1000 base‑lx
In the IEEE standards, Thinnet is designated as 10BASE2. This specification refers to a form of Ethernet that uses coaxial cable with a maximum segment length of 200 meters and supports data rates of 10 Mbps. Thinnet is known for its thinner, more flexible cable compared to the original thick coaxial Ethernet (10BASE5), which allows for easier installation in various environments.
The maximum number of nodes per segment in a network segment typically depends on the specific network technology or protocol being used. For example, Ethernet networks typically have a maximum of 1024 nodes per segment. However, it's important to consult the documentation or specifications of the specific technology being used to determine the exact maximum number of nodes per segment.
The IEEE 802.3 standard governs Ethernet networks, specifying the maximum length of cable segments and the number of devices that can be connected. For traditional 10BASE2 (Thin Ethernet), the cable segment length is limited to 185 meters with a maximum of 30 devices. For 10BASE5 (Thick Ethernet), the cable can be up to 500 meters, but the total number of devices is typically similar. Ethernet standards have evolved, with modern implementations like 100BASE-TX and 1000BASE-T using twisted pair cabling and allowing for different configurations.
Depends on the coax type - thinnet coax is 185 meters per segment, thicknet is 500 meters
The maximum distance for Ethernet 10Base2, also known as thin coaxial Ethernet, is 185 meters (or approximately 607 feet) per segment. This standard allows for a total network length of up to 2000 meters when using multiple segments connected by repeaters. It operates at a speed of 10 Mbps and uses a BNC connector for connections.
Repeaters are usually used in coaxial based ethernet networks. For this purpose they are used to extend the length of a network segment. For example, in a 10base2 ethernet network the maximum length of a segment is 180 meters. A repeater could join two segments together to increase the length of the network and the number of clients in the network. In today's modern networks you will see neither coaxial networks nor repeaters in a LAN. Repeaters are used for DSL transmissions, but not for LANS.
Ethernet segment.
100 meters per segment.
Well, honey, the maximum number of nodes per segment depends on the network protocol and the type of network you're dealing with. In Ethernet, for example, it's typically 1024 nodes per segment. But let me tell you, it's always best to check the specific protocol and network specifications to be sure.
The longest line segment is theoretically infinite, as a line segment can extend indefinitely in either direction. However, in practical terms, the longest line segment within a defined space, such as a circle, is the diameter, which is the longest distance between any two points on the circumference. In a three-dimensional space, the longest line segment would be the diagonal across a given volume, like the diagonal of a cube, which can be calculated using the Pythagorean theorem.
100BASE-T has a data trasnfer rate up to 100 Mbps. 100BASE-T is based on the older Ethernet standard. Its 10 times faster than Ethernet it is also called Fast Ethernet. The 100BASE-T standard is IEEE 802.3u
The size of a TCP segment encapsulated by an IP header does not have a fixed size and can vary based on the data being transmitted. However, the maximum size of a TCP segment is typically constrained by the Maximum Transmission Unit (MTU) of the network, which is commonly around 1500 bytes for Ethernet. Given that the IP header is 20 bytes, the maximum TCP segment size would be approximately 1480 bytes if there are no additional headers or options. In practice, the exact size would depend on the TCP header size and any options included.