Both bridges are switches are being used throughout the Ezonexam LAN. Which of the following statements are true regarding bridges and switches in this network?
(Choose 3)
A. Switches are primarily software based while bridges are hardware based.
B. Switches usually have a higher number of ports than most bridges.
C. Bridges are frequently faster than switches.
D. Bridges define broadcast domains while switches define collision domains.
E. Both bridges and switches forward Layer 2 broadcasts.
F. Both bridges and switches make forwarding decisions based on Layer 2 addresses.
第1题:
A. Switches are primarily software based while bridges are hardware based.
B. Both bridges and switches forward Layer 2 broadcasts.
C. Bridges are frequently faster than switches.
D. Switches typically have a higher number of ports than bridges.
E. Bridges define broadcast domain while switches define collision domains.
F. Both bridges and switches make forwarding decisions based on Layer 2 addresses.
第2题:
A.802.1d
B.VTP
C.802.1q
D.STP
E.SAP
第3题:
A.Microsegmentation decreases the number of collisions on the network.
B.if a switch receives a frame for an unkown destination,it uses ARP to resolve the address.
C.Spanning Tree Protocol allows switches to automatically share vlan information.
D.In a properly functioning network with redundant switched paths,each switched aegment will contain one root bridge with all its ports in the forwarding state.All other switches in that broadcast domain will have only one root port.
E.Establishing vlans increases the number of broadcast domains.
F.Switches that are configured with vlans make forwarding decisions based on both layer 2 and layer 3 address information.
第4题:
A.Switches are primarily software based while bridges are hardware based.
B.Both bridges and switches forward Layer 2 broadcasts.
C.Bridges are frequently faster than switches.
D.Switches have a higher number of ports than most bridges.
E.Bridges define broadcast domains while switches define collision domains.
F.Both bridges and switches make forwarding decisions based on Layer 2 addresses.
第5题:
Which of the following statements are true for routers but not true for Layer 3 Ethernet switches?(Choose all that apply.)()
第6题:
Which of the following is true regarding the use of switches and hubs for network connectivity()。
第7题:
Bridges and switches are Layer 2 devices that provide the same basic functionality but that also have some differences. Which two traits apply to switches only?()
第8题:
With regard to bridges and switches, which of the following statements are true?()
第9题:
Which of the following is true concerning best design practices at the switched Access layer of thetraditional layer2 Enterprise Campus Network?()
第10题:
Switches are primarily software based while bridges are hardware based.
Both bridges and switches forward Layer 2 broadcasts.
Bridges are frequently faster than switches.
Switches have a higher number of ports than most bridges.
Bridges define broadcast domains while switches define collision domains.
Both bridges and switches make forwarding decisions based on Layer 2 addresses.
第11题:
Switches are primarily software based while bridges are hardware based.
Both bridges and switches forward Layer 2 broadcasts.
Bridges are frequently faster than switches.
Switches typically have a higher number of ports than bridges.
Bridges define broadcast domain while switches define collision domains.
Both bridges and switches make forwarding decisions based on Layer 2 addresses.
第12题:
Bridges are faster than switches because they have fewer ports.
A switch is a multiport bridge,
Bridges and switches learn MAC addresses by examining the source MAC address of each frame received.
A bridge will forward a broadcast but a switch will not.
Bridges and switches increase the size of a collision domain.
None of the above statements are true.
第13题:
RefertotheoutputshownonswitchSW1below:Warning:Spantreeportfaststartshouldonlybeenabledonportsconnectedtoasinglehost.Connectinghubs,concentrators,switches,bridges,etc.toafaststartportcancausetemporaryspanningtreeloops.Usewithcaution.Spantreeports4/1-24faststartenabled.Whatcommandcouldyouentertoreproducethisoutput?
第14题:
A. Bridges are faster than switches because they have fewer ports.
B. A switch is a multiport bridge.
C. Bridges and switches learn MAC addresses by examining the source MAC address of each frame received.
D. A bridge will forward a broadcast but a switch will not.
E. Bridges and switches increase the size of a collision domain.
第15题:
A.Switches take less time to process frames than hubs take.
B.Switches do not forward broadcasts.
C.Hubs can filter frames.
D.Using hubs can increase the amount of bandwidth available to hosts.
E.Switches increase the number of collision domains in the network.
第16题:
Which of the following are true regarding bridges and switches?()
第17题:
Which one of the following characteristics is true regarding the use of hubs and switches?()
第18题:
Which two protocols are used by bridges and/or switches to prevent loops in a layer 2 network?()
第19题:
Which of the following statements are true regarding bridges and switches?()
第20题:
When comparing and contrasting the similarities and differences between bridges and switches, which of the following are valid statements?()
第21题:
Switches are primarily software based while bridges are hardware based.
Both bridges and switches forward Layer 2 broadcasts.
Bridges are frequently faster than switches.
Switches have a higher number of ports than most bridges.
Bridges define broadcast domains while switches define collision domains.
Both bridges and switches make forwarding decisions based on Layer 2 addresses.
第22题:
May have Ethernet as well as non-Ethernet interfaces
Traditionally used as a standalone device for inter-VLAN communication
Makes use of TCAMs
Uses subinterfaces to define trunks
Can use both Layer 2 and Layer 3 to make forwarding decisions
Allows the definition of Switched Virtual Interfaces(SVI)
第23题:
Bridges are faster than switches because they have fewer ports.
A switch is a multiport bridge.
Bridges and switches learn MAC addresses by examining the source MAC address of each frame received.
A bridge will forward a broadcast but a switch will not.
Bridges and switches increase the size of a collision domain.