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The "default gateway" is your router.
A computer on the Internet is identified by its IP address. In order to avoid address conflicts, IP addresses are publicly registered with the Network Information Centre (NIC). Computers on private TCP/IP LANs however do not need public addresses, since they do not need to be accessed by the public. For this reason, the NIC has reserved certain addresses that will never be registered publicly. These are known as private IP addresses, and are found in the following ranges: From 10.0.0.0 to 10.255.255.255 From 172.16.0.0 to 172.31.255.255 From 192.168.0.0 to 192.168.255.255
ARP, or Address Resolution Protocol, defined by RFC 826.
There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.There are 2 main IP protocols. In IP version 4, each IP address has 4 octets. In IP version 6, each IP address has 16 octets.If somebody says "IP address" without further qualifications, he probably means IP version 4, since that is the current standard. IP version 6 is the planned future standard.
128-bit IP addresses
The usual reason to use private IP addresses is when you have to share a single public IP address (or a few public IP addresses) among a larger number of computers. Nowadays, this situation is quite common - it is no longer possible to assign a public IP (version 4) address to each and every computer; IP addresses are starting to get scarce. In the scenario mentioned above, private IP addresses according to RFC 1918 are used in combination with NAT (network address translation).
In IP version 4, an IP address has 32 bits, or 4 bytes.In IP version 4, an IP address has 32 bits, or 4 bytes.In IP version 4, an IP address has 32 bits, or 4 bytes.In IP version 4, an IP address has 32 bits, or 4 bytes.
16 bytex
An IP address comes in two formats: ipV4 and ipV6. In IpV4 32 bits are allocated to the IP address. In IpV6, 128 bits are allocated to the address. This is done by the protocol and is a standard for developing an IP address.
They are private addresses. I think Class A
The size of an IPv4 address is 32 bits, or 4 bytes.
Yes, this is done routinely, in part because of the scarcity of public IP (version 4) addresses.To achieve this, the users within a network use private IP addresses, in one of the ranges recommended by RFC 1918 - for example, any address that has "10" in the first byte.A NAT device will do the address translation on the border between the internal and the external network. The result is that equipment on the outside of our company's network will only see the single public IP address.Yes, this is done routinely, in part because of the scarcity of public IP (version 4) addresses.To achieve this, the users within a network use private IP addresses, in one of the ranges recommended by RFC 1918 - for example, any address that has "10" in the first byte.A NAT device will do the address translation on the border between the internal and the external network. The result is that equipment on the outside of our company's network will only see the single public IP address.Yes, this is done routinely, in part because of the scarcity of public IP (version 4) addresses.To achieve this, the users within a network use private IP addresses, in one of the ranges recommended by RFC 1918 - for example, any address that has "10" in the first byte.A NAT device will do the address translation on the border between the internal and the external network. The result is that equipment on the outside of our company's network will only see the single public IP address.Yes, this is done routinely, in part because of the scarcity of public IP (version 4) addresses.To achieve this, the users within a network use private IP addresses, in one of the ranges recommended by RFC 1918 - for example, any address that has "10" in the first byte.A NAT device will do the address translation on the border between the internal and the external network. The result is that equipment on the outside of our company's network will only see the single public IP address.