Q2: Based on the information in the graphic shown, design a network addressingscheme that will supply the minimum number of subnets, and allow enough extrasubnets and hosts for 70% growth in all areas without using VLSM. Circle eachsubnet on the graphic and answer the questions below.Ft. Worth1000 HostsRouterS 0/0/1FOOIP address 112.0.0.0S 0/0/0 S 0/0/1RouterDS 0/0/0F 0/0RouterS 0/0/1RotherAddress classCustom subnet maskMinimum number of subnets neededExtra subnets required for 70% growth +(Round up to the next whole number)Total number of subnets neededNumber of host addresses in the largest subnet groupNumber of addresses needed for 70% growth in the largestsubnet +(Round up to the next whole number)Total number of address needed for the largest subnet =Start with the first subnet and arrange yourF 0/1sub-networks from the largest group to the smallest:Subnet 1: IP address range for DallasSubnet 2: IP address range for Ft. WorthSubnet 3: IP address range for Router A to Router B serial connectionSubnet 4: IP address range for Router A to Router C serial connectionSubnet 5: IP address range for Router C to Router D serial connectionDallas1500 Hosts-----Class A255240.0.0.-----9 Subnets------9-Subnets...------15.0010502550112.0.0.1 to 112.015.254112.0.16.1 to 112.0.23.254112.0.24.1 to 112.0.24.2112.0.24.5 to 112.0.24.6T120.249 to 120.2410

Solution: - -->Given IP address:112.0.0.0 -->Address class: Class A -->Custom subnet mask:…

Q2: Based on the information in the graphic shown, design a network addressing scheme that will supply the minimum number of subnets, and allow enough extra subnets and hosts for 70% growth in all areas without using VLSM. Circle each subnet on the graphic and answer the questions below.

Q2: Based on the information in the graphic shown, design a network addressing scheme that will supply the minimum number of subnets, and allow enough extra subnets and hosts for 70% growth in all areas without using VLSM. Circle each subnet on the graphic and answer the questions below.

Database System Concepts

7th Edition

ISBN:9780078022159

Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan

Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan

Chapter1: Introduction

Section: Chapter Questions

Problem 1PE

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Concept explainers

Network transmission cabling

A network is a collection of devices connected by communication links. A device can be a computer or any instrument capable of sending and receiving data or information formed by other nodes toward the network. A channel that connects people or things is known as a network. It sends the data from one place to another. It is the basic concept of a computer, network, and data communications.

Question

Q2: Based on the information in the graphic shown, design a network addressing
scheme that will supply the minimum number of subnets, and allow enough extra
subnets and hosts for 70% growth in all areas without using VLSM. Circle each
subnet on the graphic and answer the questions below.
Ft. Worth
1000 Hosts
Router
S 0/0/1
FOO
IP address 112.0.0.0
S 0/0/0 S 0/0/1
Router
D
S 0/0/0
F 0/0
Router
S 0/0/1
Rother
Address class
Custom subnet mask
Minimum number of subnets needed
Extra subnets required for 70% growth +
(Round up to the next whole number)
Total number of subnets needed
Number of host addresses in the largest subnet group
Number of addresses needed for 70% growth in the largest
subnet +
(Round up to the next whole number)
Total number of address needed for the largest subnet =
Start with the first subnet and arrange your
F 0/1
sub-networks from the largest group to the smallest:
Subnet 1: IP address range for Dallas
Subnet 2: IP address range for Ft. Worth
Subnet 3: IP address range for Router A to Router B serial connection
Subnet 4: IP address range for Router A to Router C serial connection
Subnet 5: IP address range for Router C to Router D serial connection
Dallas
1500 Hosts
-----Class A
255240.0.0.
-----
9 Subnets
------9-Subnets...
------15.00
1050
2550
112.0.0.1 to 112.015.254
112.0.16.1 to 112.0.23.254
112.0.24.1 to 112.0.24.2
112.0.24.5 to 112.0.24.6
T120.249 to 120.2410

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