1000mbps
No, the speed of light is 186,282.4 miles per second. The speed of sound at sea level is about 0.2114 miles per second.
What is the approximate speed of light in kilometer per second?"
The speed is still 3.03 metres per second.
The speed of air at 20 degrees Celsius is 343 meters per second. The speed of light is 299 792 458 meters per second.
The speed of sound at sea level is about 0.211 miles per second.
1gbs that's what 1000 means
The 'Ether' part of Ethernet denotes that the system is not meant to be restricted for use on only one medium type, copper cables, fibre cables and even radio waves can be used. Fast Ethernet Network was developed as an upgrade to traditional Ethernet Networking. Fast Ethernet improved traditional Ethernet by increasing transfer rates 10 times, from 10 Megabit to 100 Megabit speed. Gigabit Ethernet Network is an upgrade on Fast Ethernet Network equivalent to Fast Ethernet Networks improvement over Fast Ethernet Network, offering speeds of 1000 Megabits (1 Gigabit) Cisco have a good document with diagrams and a reasonable amount of depth that answers your questions on 10/100/1000 Ethernet. See related link. Ethernet card would be 10Mbps (mega bauds per second) Fast Ethernet card would be 100Mbps. Most ethernet cards sold today are Fast Ethernet or better. Look for the 100Mbps or the 10/100Mbps specification. The only difference between the both is the speed. Hence both cards are basically the same using the same technology except the fast Ethernet card can run on 10/100mb/s, an astonishing speed. Original 10Base2, 10Base5 and 10baseT Ethernet (thin coaxial cable, thick coaxial cable and twisted pair, respectively) specifications offered a 10Mbit/second throughput (data transfer rate). Although 1 Byte is 8 bits, 10Mbits in practice doesn't mean 1.25MBytes/second, because there's some extra information transferred. On average it can be seen as a ~1MByte/second link speed. Then new standards appeared, some of them exotic (like 100VG AnyLan), but the new Ethernet standard was 100baseTX, which used twisted pair (like 10baseT, but with slightly higher quality requirements - Category 5 cable). It has been called Fast Ethernet, as it offered 100Mbit/sec transfer speed, a 10-fold improvement. Usually all the network equipment can talk both 10baseT and 100baseTX (for example network switches have "10/100" ports). But this was not enough - then came a next speed-up: the 1000baseTX, still running on twisted pair, but with even higher cable quality requirements, offering 1000Mbit/s transfer speed, thus called Gigabit Ethernet: 1000 Mega = 1 Giga.
The maximum speed Ethernet of mm fiber has a transmission speed of 100 Mbit/s. The Ethernet mm fiber increases the speed from 10 to 100 megabits per second.
Ethernet is a physical and data link layer technology for local area networks (LANs). Ethernet was invented by engineer Robert Metcalfe. When first widely deployed in the 1980s, Ethernet supported a maximum theoretical data rate of 10 megabits per second.
10base-T uses for twister pair cable which speed 10mbps.
Just properties of the network card. The speed of connection is there. Knowing the speed and capabilities of the network card you are looking at, you can find out which interface is used at another end. PS: The speed you will see is the highest both devices can support in the same time.
Topology means how the network is physically wired; it doesn't have anything to do with speed necessarily. Did you mean Fast Ethernet (100BaseTX)?
Network speed is usually quoted in Megabits per second (Mb/s).
10 Gigabit Ethernet can transmit Ethernet frames at a speed to 10 gigabits per second (10 billion bits per second). The technology has been slowly growing in popularity, having been hindered by its higher price.
You would use gigabit ethernet in a LAN where you want speed; otherwise, most LANs run at 100 megabits per second, which is considerably slower.
In the way of auto-sensing the speed of the network, yes. For example, one NIC could (and is) be made to be able to detect the speed of the ethernet network to which it is connected. Auto-sensing NICs can/will automatically talk at the speed of the network, 10 Mb, 100Mb, or 1000 Mb. If you are referring to Ethernet vs. Tokenring vs. WiFi vs. BNC, that is another story. Theoretically, such a NIC could possibly be designed. However, the media (network cables or the lack thereof) differ too greatly to make the design of such a NIC practical.
If you want greater speed, why not use gigabit ethernet? Just remember that all the devices and cabling must be capable of that speed or you won't actually see that speed.