1
Refer to the exhibit. The network administrator needs to setup Switch1 for remote access from HostA. The show ip interface brief is issued on Router1 and the show interfaces trunk command is issued on the Switch1 to verify the current status. The administrator applies the additional configuration shown in the exhibit to Switch1. However, the telnet from HostA fails. What additional commands need to be applied
to the switch?
Switch(config)# interface vlan 1
Switch(config-if)# ip address 10.1.1.250 255.255.255.0
Switch(config-if)# no shutdown
Switch(config-if)# ip default-gateway 10.1.10.254
Switch(config)# interface vlan 1
Switch(config-if)# ip address 10.1.50.250 255.255.255.0
Switch(config-if)# no shutdown
Switch(config-if)# ip default-gateway 10.1.50.254
Switch(config)# interface vlan 10
Switch(config-if)# ip address 10.1.10.250 255.255.255.0
Switch(config-if)# no shutdown
Switch(config-if)# ip default-gateway 10.1.10.254
==> Switch(config)# interface vlan 10
Switch(config-if)# ip address 10.1.1.250 255.255.255.0
Switch(config-if)# no shutdown
Switch(config-if)# ip default-gateway 10.1.10.254
Switch(config)# interface vlan 50
Switch(config-if)# ip address 10.1.10.250 255.255.255.0
Switch(config-if)# no shutdown
Switch(config-if)# ip default-gateway 10.1.10.254
2
Refer to the exhibit. On the basis of the configuration shown, how will an Ethernet frame on port GigabitEthernet0/1 be modified?
802.1Q encapsulation prepends a 4-byte tag field in front of the original Ethernet frame and recomputes the frame check sequence (FCS) on the modified frame.
==> 802.1Q encapsulation inserts a 4-byte tag field into the original Ethernet frame between the source address and type/length fields and recomputes the frame check sequence (FCS) on the modified frame.
802.1Q encapsulation prepends an 802.1p field in front of the original Ethernet frame and recomputes the frame check sequence (FCS) on the modified frame.
802.1Q encapsulation inserts an 802.1p field into the original Ethernet frame between the source address and type/length fields and recomputes the frame check sequence (FCS) on the modified frame.
3
What VLANs are allowed across a trunk when the range of allowed VLANs is set to the default value?
==> All VLANs will be allowed across the trunk.
Only VLAN 1 will be allowed across the trunk.
Only the native VLAN will be allowed across the trunk.
The switches will negotiate via VTP which VLANs to allow across the trunk.
4
Which parameter is used to uniquely identify one wireless network from another?
==> SSID
OFDM
WEP
DSSS
5
Refer to the exhibit. What is the consequence if SW1 port F0/1 is configured as an edge port?
SW1 port F0/1 transitions to the learning state.
==> SW1 port F0/1 can generate a temporary loop.
SW1 port F0/1 becomes a non-designated port.
SW1 port F0/2 no longer passes BPDUs to SW4.
6
Refer to the exhibit. What will allow a host on VLAN 40 on switch X to communicate with a host in VLAN 40 on switch Y?
QoS
routing
==> trunking
VPN
7
Refer to the exhibit. Spanning-tree port priorities are 128 for all interfaces. The network administrator enters the spanning-tree vlan 1 root primary command on S4. Which two port results are correct? (Choose two.)
==> S1 Gi0/1 becomes a root port.
S2 Gi0/2 becomes a non-designated port.
S3 Gi0/1 becomes a non-designated port.
S4 Gi0/1 becomes a root port.
==> S4 Gi0/2 becomes a designated port.
8
Refer to the exhibit. Which two facts can be confirmed by this output? (Choose two.)
This switch shows no configuration revision errors.
This switch has established two-way communication with the neighboring devices.
==> This switch is configured to advertise its VLAN configuration to other VTP-enabled switches in the same VTP domain.
This switch will drop all VTP advertisements that come from the switches that are configured in the same VTP domain.
==> This switch will cause no disruption in the VTP domain operations if the rest of the switches in the same VTP domain have a higher configuration revision number.
9
Refer to the exhibit. R1 is configured for traditional inter-VLAN routing. R1 can ping computer 3 but cannot ping computer 1. What is a possible cause for this failure?
==> S1 port Fa0/11 is in the wrong VLAN.
R1 does not have an active routing protocol.
The IP address of computer 1 is in the wrong logical network.
Router interface Fa0/0 has the wrong trunk encapsulation type configured.
10
Refer to the exhibit. Both switches are interconnected via a trunk link. Host A and host B are on the default VLAN but are not able to exchange traffic. What should be done to fix the problem?
Allow all VLANs on the trunk link.
Remove the native VLAN from the trunk.
Include a router or switch with Layer 3 capabilities.
==> Configure the same native VLAN on both ends of the trunk.
11
Refer to the exhibit. The hosts connected to switch SW1 are not able to communicate with the hosts in the same VLANs connected to switch SW2. What should be done to fix the problem?
Configure VLANs with different VLAN IDs on switch SW2.
==> Reconfigure the trunk port on switch SW2 with static trunk configuration.
Introduce a Layer 3 device or a switch with Layer 3 capability in the topology.
Apply IP addresses that are in the same subnet to the interfaces used to connect SW1 and SW2.
12
What happens when the crypto key zeroize rsa command is entered on a switch configured with the transport input ssh command on the vty lines?
A new RSA key pair is created.
The switch defaults to allowing Telnet connections only.
The switch is no longer able to make SSH connections as an SSH client.
==> The switch allows remote connections only after a new RSA key pair is generated.
13
Refer to the exhibit. An Ethernet switch has developed the CAM table shown. What action will the switch take when it receives the frame shown at the bottom of the exhibit?
==> forward the frame out all interfaces except Interface3
add station 00-00-3D-1F-11-05 to Interface2 in the forwarding table
forward the frame out Interface3
discard the frame
forward the frame out all interfaces
forward the frame out Interface2
14
Which two statements describe Spanning Tree Protocol? (Choose two.)
==> It eliminates Layer 2 loops in network topologies.
It eliminates the need for redundant physical paths in network topologies.
==> It can only be used in networks in which Layer 2 switching is in use.
It can only be used in networks where both routers and switches are used together.
It can only be used in networks where routers are installed.
15
Refer to the exhibit. A new host needs to be connected to VLAN 1. Which IP addresses should be assigned to this new host?
192.168.1.11 /28
==> 192.168.1.22 /28
192.168.1.33 /28
192.168.1.44 /28
192.168.1.55 /28
16
Refer to the exhibit. How does SW1 manage traffic coming from Host A?
SW1 drops the traffic because it is untagged.
==> SW1 leaves the traffic untagged and forwards it over the trunk.
SW1 tags the traffic with the lowest VLAN ID value and forwards it over the trunk link.
SW1 encapsulates the traffic with 802.1Q encapsulation and forwards it over the trunk link.
17
Refer to the exhibit. The switches are configured for VTP as shown. Which two statements correctly describe the operation of these switches? (Choose two.)
A new VLAN can be added to Switch1 and that information will be added only to Switch2.
==> A new VLAN can be added to Switch1 and that information will be added to Switch2 and Switch4
==> An existing VLAN can be deleted from Switch4 and that VLAN will be deleted from Switch1 and Switch2
An existing VLAN can be deleted from Switch2 and that VLAN will be deleted from Switch1 and Switch4.
A new VLAN can be added to Switch4 and that information will be added to Switch1, Switch2, and Switch3.
A new VLAN can be added to Switch3 and that information will be added to Switch1, Switch2, and Switch4.
18
Refer to the exhibit. Computer A sends a broadcast message. Which devices will see the broadcast?
computer B
computer B and Router1
==> computer C and Router1
computer B, computer D, computer E and Router1
computer B, computer C, computer D, computer E and Router1
computer A, computer B, computer C, computer D, computer E and Router1
19
Refer to the exhibit. The network administrator enters the configuration shown to allow both SSH and Telnet connections to the switch. The Telnet connections fail. What is the most likely cause of this problem?
The SSH version number is wrong.
SSH has been configured on the wrong line.
Telnet and SSH cannot be configured simultaneously.
==> The transport input command is configured incorrectly.
20
Refer to the exhibit. Which switch will be elected as the root bridge of the spanning tree topology?
Cat-A
Cat-B
==> Cat-C
Cat-D
21
Refer to the exhibit. The switches in the exhibit have VTP pruning enabled. Which VLANs will be pruned from switch SW3?
==> VLAN 10 and VLAN 20
VLAN 1, VLAN 10, and VLAN 20
VLAN 1, VLAN 1002 through 1005
VLAN 1, VLAN 10, VLAN 20, VLAN 1002 through 1005
22
Refer to the exhibit. What does STATIC indicate in the output that is shown?
The switch will not allow any other device to connect to port Fa0/15.
==> Traffic destined for MAC address 0000.c123.5432 will be forwarded to Fa0/15.
This entry will be removed and refreshed every 300 seconds to keep it in the table.
The switch learned this MAC address from the source address in a frame received on Fa0/15.
When processing a frame, the switch does not have to perform a lookup to determine the final destination port.
26.11.09
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1 comment:
Hi Mr.Eslahi
tank you from these answer exam put
hossein taheri
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