Question: You Will Need To Adapt The Configuration On Both Newton And Einstein And Configure The Heisenberg And Schrodinger Switches To Complete This Task

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Question: You Will Need To Adapt The Configuration On Both Newton And Einstein And Configure The Heisenberg And Schrodinger Switches To Complete This Task. You Will Need To VLSM The Network, To Ensure That This Is Applied Randomly And Fairly. You Will Select One Of The Following Options Based On The Last Digit Within Your PI (Personal Identifier) Number. If The FinalThis question hasn't been solved yetAsk an expert

You will need to adapt the configuration on both Newton and Einstein and configure the Heisenberg and Schrodinger switches to complete this task.

You will need to VLSM the network, to ensure that this is applied randomly and fairly. You will select one of the following options based on the last digit within your PI (personal identifier) number. If the final digit of your PI is a letter, please select the preceding numerical digit where anyone with a:

1. 0 or 1, will VLSM for 4 further subnets on Newton and 32 on Einstein.
2. 2 or 3, will VLSM for 8 further subnets on Newton and 64 on Einstein.
3. 4 or 5, will VLSM for 16 further subnets on Newton and 4 on Einstein.
4. 6 or 7, will VLSM for 32 further subnets on Newton and 8 on Einstein.
5. 8 or 9, will VLSM for 64 further subnets on Newton and 16 on Einstein.

On Newton:

• Create two sub interfaces, for VLANs 10 and 20. - Enable dot1q trunking for each sub interface.

(1 mark)

• Using VLSM, split 172.16.0.0/24 into (64) further subnets. VLAN 10 will be in Subnet 0, VLAN 20 will be in Subnet 1. Create suitable interface IP addresses and subnet masks to reflect this configuration requirement.

(1 mark)

On Heisenberg:

• Create VLANS 10 and 20, associate interfaces 6 thru 12 with VLAN 10 and associate interfaces 13 thru 18 with VLAN 20.

(1 mark)

• Enable dot1q trunking for VLAN's 10 and 20 via Fa0/5.

(1 mark)

Working on PC0 as per figures 2 and 4:

• Connect PC0 to Fa0/6 and give it an IP address within Newton's Subnet 0, Ping from PC0 to 99.0.0.1 [Newton].

(1 mark)

On Einstein:

• Create two sub interfaces, via Gi0/0/1 for VLANs 10 and 20 - enable dot1q trunking for each sub interface.

(1 mark)

• Using VLSM, split 192.168.0.0/24 into (see above selection method) further subnets. VLAN 10 will be in Subnet 0, VLAN 20 will be in Subnet 1. Create suitable interface IP addresses and subnet masks to reflect this configuration requirement.

(1 mark)

On Schrodinger:

• Create VLANS 10 and 20, associate interfaces 6 thru 12 with VLAN 10 and associate interfaces 13 thru 18 with VLAN 20.

(1 mark)

• Enable dot1q trunking for VLAN's 10 and 20 via Fa0/5.

(1 mark)

Working on PC1 as per figures 2 and 4:

• Connect PC1 to Fa0/18 and give it an IP address within Einstein's Subnet 1, Ping from PC1 to 99.0.0.2 [Einstein].

(1 mark)