45 Seconds.
10 mbps ethernet uses Manchester encoding where each symbol is represented by 2 bit sequence. Hence the bits/symbol is 2. Since data rate = bits/symbol x symbol/seconds, symbols/seconds = baud rate = 5 mega baudWhat_is_the_baud_rate_of_the_standard_10-Mbps_Ethernet
The theoretical maximum speed gets that file moved in about 320 seconds. Realistically, you're not going to see it move quite that fast, but it's in the ballpark. A bit more: The reason your 40GB file is not transferring in 40 seconds over a connection that transfers 1Gb every second, is because transfer speeds are measured in BITS (b) and file sizes are measured in BYTES (B) and 1B = 8b.
multiply the minute with 60
There are 60 seconds in one minute. Therefore, 1200 seconds is equal to 1200/60 = 20 minutes.
30 Seconds
Fast Ethernet is 10 times faster than 10BaseT, so 45 seconds.
Brian Chadwick SUCKS
Energy = power x time. If power is in watts, and time in seconds, energy will be in joules.
Gigabit Ethernet is also known as 1000 mega bits per seconds (Mbps). It is a part of the family of Ethernet computer networking and communication standards.
That usually refers to the rate of data transfer - how many bits, or bytes, can be transferred every second. It might also refer to some other data processing. Reminder: 1 byte = 8 bits.
The duration of The Gruen Transfer is 1800.0 seconds.
A file of 640 seconds would take 640 seconds or 10 minutes 40 seconds. If the question was a file of 640 MB at 100 Mb per second, then the file would take 51.2 seconds (640 MB = 5120 Mb / 100 Mb = 51.2)
The amount of information transferred per unit time, normally seconds.
The cash transfer will go through with in the range of 0.21 seconds.
10 mbps ethernet uses Manchester encoding where each symbol is represented by 2 bit sequence. Hence the bits/symbol is 2. Since data rate = bits/symbol x symbol/seconds, symbols/seconds = baud rate = 5 mega baudWhat_is_the_baud_rate_of_the_standard_10-Mbps_Ethernet
The total work done or energy transferred is equal to the product of the force and the displacement in the direction of the force applied. In this case it would be 300N x 10m to get 3000J. This energy is transferred in 10 seconds and since power is energy transferred per unit time... 3000J divided by 10 seconds equals 300 Watts or 300 Joules per second.
Computers are so quick they transfer 1GB at 2 seconds an hour