CCNA 2 v7 SRWE v7.02 – Switching, Routing, and Wireless Essentials (Version 7.00) – Modules 5 – 6 – Redundant Networks Exam Answers 2023 2024 Full 100%
This is NetAcad Cisco CCNA 2 v7 SRWE v7.02 Modules 5 – 6 Exam Answers 2023 2024 and Switching, Routing, and Wireless Essentials (Version 7.00) – Redundant Networks Exam Answers Full 100%. All answers have been verified by experts.
Cisco Netacad SRWE Version 7.00 CCNA 2 v7 & v7.02 Modules 5 – 6 – Redundant Networks Exam Answers 2023 2024 – Switching, Routing, and Wireless Essential
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Which three components are combined to form a bridge ID?
- port ID
- IP address
- extended system ID
- MAC address
- bridge priority
- cost
Answers Explanation & Hints: The three components that are combined to form a bridge ID are bridge priority, extended system ID, and MAC address.
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Match the STP protocol with the correct description. (Not all options are used.)
Explanation & Hint: Rapid PVST+ (Per-VLAN Spanning Tree Plus):
- Rapid PVST+ is an extension of the original PVST+ (Per-VLAN Spanning Tree Plus) protocol. It’s a Cisco proprietary enhancement to the Spanning Tree Protocol (STP) that was developed to provide faster convergence and improved redundancy in VLAN-based Ethernet networks.
- Unlike standard STP, which operates with a single spanning tree for the entire network, Rapid PVST+ creates a separate spanning tree for each VLAN. This allows for load balancing and redundancy on a per-VLAN basis.
- Rapid PVST+ incorporates features of the IEEE 802.1w Rapid Spanning Tree Protocol (RSTP) for faster convergence, ensuring that network topology changes are quickly adapted to without causing downtime.
STP (Spanning Tree Protocol):
- STP is a network protocol that prevents loops in Ethernet networks by creating a loop-free logical topology. Loops can lead to broadcast storms and other network issues, so STP is used to ensure that only one path exists between any two network devices.
- STP works by designating a single switch as the “root bridge” and then determining the best paths from each switch to the root bridge. It does this by placing some switch ports in a blocking state, preventing traffic from traversing certain paths. When a link or switch fails, STP recalculates the topology to reestablish a loop-free network.
- The original STP, defined by IEEE 802.1D, is relatively slow in adapting to changes in the network. Variants like RSTP (Rapid Spanning Tree Protocol) and MSTP (Multiple Spanning Tree Protocol) were developed to address these limitations.
MSTP (Multiple Spanning Tree Protocol):
- MSTP, also known as IEEE 802.1s, is a standardized and vendor-neutral extension of the Spanning Tree Protocol. It was developed to address some of the shortcomings of the original STP and provide a more efficient way of managing multiple VLANs in a network.
- MSTP allows network administrators to group VLANs into one or more instances (also called “regions”), where each instance has its own spanning tree topology. This allows for better load balancing and redundancy control, especially in networks with a large number of VLANs.
- MSTP is more efficient than running separate instances of STP for each VLAN (as done in PVST+ or Rapid PVST+). It reduces the number of spanning tree instances and provides more granular control over which VLANs are grouped together.
In summary, Rapid PVST+ is a Cisco-specific enhancement of STP, STP is a protocol used to prevent network loops, and MSTP is a standardized enhancement that provides a more efficient way to manage multiple VLANs in a network.
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In which two port states does a switch learn MAC addresses and process BPDUs in a PVST network? (Choose two.)
- blocking
- disabled
- forwarding
- learning
- listening
Answers Explanation & Hints: Switches learn MAC addresses at the learning and forwarding port states. They receive and process BPDUs at the blocking, listening, learning, and forwarding port states.
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If no bridge priority is configured in PVST, which criteria is considered when electing the root bridge?
- lowest IP address
- lowest MAC address
- highest IP address
- highest MAC address
Answers Explanation & Hints: Only one switch can be the root bridge for a VLAN. The root bridge is the switch with the lowest BID. The BID is determined by priority and the MAC address. If no priority is configured then all switches use the default priority and the election of the root bridge will be based on the lowest MAC address.
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Which two network design features require Spanning Tree Protocol (STP) to ensure correct network operation? (Choose two.)
- static default routes
- implementing VLANs to contain broadcasts
- redundant links between Layer 2 switches
- link-state dynamic routing that provides redundant routes
- removing single points of failure with multiple Layer 2 switches
Answers Explanation & Hints: Spanning Tree Protocol (STP) is required to ensure correct network operation when designing a network with multiple interconnected Layer 2 switches or using redundant links to eliminate single points of failure between Layer 2 switches. Routing is a Layer 3 function and does not relate to STP. VLANs do reduce the number of broadcast domains but relate to Layer 3 subnets, not STP.
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What is the outcome of a Layer 2 broadcast storm?
- Routers will take over the forwarding of frames as switches become congested.
- New traffic is discarded by the switch because it is unable to be processed.
- CSMA/CD will cause each host to continue transmitting frames.
- ARP broadcast requests are returned to the transmitting host.
Answers Explanation & Hints: When the network is saturated with broadcast traffic that is looping between switches, new traffic is discarded by each switch because it is unable to be processed.
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Match the spanning-tree feature with the protocol type. (Not all options are used.)
Answers Explanation & Hints: MST is the Cisco implementation of MSTP (IEEE 802.1s).
PVST+ (Per-VLAN Spanning Tree Plus):
- PVST+ is a Cisco proprietary protocol that is an extension of the original IEEE 802.1D Spanning Tree Protocol (STP). It is used in Ethernet networks to prevent loops and create a loop-free topology.
- PVST+ operates by creating a separate spanning tree for each VLAN in the network. This means that it can calculate multiple spanning trees in parallel, one for each VLAN. This approach allows for load balancing and redundancy on a per-VLAN basis.
RSTP (Rapid Spanning Tree Protocol):
- RSTP, defined by IEEE 802.1w, is a standard protocol designed to improve the convergence time of the original STP. It provides faster recovery from network topology changes.
- RSTP achieves rapid convergence by using features like port roles (e.g., discarding, learning, or forwarding), better BPDUs (Bridge Protocol Data Units) with proposal and agreement mechanisms, and faster aging of MAC address table entries.
- RSTP retains backward compatibility with STP, which means it can interact with switches running the original STP or PVST+.
MSTP (Multiple Spanning Tree Protocol):
- MSTP, defined by IEEE 802.1s, is a standard protocol that provides a more efficient way to manage multiple VLANs in a network. It is vendor-neutral and designed to overcome some of the limitations of PVST+ and RSTP.
- MSTP allows network administrators to group VLANs into one or more instances (also known as “regions”), and each instance has its own spanning tree. This allows for better load balancing and redundancy control, especially in networks with numerous VLANs.
MST (Multiple Spanning Tree):
- MST is the practical implementation of MSTP, where VLANs are grouped into instances, and each instance has its own spanning tree topology. MSTP calculates the minimum number of spanning tree instances necessary to cover all VLANs in the network, reducing the computational overhead.
Rapid PVST+ (Rapid Per-VLAN Spanning Tree Plus):
- Rapid PVST+ is a Cisco proprietary extension of the original PVST+ protocol. It combines the benefits of PVST+ and RSTP to create a faster-converging, loop-free network.
- Similar to PVST+, Rapid PVST+ creates a separate spanning tree for each VLAN, allowing for per-VLAN load balancing and redundancy. However, it incorporates RSTP features to achieve faster convergence in response to network topology changes.
In summary, PVST+ is Cisco’s proprietary per-VLAN STP, RSTP is a standard protocol for faster STP convergence, MSTP is a standard protocol for efficient management of multiple VLANs, MST is the practical implementation of MSTP, and Rapid PVST+ is Cisco’s enhanced version of PVST+ with rapid convergence capabilities. Each of these protocols serves to prevent network loops and optimize network performance.
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When the show spanning-tree vlan 33 command is issued on a switch, three ports are shown in the forwarding state. In which two port roles could these interfaces function while in the forwarding state? (Choose two.)
- disabled
- designated
- root
- alternate
- blocked
Answers Explanation & Hints: The role of each of the three ports will be either designated port or root port. Ports in the disabled state are administratively disabled. Ports in the blocking state are alternate ports.
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A set of switches is being connected in a LAN topology. Which STP bridge priority value will make it least likely for the switch to be selected as the root?
- 4096
- 32768
- 61440
- 65535
Answers Explanation & Hints: The STP bridge priority is a two byte number, but it can only be customized in increments of 4096. The smaller number is preferred, but the largest usable priority value is 61440.
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What is the function of STP in a scalable network?
- It decreases the size of the failure domain to contain the impact of failures.
- It protects the edge of the enterprise network from malicious activity.
- It disables redundant paths to eliminate Layer 2 loops.
- It combines multiple switch trunk links to act as one logical link for increased bandwidth.
Answers Explanation & Hints: STP is an important component in a scalable network because it allows redundant physical connections between Layer 2 devices to be implemented without creating Layer 2 loops. STP prevents Layer 2 loops from forming by disabling interfaces on Layer 2 devices when they would create a loop.
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What is a characteristic of spanning tree?
- It is enabled by default on Cisco switches.
- It has a TTL mechanism that works at Layer 2.
- It prevents propagation of Layer 2 broadcast frames.
- It is used to discover information about an adjacent Cisco device.
Answers Explanation & Hints: Spanning tree does work at Layer 2 on Ethernet-based networks and is enabled by default, but it does not have a TTL mechanism. Spanning tree exists because Layer 2 frames do not have a TTL mechanism. Layer 2 frames are still broadcast when spanning tree is enabled, but the frames can only be transmitted through a single path through the Layer 2 network that was created by spanning tree. Cisco Discovery Protocol (CDP) is used to discover information about an adjacent Cisco device.
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Which spanning tree standard supports only one root bridge so that traffic from all VLANs flows over the same path?
- Rapid PVST
- 802.1D
- MST
- PVST+
Answers Explanation & Hints: MST is the Cisco implementation of MSTP, an IEEE standard protocol that provides up to 16 instances of RSTP. PVST+ provides a separate 802.1D spanning-tree instance for each VLAN that is configured in the network. 802.1D is the original STP standard defined by the IEEE and allows for only one root bridge for all VLANs. 802.1w, or RSTP, provides faster convergence but still uses only one STP instance for all VLANs.
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What is the purpose of the Spanning Tree Protocol (STP)?
- prevents Layer 2 loops
- prevents routing loops on a router
- creates smaller collision domains
- creates smaller broadcast domains
- allows Cisco devices to exchange routing table updates
Answers Explanation & Hints: The Spanning-Tree Protocol (STP) creates one path through a switch network in order to prevent Layer 2 loops.
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Which protocol provides up to 16 instances of RSTP, combines many VLANs with the same physical and logical topology into a common RSTP instance, and provides support for PortFast, BPDU guard, BPDU filter, root guard, and loop guard?
- STP
- Rapid PVST+
- PVST+
- MST
Answers Explanation & Hints: MST is the Cisco implementation of MSTP, an IEEE standard protocol that provides up to 16 instances of RSTP and combines many VLANs with the same physical and logical topology into a common RSTP instance. Each instance supports PortFast, BPDU guard, BPDU filter, root guard, and loop guard. STP and RSTP assume only one spanning-tree instance for the entire bridged network, regardless of the number of VLANs. PVST+ provides a separate 802.1D spanning-tree instance for each VLAN that is configured in the network.
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In which two PVST+ port states are MAC addresses learned? (Choose two.)
- forwarding
- disabled
- learning
- listening
- blocking
Answers Explanation & Hints: The two PVST+ port states during which MAC addresses are learned and populate the MAC address table are the learning and the forwarding states.
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What is the value used to determine which port on a non-root bridge will become a root port in a STP network?
- the highest MAC address of all the ports in the switch
- the lowest MAC address of all the ports in the switch
- the VTP revision number
- the path cost
Answers Explanation & Hints: STP establishes one root port on each non-root bridge. The root port is the lowest-cost path from the non-root bridge to the root bridge, indicating the direction of the best path to the root bridge. This is primarily based on the path cost to the root bridge.
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Refer to the exhibit. Which switch will be the root bridge after the election process is complete?
- S1
- S2
- S3
- S4
Answers Explanation & Hints: The root bridge is determined by the lowest bridge ID, which consists of the priority value and the MAC address. Because the priority values of all of the switches are identical, the MAC address is used to determine the root bridge. Because S2 has the lowest MAC address, S2 becomes the root bridge.
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What are two drawbacks to turning spanning tree off and having multiple paths through the Layer 2 switch network? (Choose two.)
- The switch acts like a hub.
- Port security becomes unstable.
- The MAC address table becomes unstable.
- Broadcast frames are transmitted indefinitely.
- Port security shuts down all of the ports that have attached devices.
Answers Explanation & Hints: Spanning tree should never be disabled. Without it, the MAC address table becomes unstable, broadcast storms can render network clients and the switches unusable, and multiple copies of unicast frames can be delivered to the end devices.
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Which port role is assigned to the switch port that has the lowest cost to reach the root bridge?
- root port
- non-designated port
- designated port
- disabled port
Answers Explanation & Hints: The root port on a switch is the port with the lowest cost to reach the root bridge.
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A small company network has six interconnected Layer 2 switches. Currently all switches are using the default bridge priority value. Which value can be used to configure the bridge priority of one of the switches to ensure that it becomes the root bridge in this design?
- 1
- 28672
- 32768
- 34816
- 61440
Answers Explanation & Hints: The default bridge priority value for all Cisco switches is 32768. The range is 0 to 61440 in increments of 4096. Thus, the values 1 and 34816 are invalid. Configuring one switch with the lower value of 28672 (and leaving the bridge priority value of all other switches unchanged) will make the switch become the root bridge.
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Refer to the exhibit. The administrator tried to create an EtherChannel between S1 and the other two switches via the commands that are shown, but was unsuccessful. What is the problem?
- Traffic can only be sent to two different switches if EtherChannel is implemented on Gigabit Ethernet interfaces.
- Traffic can only be sent to two different switches if EtherChannel is implemented on Layer 3 switches.
- Traffic cannot be sent to two different switches through the same EtherChannel link.
- Traffic cannot be sent to two different switches, but only to two different devices like an EtherChannel-enabled server and a switch.
Answers Explanation & Hints: An EtherChannel link can only be created between two switches or between an EtherChannel-enabled server and a switch. Traffic cannot be sent to two different switches through the same EtherChannel link.
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Which statement is true regarding the use of PAgP to create EtherChannels?
- It requires full duplex.
- It is Cisco proprietary.
- It requires more physical links than LACP does.
- It increases the number of ports that are participating in spanning tree.
- It mandates that an even number of ports (2, 4, 6, etc.) be used for aggregation.
Answers Explanation & Hints: PAgP is used to automatically aggregate multiple ports into an EtherChannel bundle, but it only works between Cisco devices. LACP can be used for the same purpose between Cisco and non-Cisco devices. PAgP must have the same duplex mode at both ends and can use two ports or more. The number of ports depends on the switch platform or module. An EtherChannel aggregated link is seen as one port by the spanning-tree algorithm.
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What are two requirements to be able to configure an EtherChannel between two switches? (Choose two.)
- The interfaces that are involved need to be contiguous on the switch.
- All the interfaces need to work at the same speed.
- All the interfaces need to be working in the same duplex mode.
- All interfaces need to be assigned to different VLANs.
- Different allowed ranges of VLANs must exist on each end.
Answers Explanation & Hints: All interfaces in the EtherChannel bundle must be assigned to the same VLAN or be configured as a trunk. If the allowed range of VLANs is not the same, the interfaces do not form an EtherChannel even when set to auto or desirable mode.
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Refer to the exhibit. On the basis of the output that is shown, what can be determined about the EtherChannel bundle?
- The EtherChannel bundle is down.
- The EtherChannel bundle is operating at both Layer 2 and Layer 3.
- Two Gigabit Ethernet ports are used to form the EtherChannel.
- A Cisco proprietary protocol was used to negotiate the EtherChannel link.
Answers Explanation & Hints: Two protocols can be used to send negotiation frames that are used to try to establish an EtherChannel link: PAgP and LACP. PAgP is Cisco proprietary, and LACP adheres to the industry standard.
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Which two parameters must match on the ports of two switches to create a PAgP EtherChannel between the switches? (Choose two.)
- MAC address
- speed
- VLAN information
- PAgP mode
- port ID
Answers Explanation & Hints: For an EtherChannel to be created, the ports that are concerned on the two switches must match in terms of the speed, duplex, and VLAN information. The PAgP mode must be compatible but not necessarily equal. The port ID and the MAC addresses do not have to match.
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What are two load-balancing methods in the EtherChannel technology? (Choose two.)
- combination of source port and IP to destination port and IP
- source IP to destination IP
- source port to destination port
- combination of source MAC and IP to destination MAC and IP
- source MAC to destination MAC
Answers Explanation & Hints: Depending on the hardware platform, one or more load-balancing methods can be implemented. These methods include source MAC to destination MAC load balancing or source IP to destination IP load balancing, across the physical links.
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When EtherChannel is configured, which mode will force an interface into a port channel without exchanging aggregation protocol packets?
- active
- auto
- on
- desirable
Answers Explanation & Hints: For both LACP and PAgP, the “on” mode will force an interface into an EtherChannel without exchanging protocol packets.
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Refer to the exhibit. An EtherChannel was configured between switches S1 and S2, but the interfaces do not form an EtherChannel. What is the problem?
- The interface port-channel number has to be different on each switch.
- The switch ports were not configured with speed and duplex mode.
- The switch ports have to be configured as access ports with each port having a VLAN assigned.
- The EtherChannel was not configured with the same allowed range of VLANs on each interface.
Answers Explanation & Hints: The guidelines for configuring an EtherChannel link are:Interfaces which form an EtherChannel can be physically discontiguous, and on different modules.
Interfaces in an EtherChannel have to operate at the same speed and in the same duplex mode.
Interfaces in the EtherChannel must be assigned to the same VLAN, or be configured as a trunk.
Interfaces in the EtherChannel have to support the same allowed range of VLANs.
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Which mode configuration setting would allow formation of an EtherChannel link between switches SW1 and SW2 without sending negotiation traffic?
- SW1: on
SW2: on - SW1: desirable
SW2: desirable - SW1: auto
SW2: auto
trunking enabled on both switches - SW1: auto
SW2: auto
PortFast enabled on both switches - SW1: passive
SW2: activeAnswers Explanation & Hints: The auto channel-group keyword enables PAgP only if a PAgP device is detected on the opposite side of the link. If the auto keyword is used, the only way to form an EtherChannel link is if the opposite connected device is configured with the desirable keyword. PortFast and trunking technologies are irrelevant to forming an EtherChannel link. Even though an EtherChannel can be formed if both sides are configured in desirable mode, PAgP is active and PAgP messages are being sent constantly across the link, decreasing the amount of bandwidth available for user traffic.
- SW1: on
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Which two channel group modes would place an interface in a negotiating state using PAgP? (Choose two.)
- on
- desirable
- active
- auto
- passive
Answers Explanation & Hints: There are three modes available when configuring an interface for PAgP: on, desirable, and auto. Only desirable and auto place the interface in a negotiating state. The active and passive states are used to configure LACP and not PAgP.
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A network administrator has configured an EtherChannel between two switches that are connected via four trunk links. If the physical interface for one of the trunk links changes to a down state, what happens to the EtherChannel?
- The EtherChannel will transition to a down state.
- Spanning Tree Protocol will recalculate the remaining trunk links.
- The EtherChannel will remain functional.
- Spanning Tree Protocol will transition the failed physical interface into forwarding mode.
Answers Explanation & Hints: EtherChannel offers redundancy by bundling multiple trunk links into one logical connection. Failure of one physical link within the EtherChannel will not create a change in the topology and therefore a recalculation by Spanning Tree is unnecessary. Just one physical link must remain operational for the EtherChannel to continue to function.
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Refer to the exhibit. A network administrator is configuring an EtherChannel link between two switches, SW1 and SW2. Which statement describes the effect after the commands are issued on SW1 and SW2?
- The EtherChannel fails to establish.
- The EtherChannel is established without negotiation.
- The EtherChannel is established after SW1 initiates the link request.
- The EtherChannel is established after SW2 initiates the link request.
Answers Explanation & Hints: The interfaces GigabitEthernet 0/1 and GigabitEthernet 0/2 are configured “on” for the EtherChannel link. This mode forces the interface to channel without PAgP or LACP. The EtherChannel will be established only if the other side is also set to “on”. However, the mode on SW2 side is set to PAgP desirable. Thus the EtherChannel link will not be established.
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Refer to the exhibit. A network administrator is configuring an EtherChannel link between two switches, SW1 and SW2. However, the EtherChannel link fails to establish. What change in configuration would correct the problem?
- Configure SW1 EtherChannel mode to on.
- Configure SW2 EtherChannel mode to on.
- Configure SW2 EtherChannel mode to auto.
- Configure SW2 EtherChannel mode to desirable.
Answers Explanation & Hints: The EtherChannel mode must be compatible on each side for the link to work. The three modes from PAgP protocol are on, desirable, and auto. The three modes from LACP protocol are on, active, and passive. The compatible modes include on-on, auto-desirable, desirable-desirable, active-passive, and active-active. Any other combinations will not form an EtherChannel link.
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A network administrator configured an EtherChannel link with three interfaces between two switches. What is the result if one of the three interfaces is down?
- The EtherChannel fails.
- The remaining two interfaces continue to load balance traffic.
- The remaining two interfaces become separate links between the two switches.
- One interface becomes an active link for data traffic and the other becomes a backup link.
Answers Explanation & Hints: EtherChannel creates an aggregation that is seen as one logical link. It provides redundancy because the overall link is one logical connection. The loss of one physical link within the channel does not create a change in the topology; the EtherChannel remains functional.
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Which statement describes a characteristic of EtherChannel?
- It can combine up to a maximum of 4 physical links.
- It can bundle mixed types of 100 Mb/s and 1Gb/s Ethernet links.
- It consists of multiple parallel links between a switch and a router.
- It is made by combining multiple physical links that are seen as one link between two switches.
Answers Explanation & Hints: An EtherChannel is formed by combining multiple (same type) Ethernet physical links so they are seen and configured as one logical link. It provides an aggregated link between two switches. Currently each EtherChannel can consist of up to eight compatibly configured Ethernet ports.
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A network administrator is configuring an EtherChannel link between switches SW1 and SW2 by using the command SW1(config-if-range)# channel-group 1 mode auto . Which command must be used on SW2 to enable this EtherChannel?
- SW2(config-if-range)# channel-group 1 mode on
- SW2(config-if-range)# channel-group 1 mode active
- SW2(config-if-range)# channel-group 1 mode passive
- SW2(config-if-range)# channel-group 1 mode desirable
Answers Explanation & Hints: The possible combinations to establish an EtherChannel between SW1 and SW2 using LACP or PAgP are as follows:
PAgP
on on
auto desirable
desirable desirableLACP
on on
active active
passive activeThe EtherChannel mode chosen on each side of the EtherChannel must be compatible in order to enable it.
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Which technology is an open protocol standard that allows switches to automatically bundle physical ports into a single logical link?
- Multilink PPP
- DTP
- LACP
- PAgP
Answers Explanation & Hints: LACP, or Link Aggregation Control Protocol, is defined by IEEE 802.3ad and is an open standard protocol. LACP allows switches to automatically bundle switch ports into a single logical link to increase bandwidth. PAgP, or Port Aggregation Protocol, performs a similar function, but it is a Cisco proprietary protocol. DTP is Dynamic Trunking Protocol and is used to automatically and dynamically build trunks between switches. Multilink PPP is used to load-balance PPP traffic across multiple serial interfaces.
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What is a requirement to configure a trunking EtherChannel between two switches?
- The participating interfaces must be physically contiguous on a switch.
- The allowed range of VLANs must be the same on both switches.
- The participating interfaces must be on the same module on a switch.
- The participating interfaces must be assigned the same VLAN number on both switches.
Answers Explanation & Hints: To enable a trunking EtherChannel successfully, the range of VLANs allowed on all the interfaces must match; otherwise, the EtherChannel cannot be formed. The interfaces involved in an EtherChannel do not have to be physically contiguous, or on the same module. Because the EtherChannel is a trunking one, participating interfaces are configured as trunk mode, not access mode.
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Refer to the exhibit. A network administrator issued the show etherchannel summary command on the switch S1. What conclusion can be drawn?
- The EtherChannel is suspended.
- The EtherChannel is not functional.
- The port aggregation protocol PAgP is misconfigured.
- FastEthernet ports Fa0/1, Fa0/2, and Fa0/3 do not join the EtherChannel.
Answers Explanation & Hints: The EtherChannel status shows as (SD), which means it is a Layer 2 EtherChannel with a status of D or down. Because the EtherChannel is down, the status of the interfaces in the channel group is stand-alone. PAgP is configured on S1, but there is no indication whether it is configured correctly on S1. The problem might also be the adjacent switch EtherChannel configuration.
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Which statement describes an EtherChannel implementation?
- EtherChannel operates only at Layer 2.
- PAgP cannot be used in conjunction with EtherChannel.
- A trunked port can be part of an EtherChannel bundle.
- EtherChannel can support up to a maximum of ten separate links.
Answers Explanation & Hints: Up to 16 links can be grouped in an EtherChannel by using the the PAgP or LACP protocol. EtherChannel can be configured as a Layer 2 bundle or a Layer 3 bundle. Configuring a Layer 3 bundle is beyond the scope of this course. If a trunked port is a part of the EtherChannel bundle, all ports in the bundle need to be trunk ports and the native VLAN must be the same on all of these ports. A best practice is to apply the configuration to the port channel interface. The configuration is then automatically applied to the individual ports.
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What are two advantages of using LACP? (Choose two.)
- LACP allows Fast Ethernet and Gigabit Ethernet interfaces to be mixed within a single EtherChannel.
- It eliminates the need for configuring trunk interfaces when deploying VLANs on multiple switches.
- It allows directly connected switches to negotiate an EtherChannel link.
- It provides a simulated environment for testing link aggregation.
- It decreases the amount of configuration that is needed on a switch.
- It allows the use of multivendor devices.
Answers Explanation & Hints: The Link Aggregation Control Protocol (LACP) allows directly connected multivendor switches to negotiate an EtherChannel link. LACP helps create the EtherChannel link by detecting the configuration of each side and making sure that they are compatible so that the EtherChannel link can be enabled when needed.
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What are two advantages of EtherChannel? (Choose two.)
- Configuring the EtherChannel interface provides consistency in the configuration of the physical links.
- Load balancing occurs between links configured as different EtherChannels.
- EtherChannel uses upgraded physical links to provide increased bandwidth.
- Spanning Tree Protocol views the physical links in an EtherChannel as one logical connection.
- Spanning Tree Protocol ensures redundancy by transitioning failed interfaces in an EtherChannel to a forwarding state.
Answers Explanation & Hints: EtherChannel configuration of one logical interface ensures configuration consistency across the physical links in the EtherChannel. The EtherChannel provides increased bandwidth using existing switch ports without requiring any upgrades to the physical interfaces. Load balancing methods are implemented between links that are part of the same Etherchannel. Because EtherChannel views the bundled physical links as one logical connection, spanning tree recalculation is not required if one of the bundled physical links fail. If a physical interface fails, STP cannot transition the failed interface into a forwarding state.
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A switch is configured to run STP. What term describes a field that has a default value of 32,768 and is the initial deciding factor when electing a root bridge?
- bridge priority
- BPDUs
- bridge ID
- extended system ID
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Explanation & Hint: The term that describes a field with a default value of 32,768 and is the initial deciding factor when electing a root bridge in a Spanning Tree Protocol (STP) environment is “bridge priority.” The bridge priority value is used to determine which switch will become the root bridge in the spanning tree topology. Switches with lower bridge priority values have a higher chance of becoming the root bridge, assuming that other factors like the bridge ID tiebreaker (MAC address) are the same.
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A switch is configured to run STP. What term describes the reference point for all path calculations?
- root bridge
- root port
- designated port
- alternate port
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Explanation & Hint: The term that describes the reference point for all path calculations in a Spanning Tree Protocol (STP) network is the “root bridge.” The root bridge serves as the central point from which all other switches calculate their paths to reach different parts of the network. The root bridge is the switch with the lowest Bridge ID (a combination of Bridge Priority and MAC address) and is responsible for providing the shortest path for traffic within the spanning tree topology.
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A switch is configured to run STP. What term describes a field used to specify a VLAN ID?
- extended system ID
- port ID
- MAC Address
- bridge priority
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Explanation & Hint: The term that describes a field used to specify a VLAN ID in a switch’s configuration, particularly in the context of Spanning Tree Protocol (STP) for VLAN-specific information, is “extended system ID.” The extended system ID includes the VLAN ID, which helps differentiate between different instances of the spanning tree protocol running on the same switch for different VLANs. This is commonly used in IEEE 802.1Q (VLAN tagging) and Rapid Spanning Tree Protocol (RSTP) for VLAN-specific spanning tree instances.
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A switch is configured to run STP. What term describes the switch port closest, in terms of overall cost, to the root bridge?
- root port
- designated port
- alternate port
- disabled
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Explanation & Hint: The term that describes the switch port closest, in terms of overall cost, to the root bridge in a Spanning Tree Protocol (STP) network is the “root port.” The root port is the port on a non-root switch that provides the shortest path (lowest cost) to the root bridge in the spanning tree topology. This port is the one that the switch uses to reach the root bridge, and it is in a forwarding state to ensure the shortest path for traffic.
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A switch is configured to run STP. What term describes the switch port closest, in terms of overall cost, to the root bridge?
- root port
- designated port
- alternate port
- root bridge
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Explanation & Hint: The term that describes the switch port closest, in terms of overall cost, to the root bridge in a Spanning Tree Protocol (STP) network is the “root port.” The root port is the port on a non-root switch that provides the shortest path (lowest cost) to the root bridge in the spanning tree topology. It is the port through which the switch connects to the root bridge, and it is in a forwarding state to ensure the shortest path for traffic.
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A switch is configured to run STP. What term describes the reference point for all path calculations?
- root bridge
- root port
- designated port
- disabled
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Explanation & Hint: The term that describes the reference point for all path calculations in a Spanning Tree Protocol (STP) network is the “root bridge.” The root bridge is the central reference point from which all other switches in the network calculate their paths and determine which ports are in forwarding or blocking states. It is the key element in the spanning tree topology, and all switches strive to find the shortest path to the root bridge to ensure a loop-free network.
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A switch is configured to run STP. What term describes a non-root port that is permitted to forward traffic on the network?
- designated port
- alternate port
- disabled
- root port
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Explanation & Hint: A non-root port that is permitted to forward traffic on the network is called a “designated port.” Designated ports are responsible for forwarding traffic from a specific segment of the network. These ports are selected based on the Spanning Tree Protocol (STP) calculations to ensure a loop-free topology. The root port, on the other hand, is the port that connects a non-root switch to the root bridge, and it is responsible for forwarding traffic toward the root bridge.
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A switch is configured to run STP. What term describes a non-root port that is permitted to forward traffic on the network?
- designated port
- alternate port
- disabled
- dedicated port
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Explanation & Hint: A non-root port that is permitted to forward traffic on the network is called a “designated port.” Designated ports are responsible for forwarding traffic on specific network segments, and they are determined through the Spanning Tree Protocol (STP) calculations to ensure a loop-free topology. Designated ports are part of the mechanism that STP uses to create a loop-free tree structure in Ethernet networks.
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A switch is configured to run STP. What term describes a field used to specify a VLAN ID?
- extended system ID
- port ID
- bridge priority
- bridge ID
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Explanation & Hint: The term that describes a field used to specify a VLAN ID in a switch’s configuration, particularly in the context of Spanning Tree Protocol (STP) for VLAN-specific information, is the “extended system ID.” The extended system ID includes the VLAN ID, which helps differentiate between different instances of the spanning tree protocol running on the same switch for different VLANs. This is commonly used in IEEE 802.1Q (VLAN tagging) and Rapid Spanning Tree Protocol (RSTP) for VLAN-specific spanning tree instances.
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A switch is configured to run STP. What term describes a field that has a default value of 32,768 and is the initial deciding factor when electing a root bridge?
- bridge priority
- MAC Address
- extended system ID
- bridge ID
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Explanation & Hint: The term that describes a field with a default value of 32,768 and is the initial deciding factor when electing a root bridge in a Spanning Tree Protocol (STP) environment is “bridge priority.” The bridge priority value is used to determine which switch will become the root bridge in the spanning tree topology. Switches with lower bridge priority values have a higher chance of becoming the root bridge, assuming that other factors like the bridge ID tiebreaker (MAC address) are the same.
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Refer to the exhibit. What are the possible port roles for ports A, B, C, and D in this RSTP-enabled network?
- alternate, root, designated, root
- designated, root, alternate, root
- alternate, designated, root, root
- designated, alternate, root, root
Answers Explanation & Hints: Because S1 is the root bridge, B is a designated port, and C and D root ports. RSTP supports a new port type, alternate port in discarding state, that can be port A in this scenario.
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Refer to the exhibit. Which switching technology would allow each access layer switch link to be aggregated to provide more bandwidth between each Layer 2 switch and the Layer 3 switch?
- HSRP
- PortFast
- trunking
- EtherChannel
Answers Explanation & Hints: PortFast is used to reduce the amount of time that a port spends going through the spanning-tree algorithm, so that devices can start sending data sooner. Trunking can be implemented in conjunction with EtherChannel, but trunking alone does not aggregate switch links. HSRP is used to load-balance traffic across two different connections to Layer 3 devices for default gateway redundancy. HSRP does not aggregate links at either Layer 2 or Layer 3 as EtherChannel does.
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Refer to the exhibit. An administrator wants to form an EtherChannel between the two switches by using the Port Aggregation Protocol. If switch S1 is configured to be in auto mode, which mode should be configured on S2 to form the EtherChannel?
- on
- auto
- desirable
- off
Answers Explanation & Hints: An EtherChannel will be formed via PAgP when both switches are in on mode or when one of them is in auto or desirable mode and the other is in desirable mode.
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Open the PT Activity. Perform the tasks in the activity instructions and then answer the question.
Which set of configuration commands issued on SW1 will successfully complete the EtherChannel link between SW1 and SW2?
- interface Port-channel 1
no shutdown - interface GigabitEthernet0/1
channel-group 1 mode desirable - interface GigabitEthernet0/1
no shutdown - interface GigabitEthernet0/2
channel-group 2 mode desirableAnswers Explanation & Hints: Issuing the show running-configuration command on SW1 shows that interface GigabitEthernet0/1 is missing the channel-group 1 mode desirable command which will compete the EtherChannel configuration for interface GigabitEthernet0/1 and interface GigabitEthernet0/2.
- interface Port-channel 1