Network Access layer
Internet layer
Application layer
Transport layer
Answer: 1. Network Access layer
Explanation:
Transmission media operate at the Network Access layer of the TCP/IP model.
Answer: 4. Transport layer
TCP and UDP operate at the Transport layer, while IP operates at the Internet layer.
Optical fiber
Copper wire
Wireless
Coaxial cable
Answer: 2. Copper wire
Twisted pair cables use copper wires for data transmission.
They are expensive
They are less susceptible to interference compared to other types of transmission media
They are not widely used
They are not suitable for high-speed data transmission
Answer: 2. They are less susceptible to interference compared to other types of transmission media
Twisted pair cables are less susceptible to electromagnetic interference due to their twisted design.
Optical signals
Electrical signals
Wireless signals
Radio signals
Answer: 2. Electrical signals
Twisted pair cables transmit electrical signals.
100 meters
500 meters
1000 meters
5000 meters
Answer: 1. 100 meters
The maximum distance for twisted pair cables is typically 100 meters.
They are susceptible to interference
Answer: 1. They are susceptible to interference
Twisted pair cables are susceptible to electromagnetic interference, especially over long distances.
Coaxial cables use copper wires for data transmission.
They are highly resistant to interference compared to other types of transmission media
Answer: 1. They are highly resistant to interference compared to other types of transmission media
Coaxial cables are highly resistant to electromagnetic interference due to their shielding.
Coaxial cables transmit electrical signals.
Answer: 2. 500 meters
The maximum distance for coaxial cables is typically 500 meters.
They are difficult to install and terminate
Answer: 3. They are difficult to install and terminate
Coaxial cables are more difficult to install and terminate compared to twisted pair cables.
Answer: 1. Optical fiber
Optical fibers use light signals for data transmission.
They are fast and efficient for high-speed data transmission
Answer: 2. They are fast and efficient for high-speed data transmission
Optical fibers are fast and efficient for high-speed data transmission.
Answer: 1. Optical signals
Optical fibers transmit light signals.
Answer: 4. 5000 meters
The maximum distance for optical fibers is typically 5000 meters.
Answer: 1. They are expensive
Optical fibers are more expensive compared to other types of transmission media.
Guided media
Unguided media
Wireless media
Both a and b
Answer: 1. Guided media
Guided media use physical cables to transmit signals.
Answer: 2. Unguided media
Unguided media use the air or a vacuum to transmit signals.
Radio waves
Infrared signals
Ultraviolet signals
Answer: 1. Radio waves
Microwave communication uses radio waves for data transmission.
It is highly resistant to interference compared to other types of transmission
It is fast and efficient for high-speed data transmission
It is not widely used
It is expensive
Answer: 2. It is fast and efficient for high-speed data transmission
Microwave transmission is fast and efficient for high-speed data transmission.
Microwave towers
Optical fiber devices
Infrared devices
Radio devices
Answer: 1. Microwave towers
Microwave towers are used for microwave transmission in a network.
3 GHz to 30 GHz
30 MHz to 300 MHz
300 MHz to 3 GHz
3 GHz to 300 GHz
Answer: 1. 3 GHz to 30 GHz
Microwave transmission operates in the frequency range of 3 GHz to 30 GHz.
It is susceptible to interference
It requires line-of-sight between the transmitting and receiving devices
Answer: 3. It requires line-of-sight between the transmitting and receiving devices
Microwave transmission requires a clear line-of-sight between the transmitting and receiving devices.
Radio wave communication uses radio waves for data transmission.
They are highly resistant to interference compared to other types of transmission
They are widely used
They are inexpensive
Answer: 3. They are widely used
Radio waves are widely used for wireless communication.
Radio towers
Microwave devices
Answer: 1. Radio towers
Radio towers are used for radio wave transmission in a network.
Answer: 2. 30 MHz to 300 MHz
Radio waves operate in the frequency range of 30 MHz to 300 MHz.
They require line-of-sight between the transmitting and receiving devices
Radio waves are susceptible to interference from other devices and environmental factors.
To provide reliable transmission of data over the physical layer
To provide fast transmission of data over the physical layer
To provide secure transmission of data over the physical layer
To provide efficient transmission of data over the physical layer
Answer: 1. To provide reliable transmission of data over the physical layer
The Data Link layer ensures reliable data transmission over the physical layer.
To detect and correct errors in the data transmission
To provide fast transmission of data
To provide secure transmission of data
To provide efficient transmission of data
Answer: 1. To detect and correct errors in the data transmission
Error detection and correction ensure that data is transmitted accurately and without errors.
To control the flow of data transmission to prevent overflow of the receiving device's buffer
Answer: 1. To control the flow of data transmission to prevent overflow of the receiving device's buffer
Flow control prevents the receiving device's buffer from overflowing by regulating the flow of data.
TCP
UDP
IP
HDLC
Answer: 4. HDLC
HDLC (High-Level Data Link Control) is a Data Link layer protocol.
To regulate access to the shared transmission medium
Answer: 1. To regulate access to the shared transmission medium
Multiple access protocols regulate access to the shared transmission medium to prevent collisions.
To provide unique addresses to devices on a local area network
Answer: 1. To provide unique addresses to devices on a local area network
LAN addressing assigns unique MAC addresses to devices on a local area network.
To map IP addresses to physical addresses (MAC addresses)
Answer: 1. To map IP addresses to physical addresses (MAC addresses)
ARP maps IP addresses to MAC addresses to enable communication between devices on a network.
A type of multiple access protocol
A type of LAN addressing scheme
A type of error detection and correction scheme
A popular and widely used LAN technology
Answer: 4. A popular and widely used LAN technology
Ethernet is a widely used LAN technology that operates at the Data Link layer.
The standard for Ethernet
The standard for Token Bus
The standard for Token Ring
The standard for CSMA/CD
Answer: 1. The standard for Ethernet
IEEE 802.3 is the standard for Ethernet.
Answer: 2. The standard for Token Bus
IEEE 802.4 is the standard for Token Bus.
Answer: 3. The standard for Token Ring
IEEE 802.5 is the standard for Token Ring.
To regulate access to the shared transmission medium in Ethernet networks
Answer: 1. To regulate access to the shared transmission medium in Ethernet networks
CSMA/CD (Carrier Sense Multiple Access with Collision Detection) regulates access to the shared transmission medium in Ethernet networks.
To provide wireless communication over a local area network
Answer: 1. To provide wireless communication over a local area network
Wireless LANs provide wireless communication over a local area network.
To provide reliable transmission of data over a point-to-point connection
Answer: 1. To provide reliable transmission of data over a point-to-point connection
PPP provides reliable data transmission over point-to-point connections.
To provide reliable transmission of data over wide area networks
Answer: 1. To provide reliable transmission of data over wide area networks
Wide area protocols provide reliable data transmission over wide area networks.
To detect errors in the data transmission
To correct errors in the data transmission
Neither a nor b
Answer: 1. To detect errors in the data transmission
Error detection identifies errors in data transmission.
Answer: 2. To correct errors in the data transmission
Error correction fixes errors in data transmission.
Parity check
Checksum
Cyclic redundancy check (CRC)
All of the above
Answer: 4. All of the above
Parity check, checksum, and CRC are commonly used methods for error detection.
Forward error correction (FEC)
Answer: 4. Forward error correction (FEC)
FEC is commonly used for error correction in networks.
1 bit
2 bits
3 bits
4 bits
Answer: 1. 1 bit
A parity check uses 1 bit to detect errors.
Depends on the number of bits in the data being transmitted
Answer: 3. Depends on the number of bits in the data being transmitted
The number of bits used for a checksum depends on the size of the data being transmitted.
