box for decoding.

Explanation: Modern digital cable systems encrypt signals to prevent theft, and set-top boxes can be remotely deactivated if a subscriber fails to pay, ensuring controlled access.

Explanation: The incorporation of tuners capable of receiving non-standard mid-band and super-band channels into standard television sets necessitated scrambling premium cable signals to prevent unauthorized access.

Explanation: 'Cable-ready' tuners became less common because they contained descrambling circuitry that allowed consumers to access premium channels without paying, leading to revenue loss for operators.

Explanation: A conditional access module card is used to decrypt scrambled digital cable channels for authorized subscribers, not to convert analog signals to digital.

Explanation: Most cable companies require set-top boxes or conditional access module cards to decode encrypted digital cable channels, thereby preventing unauthorized access and reducing service theft.

Explanation: For older analog televisions to receive digital cable channels, even unencrypted ones, a digital television adapter is required because analog TVs cannot directly process digital signals.

Explanation: Cable operators faced the unexpected challenge that descrambling circuitry designs were frequently published in electronics hobby magazines, enabling individuals to build their own devices and access programming without payment.

Explanation: 'Cable-ready' tuners in televisions and VCRs became less common because they contained descrambling circuitry that enabled unauthorized access to premium channels, leading to significant revenue losses for cable operators.

Explanation: The primary role of a set-top box for cable subscribers is to connect the cable signal to their television and decode the incoming, often encrypted, channels into a displayable format.

Explanation: The purpose of a conditional access module card in cable television is to decrypt scrambled digital cable channels, thereby granting access only to authorized subscribers based on their service package.

Explanation: When digital cable channels are 'encrypted' or 'scrambled,' their signals are intentionally altered using a coding method to make them unwatchable without a specific decoding device, thus preventing unauthorized viewing.

Explanation: Older cable systems faced significant problems with data uploading because their amplifiers were unidirectional, only allowing downstream data flow, necessitating costly upgrades for bi-directional communication.

Explanation: PacketCable is a standard for digital cable telephony, designed to manage Quality of Service (QoS) demands for traditional analog Plain Old Telephone Service (POTS) over cable networks.

Explanation: Digital cable telephone service uses significantly less bandwidth than a dedicated analog circuit-switched service due to data compression, resulting in better voice quality.

Explanation: DOCSIS (Data Over Cable Service Interface Specification) is indeed the standard that enables high-bandwidth data transfer for internet access over existing cable TV systems.

Explanation: Many cable companies utilize DOCSIS (Data Over Cable Service Interface Specification) technology to provide high-speed internet access through their existing cable infrastructure.

Explanation: A significant problem with older cable systems regarding data uploading was that the amplifiers along the cable routes were unidirectional, only allowing downstream data flow, which necessitated costly upgrades for bi-directional communication.

Explanation: PacketCable is primarily designed for digital cable telephony to manage the Quality of Service (QoS) demands of traditional analog Plain Old Telephone Service (POTS), ensuring reliable voice communication.

Explanation: A key advantage of digital cable telephone service is its ability to compress data, which uses significantly less bandwidth than a dedicated analog circuit-switched service, leading to improved voice quality and cost-effectiveness.

Explanation: The term 'triple play' commonly describes the bundled offering of television, telephone, and Internet access services to residences by telecommunication providers.

Explanation: DOCSIS (Data Over Cable Service Interface Specification) enables cable companies to provide high-bandwidth data transfer for internet access over their existing cable TV systems.

Explanation: The primary function of a cable modem is to provide bi-directional data communication for broadband internet access over the existing cable television infrastructure, converting network data into a compatible digital signal.

Explanation: In cable telephony, the 'local loop' refers to the physical connection that carries the digital telephone signal from the customer's premises to the cable company's switching center, effectively replacing the traditional analog 'last mile' connection.

Explanation: Voice over Internet Protocol (VoIP) technology enables voice communications and multimedia sessions to be conducted over Internet Protocol (IP) networks, such offering advantages like cost-effective or unlimited calling.

Explanation: In telecommunications, Quality of Service (QoS) refers to the overall performance of a service, such as a telephone call or internet connection, as perceived by the users, ensuring reliability and performance for critical services.

Explanation: Due to the digital television transition, analog cable television service is now a rarity in the United States, with most signals converted to digital form.

Explanation: Cable television's limited success in Africa is attributed to the high cost of laying extensive cable infrastructure in sparsely populated areas, making microwave-based systems like MMDS a more viable alternative.

Explanation: Due to the digital television transition, analog cable television service is now a rarity in the United States, as most signals have been converted to digital form, requiring set-top boxes for reception on analog televisions.

Explanation: Africa is explicitly mentioned as a continent where cable television has had limited success due to the high cost of laying extensive cable infrastructure in sparsely populated areas, leading to the use of alternatives like MMDS.

Explanation: In the mid-1980s, Canadian cable operators gained more autonomy by being granted permission by regulators to enter into distribution contracts directly with cable networks, giving them greater control over programming.

Explanation: Multichannel Multipoint Distribution Service (MMDS) is a microwave-based system employed to deliver multichannel television programming, particularly in areas where traditional cable infrastructure is not cost-effective.