You (the network administrator) decide what subnet you need to use, depending on the available IP addresses, and how you want to divide your network into subnets (in case you use subnets).You (the network administrator) decide what subnet you need to use, depending on the available IP addresses, and how you want to divide your network into subnets (in case you use subnets).You (the network administrator) decide what subnet you need to use, depending on the available IP addresses, and how you want to divide your network into subnets (in case you use subnets).You (the network administrator) decide what subnet you need to use, depending on the available IP addresses, and how you want to divide your network into subnets (in case you use subnets).
If you divide a net into several subnets, subnet-zero is the first subnet. Some older technologies don't allow the use of this first subnet.If you divide a net into several subnets, subnet-zero is the first subnet. Some older technologies don't allow the use of this first subnet.If you divide a net into several subnets, subnet-zero is the first subnet. Some older technologies don't allow the use of this first subnet.If you divide a net into several subnets, subnet-zero is the first subnet. Some older technologies don't allow the use of this first subnet.
router
A layer 3 device such as a router.
1
A subnet mask that would divide the 172.31.0.0 network into as many subnets as possible and support 600 uers on each subnet would be 255.255.255.0. Each subnet can communicate with each other through the gateway.
That probably refers to a situation where a larger network was divided into smaller subnets, but all subnets have the same size - as opposed to VLSM (variable length subnet masks), where subnets can have different sizes.That probably refers to a situation where a larger network was divided into smaller subnets, but all subnets have the same size - as opposed to VLSM (variable length subnet masks), where subnets can have different sizes.That probably refers to a situation where a larger network was divided into smaller subnets, but all subnets have the same size - as opposed to VLSM (variable length subnet masks), where subnets can have different sizes.That probably refers to a situation where a larger network was divided into smaller subnets, but all subnets have the same size - as opposed to VLSM (variable length subnet masks), where subnets can have different sizes.
It depends on how many bits you are using for the network prefix. The formula is 2n - 2 for the number of subnets available in a prefix, or 2n if you allow the use of the 0th subnet.
Use a gateway.
Good question - I think the best reason is that you can move nodes between networks by changing the configuration at the switch. With different subnets you may have to physically move the device to get it into another subnet.
By subnetting you can divide the network in to separate enclaves and impose controls between them - if one subnet is compromised, it does not automatically grant access to other subnets.
Depending on class of network you are planning to use. For class C you can create much more then that (and for the most case for others too).