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How many host addresses are available on the 192.168. 10.128/26 network? Explanation: A /26 prefix gives 6 host bits, which provides a total of 64 addresses, because 26 = 64. Subtracting the network and broadcast addresses leaves 62 usable host addresses.

## How many host addresses are available on the network?

A mask of 255.255. 252.0 is equal to a prefix of /22. A /22 prefix provides 22 bits for the network portion and leaves 10 bits for the host portion. The 10 bits in the host portion will provide 1022 usable IP addresses (2^{10} – 2 = 1022).

## How many host addresses are available on the 128?

Quick Hits: IP Networking Chart

CIDR Block | Supernet Mask | Number of Class C Addresses |
---|---|---|

/15 | 255.254.0.0 | 512 |

/16 | 255.255.0.0 | 256 |

/17 | 255.255.128.0 | 128 |

/18 | 255.255.192.0 | 64 |

## How many host addresses are available in a 26 network?

Subnet Cheat Sheet – 24 Subnet Mask, 30, 26, 27, 29, and other IP Address CIDR Network References

CIDR | Subnet mask | # of usable IP addresses |
---|---|---|

/26 | 255.255.255.192 | 62 |

/25 | 255.255.255.128 | 126 |

/24 | 255.255.255.0 | 254 |

/23 | 255.255.254.0 | 510 |

## What is the usable number of host IP?

Answers Explanation & Hints:

With 6 host bits, 64 IP addresses are possible. One address represents the subnet number and one address represents the broadcast address, which means that 62 addresses can then be used to assign to network devices.

## How many host addresses are available on a network with a subnet mask of 255.255 00?

The given subnet mask 255.255. 0.0 can have atmost 65,534 host addresses.

## What does the IP address 172.17 4.250 24 represent?

4.250/24 represent? Explanation: The /24 shows that the network address is 172.17. 4.0. The broadcast address for this network would be 172.17.

## How many host addresses are available on the 192 168?

How many host addresses are available on the 192.168. 10.128/26 network? Explanation: A /26 prefix gives 6 host bits, which provides a total of 64 addresses, because 26 = 64. Subtracting the network and broadcast addresses leaves 62 usable host addresses.

## How many host addresses are available on the 192.168 20.128 27 network?

0.128 /26 which yields 64 host addresses. needs to use 192.168. 0.192 /27 which yields 32 host addresses.

## How many host addresses can be used in a Class C network?

A Class C address consists of a 24-bit network address and an 8-bit local host address. The first three bits in the network address indicate the network class, leaving 21 bits for the actual network address. Therefore, there are 2,097,152 possible network addresses and 256 possible local host addresses.

## How many host addresses are available in a 25 network?

Subnet Mask Cheat Sheet

Addresses | Hosts | |
---|---|---|

/ 25 | 128 | 126 |

/ 24 | 256 | 254 |

/ 23 | 512 | 510 |

/ 22 | 1024 | 1022 |

## What does 24 mean in IP address?

2.0/24”, the number “24” refers to how many bits are contained in the network. From this, the number of bits left for address space can be calculated. As all IPv4 networks have 32 bits, and each “section” of the address denoted by the decimal points contains eight bits, “192.0.

## How many host addresses can the following network IP and subnet mask support 192.168 1.0 24?

So, a machine that has an IP address that is 192.168. 1.200 /24 would be in the same subnet. And because the subnet mask is /24, that means that the entire last octet can be used to define host machine – 2^{8} = 256 – 2 = 254 usable addresses.

## How is host range calculated?

You can figure out how many hosts you can have in your subnet by subtracting the number of network bits from the number of total bits: in other words, 32 total bits, minus the number of network bits. Let’s use 26 as an example. A subnet with 26 network bits has six bits available for the host IP addresses.

## How do you find the maximum number of hosts per subnet?

Calculating the maximum possible number of hosts in a subnet: To find the maximum number of hosts, look at the number of binary bits in the host number above. The easiest way to do this is to subtract the netmask length from 32 (number of bits in an IPv4 address). This gives you the number of host bits in the address.

## How do you calculate the number of hosts per subnet?

To calculate the number of possible hosts per subnet, use the formula 2h – 2, where h equals the number of host bits. The reason two addresses must be subtracted is because of the network address and the broadcast address.