Q3: Repeat Question 1 while using VLSM on the subnet between Router C- Router D in order to provide IP addresses for the 3 WAN connections between routers. Then, calculate the amount of IP addresses that were freed by this operation. Ft. Worth 1000 Hosts Router S 0/0/1 IP address 112.0.0.0 S 0/0/0 S 0/0/1 F 0/1 Ro F0/0 S 0/0/0 Router FOO S0/0/1 Rov D Subnet mask with VLSM IP address range for Router A to Router B serial connection with VLSM IP address range for Router A to Router C serial connection with VLSM IP address range for Router C to Router D serial connection with VLSM Number of IP addresses released from initial Router A-B Subnet in Q1 due to using VLSM Number of IP addresses released from initial Router A-C Subnet in Q1 due to using VLSM Number of IP addresses released from initial Router C-D Subnet in QI due to using VLSM Total number of IP addresses released from the WAN subnets due to using VLSM: Dallas 1500 Hosts Q1: Based on the information in the graphic shown, design a network addressing scheme that will supply the minimum number of hosts per subnet, 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. IP address 112.0.0.0 S 0/0/0 S 0/0/1 Ft. Worth 1000 Hosts Router S 0/0/1 $0/0/0 F 0/1 ROU F0/0 Router FO S 0/0/1 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 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

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Q3: Repeat Question 1 while using VLSM on the subnet between Router C- Router D in order to provide IP addresses for the 3 WAN connections between routers. Then, calculate the amount of IP addresses that were freed by this operation. Ft. Worth 1000 Hosts Router S 0/0/1 IP address 112.0.0.0 S 0/0/0 S 0/0/1 F 0/1 Ro F0/0 S 0/0/0 Router FOO S0/0/1 Rov D Subnet mask with VLSM IP address range for Router A to Router B serial connection with VLSM IP address range for Router A to Router C serial connection with VLSM IP address range for Router C to Router D serial connection with VLSM Number of IP addresses released from initial Router A-B Subnet in Q1 due to using VLSM Number of IP addresses released from initial Router A-C Subnet in Q1 due to using VLSM Number of IP addresses released from initial Router C-D Subnet in QI due to using VLSM Total number of IP addresses released from the WAN subnets due to using VLSM: Dallas 1500 Hosts

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Q1: Based on the information in the graphic shown, design a network addressing scheme that will supply the minimum number of hosts per subnet, 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. IP address 112.0.0.0 S 0/0/0 S 0/0/1 Ft. Worth 1000 Hosts Router S 0/0/1 $0/0/0 F 0/1 ROU F0/0 Router FO S 0/0/1 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 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