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Scenario Questions
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| Hello everyone
I've scoured the dumps to find all the scenario questions that I can.
1. Debbie's company is headquartered in Miami with a second office in Chicago. The Miami office has twenty Windows NT Server computers and 1,500 Windows NT Workstation computer clients. The Chicago office has two Windows NT Server computers and 500 Windows NT Workstation computer clients. Debbie wants to set up WINS database replication between the two WINS Servers in Miami and Chicago.
Required result: She must replicate the Miami WINS Server database to the Chicago WINS Server.
Optional desired results: She wants to replicate the Chicago WINS Server data to the Miami WINS Server. She wants to be sure that the Miami WINS database is replicated to Chicago at least once a day.
Proposed solution: Configure Miami to push its WINS database update information to Chicago once every 1000 updates. Configure Chicago to pull Miami's WINS database update information once every 24 hours.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer B (The proposed solution replicates the Miami database to Chicago at least once a day)
2. Debbie's company is headquartered in Miami with a second office in Chicago. The Miami office has twenty Windows NT Server computers and 1,500 Windows NT Workstation computer clients. The Chicago office has two Windows NT Server computers and 500 Windows NT Workstation computer clients. Debbie wants to set up WINS database replication between the two WINS Servers in Miami and Chicago.
Required result: She must replicate the Miami WINS Server database to the Chicago WINS Server.
Optional desired results: She wants to replicate the Chicago WINS Server data to the Miami WINS Server. She wants to be sure that the Miami WINS database is replicated to Chicago at least once a day.
Proposed solution: Configure Chicago to push its WINS database update information to Miami once every 1000 updates. Configure Miami to pull Chicago's WINS database update information once every 24 hours.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer D (The proposed solution achieves only one of the optional desired results and fails to achieve the required result. In this scenario, both Servers are configured so that data travels from Chicago to Miami)
3. Debbie's company is headquartered in Miami with a second office in Chicago. The Miami office has twenty Windows NT Server computers and 1,500 Windows NT Workstation computer clients. The Chicago office has two Windows NT Server computers and 500 Windows NT Workstation computer clients. Debbie wants to set up WINS database replication between the two WINS Servers in Miami and Chicago.
Required result: She must replicate the Miami WINS Server database to the Chicago WINS Server.
Optional desired results: She wants to replicate the Chicago WINS Server data to the Miami WINS Server. She wants to be sure that the Miami WINS database is replicated to Chicago at least once a day.
Proposed solution: Configure Miami to push its WINS database update information to Chicago once every 200 updates. Configure Chicago to pull Miami's WINS database update information once every 24 hours. Configure Chicago to push its WINS database update information to Miami once every 1000 updates. Configure Miami to pull Chicago's WINS database update information once every 24 hours.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer A (The proposed solution ensures that two-way replication between Miami and Chicago will occur every 24 hours).
4. Debbie's company is headquartered in Miami with a second office in Chicago. The Miami office has twenty Windows NT Server computers and 1,500 Windows NT Workstation computer clients. The Chicago office has two Windows NT Server computers and 500 Windows NT Workstation computer clients. Debbie wants to set up WINS database replication between the two WINS Servers in Miami and Chicago.
Required result: She must replicate the Miami WINS Server database to the Chicago WINS Server.
Optional desired results: She wants to replicate the Chicago WINS Server data to the Miami WINS Server. She wants to be sure that the Miami WINS database is replicated to Chicago at least once a day.
Proposed solution: Configure Chicago to pull Miami's WINS database update information once every 24 hours. Configure Miami to pull Chicago's WINS database update information once every 24 hours.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer A
5. You have two WINS Servers on two subnets in separate cities connected by a fast link. Washington has 30 NT Servers and 1,500 hosts. City Baltimore has 10 Servers and 100 hosts
Required result: You need to set up replication between the two Servers.
Optional results: You also want the replication to take place at least once a day. Washington's WINS database should be replicated to Baltimore's WINS Server Baltimore's WINS database should be replicated to Washington's WINS Server.
Solution: Configure Washington to push its WINS Server database to Baltimore every 25 updates. Configure Baltimore to pull Washington's WINS database every 24 hours
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and two of the optional desired results. C. The proposed solution produces the required result and one of the optional desired results. D. The proposed solution produces the required result and none of the optional desired results. E. The proposed solution does not produce the required result.
Answer E (Baltimore database is not replicated to Washington so no replication between both Servers)
6. You have two WINS Servers on two subnets in separate cities connected by a fast link. Washington has 30 NT Servers and 1,500 hosts. City Baltimore has 10 Servers and 100 hosts
Required result: You need to set up replication between the two Servers.
Optional results: You also want the replication to take place at least once a day. Washington's WIN database should be replicated to Baltimore's WIN Server. Baltimore's WIN database should be replicated to Washington's WIN Server.
Solution:
Configure Washington to push its WINS Server database to Baltimore every 25 updates. Configure Baltimore to pull Washington's WINS database every 24 hours Configure Baltimore to push its WINS Server database to Washington every 25 updates. Configure Washington to pull Baltimore's WINS database every 24 hours
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and two of the optional desired results. C. The proposed solution produces the required result and one of the optional desired results. D. The proposed solution produces the required result and none of the optional desired results. E. The proposed solution does not produce the required result.
Answer A
7. Situation in Dallas: two Windows NT Servers, 225 Windows NT Workstations. 1 WINS Server named DAL. Situation in Seattle: 10 Windows NT Servers, 1000 NT Workstations. 1 WINS Server named SEA. Link between the two sites is a 56 Kbps link.
Required results: SEA's database must be replicated to the one in Dallas (DAL).
Optional results: DAL's database must be replicated to SEA. The replication should occur only once a day.
Solution: Has a HORRID TABLE graphic which I can't redraw DAL pushes after 50,000 changes SEA pulls after 24 hours
Which results does the proposed solution produce?
A. The proposed solution produces the required result and the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer D (DAL's database is not replicated to SEA)
8. Howard administers a TCP/IP network of Microsoft-based computers with six subnets. He wants to install two DHCP Servers, each on a separate subnet, that will automatically assign IP addresses to the host computers.
Required result: Each DHCP Server must act as a backup Server if the other DHCP Server is down.
Optional desired results: DHCP should provide the same unique IP address to each Windows NT Server computer when that Server initializes. DHCP should assign the IP addresses of the WINS Servers and DNS Servers to all DHCP clients.
Proposed solution: On each subnet, install the DHCP Relay Agent. For each Windows NT Server computer, create a client reservation. On one of the DHCP Servers, define a DHCP scope for each subnet. In each scope, define the IP address range available to that subnet. Assign half of the available IP addresses on each subnet to each scope. On the other DHCP Server, define a DHCP scope for each subnet. In each scope, define the IP address range available to that subnet. Assign the remaining half of the available IP addresses on each subnet to each scope. On the DHCP Servers, enable and configure the 44 WINS/NBNS Servers, and the 46 WINS/NBT Node Type options and the 006 DNS Server options.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result, but does not produce any of the optional desired results. D. The proposed solution does not produce the required result.
Answer A
9. Howard administers a TCP/IP network of Microsoft-based computers with six subnets. He wants to install two DHCP Servers, each on a separate subnet, that will automatically assign IP addresses to the host computers.
Required result: Each DHCP Server must act as a backup Server if the other DHCP Server is down.
Optional desired results: DHCP should provide the same unique IP address to each Windows NT Server computer when that Server initializes. DHCP should assign the IP addresses of the WINS Servers and DNS Servers to all DHCP clients.
Proposed solution: On each subnet, install the DHCP Relay Agent. On one of the DHCP Servers, define a DHCP scope for each subnet. In each scope, define the IP address range available to that subnet. Assign half of the available IP addresses on each subnet to each scope. On the other DHCP Server, define a DHCP scope for each subnet. In each scope, define the IP address range available to that subnet. Assign the remaining half of the available IP addresses on each subnet to each scope. On the DHCP Servers, enable and configure the 44 WINS/NBNS Servers, and the 46 WINS/NBT Node Type options and the 006 DNS Server options.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result, but does not produce any of the optional desired results. D. The proposed solution does not produce the required result.
Answer B (no client reservation for Server)
10. Howard administers a TCP/IP network of Microsoft-based computers with six subnets. He wants to install two DHCP Servers, each on a separate subnet, that will automatically assign IP addresses to the host computers.
Required result: Each DHCP Server must act as a backup Server if the other DHCP Server is down.
Optional desired results: DHCP should provide the same unique IP address to each Windows NT Server computer when that Server initializes. DHCP should assign the IP addresses of the WINS Servers and DNS Servers to all DHCP clients.
Proposed solution: On each subnet, install the DHCP Relay Agent. For each Windows NT Server computer, create a client reservation. On one of the DHCP Servers, define a DHCP scope for each subnet. In each scope, define the IP address range available to that subnet. For each scope, copy its IP address range to the other DHCP Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and one of the optional desired results. C. The proposed solution produces the required result, but does not produce any of the optional desired results. D. The proposed solution does not produce the required result.
Answer D (For one DHCP Server to properly act as a backup Server to another DHCP Server there can be no overlapping of IP addresses between respective scopes)
11. Karen wants to install a Windows NT Server computer with four network adapter cards on her TCP/IP network. This Server will act as a router.
Required result: The Server must route TCP/IP packets.
Optional desired results: The Server should dynamically update its routing tables when other routers are added to or removed from the network. The Server should provide IP addresses to every client computer on each subnet. The Server should send trap messages across the network to a UNIX Server.
Proposed solution: Assign one IP address to each network adapter card on the Server. Install WINS services on the Server. Install DHCP services on the Server. Create one scope for each subnet.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only two of the optional desired results. C. The proposed solution produces the required result and only one of the optional desired results. D. The proposed solution does not produce the required result. E. The proposed solution produces the required result but no optional desired results.
Answer D (does not route packets, update routing tables or send trap messages)
12. Karen wants to install a Windows NT Server computer with four network adapter cards on her TCP/IP network. This Server will act as a router.
Required result: The Server must route TCP/IP packets.
Optional desired results: The Server should dynamically update its routing tables when other routers are added to or removed from the network. The Server should provide IP addresses to every client computer on each subnet. The Server should send trap messages across the network to a UNIX Server.
Proposed solution: Assign one IP address to each network adapter card on the Server. Install WINS services on the Server. Enable IP forwarding on the Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only two of the optional desired results. C. The proposed solution produces the required result and only one of the optional desired results. D. The proposed solution does not produce the required result. E. The proposed solution produces the required result but no optional desired results.
Answer E
13. Karen wants to install a Windows NT Server computer with four network adapter cards on her TCP/IP network. This Server will act as a router.
Required result: The Server must route TCP/IP packets.
Optional desired results: The Server should dynamically update its routing tables when other routers are added to or removed from the network. The Server should provide IP addresses to every client computer on each subnet. The Server should send trap messages across the network to a UNIX Server.
Proposed solution: Assign one IP address to each network adapter card on the Server. Install DHCP services on the Server. Create one scope for each subnet. Enable IP forwarding on the Server. Enable RIP for IP.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only two of the optional desired results. C. The proposed solution produces the required result and only one of the optional desired results. D. The proposed solution does not produce the required result. E. The proposed solution produces the required result but no optional desired results.
Answer B (does not send trap messages)
14. Karen wants to install a Windows NT Server computer with four network adapter cards on her TCP/IP network. This Server will act as a router.
Required result: The Server must route TCP/IP packets.
Optional desired results: The Server should dynamically update its routing tables when other routers are added to or removed from the network. The Server should provide IP addresses to every client computer on each subnet. The Server should send trap messages across the network to a UNIX Server.
Proposed solution: Assign one IP address to each network adapter card on the Server. Install DHCP services on the Server. Create one scope for each subnet. Enable IP forwarding on the Server. Enable RIP for IP. Install SNMP service on the Server. Set-up SNMP to forward trap messages to the UNIX Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only two of the optional desired results. C. The proposed solution produces the required result and only one of the optional desired results. D. The proposed solution does not produce the required result. E. The proposed solution produces the required result but no optional desired results.
Answer A
15. Kate wants to install a Windows NT Server computer with four network adapter cards on her TCP/IP network. This Server will act as a router.
Required result: The Server must route TCP/IP packets.
Optional desired results: The Server should dynamically update its routing tables when other routers are added to or removed from the network. The Server should provide IP addresses to every client computer on each subnet. The Server should send trap messages across the network to a UNIX Server.
Proposed solution: Install TCP/IP on the Server. Assign one IP address to each network adapter card on the Server. Enable IP forwarding on the Server. Install and configure Point-to-Point Tunnelling. Install and configure DHCP relay agent on the new Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only two of the optional desired results. C. The proposed solution produces the required result and only one of the optional desired results. D. The proposed solution does not produce the required result. E. The proposed solution produces the required result but no optional desired results.
Answer D (In order to use a multi-homed computer to route TCP/IP with PPTP you must install RIP for IP)
16. Fred manages a network that is comprised of four Windows NT Server computers, 80 Windows NT Workstation computers, 100 Windows 95 computers and eleven UNIX computers. Because his company frequently reorganises, Fred often finds himself physically moving computers from one subnet to another. Only the UNIX computers never move. TCP/IP is the network's primary protocol. The UNIX computers have no hostnames that are longer than fifteen characters, and each hostname contains only alphanumeric characters. One of the Windows NT Server computers runs DHCP with one scope configured for each subnet. All of the Windows-based computers are set up as DHCP clients.
Required results: Every Windows-based computer on each subnet must be able to access the Windows NT Server computers by computer name. Every Windows-based computer on each subnet must also be able to receive its IP addresses from the DHCP Server.
Optional desired results:
All UNIX systems should access by hostname any Windows NT Server computer that is set up as an FTP Server. All Windows-based computers should access by hostname any UNIX computer that is set up as a Telnet or FTP Server.
Proposed solution: Set up the network routers to forward DHCP broadcasts to all subnets. Install a WINS Server on the network. Set up the DHCP Server to supply all DHCP clients with the IP address of the WINS Server. On the DHCP Server, exclude the IP addresses of the UNIX computers from the scopes. Create a client reservation for the IP address of the WINS Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer C
17. Fred manages a network that is comprised of four Windows NT Server computers, 80 Windows NT Workstation computers, 100 Windows 95 computers and eleven UNIX computers. Because his company frequently reorganises, Fred often finds himself physically moving computers from one subnet to another. Only the UNIX computers never move. TCP/IP is the network's primary protocol. The UNIX computers have no hostnames that are longer than fifteen characters, and each hostname contains only alphanumeric characters. One of the Windows NT Server computers runs DHCP with one scope configured for each subnet. All of the Windows-based computers are set up as DHCP clients.
Required results: Every Windows-based computer on each subnet must be able to access the Windows NT Server computers by computer name. Every Windows-based computer on each subnet must also be able to receive its IP addresses from the DHCP Server.
Optional desired results:
All UNIX systems should access by hostname any Windows NT Server computer that is set up as an FTP Server. All Windows-based computers should access by hostname any UNIX computer that is set up as a Telnet or FTP Server.
Proposed solution: Set up the network routers to forward DHCP broadcasts to all subnets. Install a WINS Server on the network. Set up the DHCP Server to supply all DHCP clients with the IP address of the WINS Server. On the DHCP Server, exclude the IP addresses of the UNIX computers from the scopes. Create a client reservation for the IP address of the WINS Server. On each one of the Windows machines create a HOSTS file with entries for all the UNIX machines.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer B (UNIX systems cannot access FTP Server)
18. Fred manages a network that is comprised of four Windows NT Server computers, 80 Windows NT Workstation computers, 100 Windows 95 computers and eleven UNIX computers. Because his company frequently reorganises, Fred often finds himself physically moving computers from one subnet to another. Only the UNIX computers never move. TCP/IP is the network's primary protocol. The UNIX computers have no hostnames that are longer than fifteen characters, and each hostname contains only alphanumeric characters. One of the Windows NT Server computers runs DHCP with one scope configured for each subnet. All of the Windows-based computers are set up as DHCP clients.
Required results: Every Windows-based computer on each subnet must be able to access the Windows NT Server computers by computer name. Every Windows-based computer on each subnet must also be able to receive its IP addresses from the DHCP Server.
Optional desired results:
All UNIX systems should access by hostname any Windows NT Server computer that is set up as an FTP Server. All Windows-based computers should access by hostname any UNIX computer that is set up as a Telnet or FTP Server.
Proposed solution: Set up the network routers to forward DHCP broadcasts to all subnets. Install a WINS Server on the network. Set up the DHCP Server to supply all DHCP clients with the IP address of the WINS Server. On the DHCP Server, exclude the IP addresses of the UNIX computers from the scopes. Create a client reservation for the IP address of the WINS Server. On the WINS Server make static mapping entries for the UNIX computers.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer B (UNIX systems cannot access FTP Server)
19. Fred manages a network that is comprised of four Windows NT Server computers, 80 Windows NT Workstation computers, 100 Windows 95 computers and eleven UNIX computers. Because his company frequently reorganises, Fred often finds himself physically moving computers from one subnet to another. Only the UNIX computers never move. TCP/IP is the network's primary protocol. The UNIX computers have no hostnames that are longer than fifteen characters, and each hostname contains only alphanumeric characters. One of the Windows NT Server computers runs DHCP with one scope configured for each subnet. All of the Windows-based computers are set up as DHCP clients.
Required results: Every Windows-based computer on each subnet must be able to access the Windows NT Server computers by computer name. Every Windows-based computer on each subnet must also be able to receive its IP addresses from the DHCP Server.
Optional desired results:
All UNIX systems should access by hostname any Windows NT Server computer that is set up as an FTP Server. All Windows-based computers should access by hostname any UNIX computer that is set up as a Telnet or FTP Server.
Proposed solution: Set up the network routers to forward DHCP broadcasts to all subnets. Install a WINS Server on the network. Set up the DHCP Server to supply all DHCP clients with the IP address of the WINS Server. On the DHCP Server, exclude the IP addresses of the UNIX computers from the scopes. Create a client reservation for the IP address of the WINS Server. Install DNS Server and let DHCP Server supply all the DHCP clients with the IP address of the DNS Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result and none of the optional desired results. D. The proposed solution does not produce the required result.
Answer A
20. You are setting up a new Server on your existing network. There are Windows NT, Windows 95, and UNIX machines on separate subnets. The Windows NT and Windows 95 machines move frequently between segments, but the UNIX machines stay put. Each UNIX hostname consists of no more than 15 characters
Required results: All Windows NT and Windows 95 machines get IP addresses assigned dynamically All Windows NT and Windows 95 machines can connect to NT Server resources via NetBIOS names
Optional Results: All UNIX machines can ftp the Server using host name All NT and 95 machines can Telnet and ftp to UNIX machines using host name Send traps to NT Server
Suggested Solution: Install WINS Server Install DHCP Relay Agent on the Server Create entries in the HOSTS file on all NT and Windows 95 machines for UNIX machines Install PPTP on the Server
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only two of the optional desired results. C. The proposed solution produces the required result and only one of the optional desired results. D. The proposed solution does not produce the required result. E. The proposed solution produces the required result but no optional desired results.
Answer D (No DHCP Server, only DHCP Relay agent)
21. A company with two separate offices, each with a single LAN consisting entirely of Windows NT Servers and workstations. More computers to be added next year. There is no WINS or DNS. You have connected a router between the offices to form a WAN. You have disabled NetBIOS broadcasts over the router.
Required result All users able to map shared directories using the command NET USE.
Optional results Minimise NetBIOS broadcasts across WAN Minimise administration related to NetBIOS resolution.
Proposed solution Create two DNS Servers using Windows NT Servers. Create a primary zone on one and a secondary zone on the other. Set up all clients to use the DNS Server.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result but no optional desired results. D. The proposed solution does not produce the required result.
Answer D (Need WINS).
22. Assume the following situation exists. You administer a network with 13,000 client machines split into 2 subnets. Each subnet has its own DHCP Server. Your network ID is 129.10.0.0 and your subnet mask is 255.255.192.0. Your company plans to merge with another company with 11,000 employees, all of whom have their own computers. You have to restructure the company as indicated below:
Required results: Configure the network to consist of 6 subnets with 4,000 hosts per subnet. All client computers are to receive their IP addresses dynamically.
Optional desired results: Leave room to grow to seven subnets if necessary. The Sales department uses laptops, and must be able to move between subnets and reconnect to the network from any location.
Proposed solution: Change the subnet mask to 255.255.224.0 Configure six DHCP scopes with a range of 4,000 leases each.
What result does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result but no optional desired results. D. The proposed solution does not produce the required result.
Answer D (The clients on the four new subnets will not be able to receive the IP addresses dynamically as they would not be able to connect to either of the DHCP Servers)
23. Assume the following situation exists. You administer a network with 13,000 client machines split into 2 subnets. Each subnet has its own DHCP Server. Your network ID is 129.10.0.0 and your subnet mask is 255.255.192.0. Your company plans to merge with another company with 11,000 employees, all of whom have their own computers. You have to restructure the company as indicated below:
Required results: Configure the network to consist of 6 subnets with 4,000 hosts per subnet. All client computers are to receive their IP addresses dynamically.
Optional desired results: Leave room to grow to seven subnets if necessary. The Sales department uses laptops, and must be able to move between subnets and reconnect to the network from any location.
Proposed solution: Change the subnet mask to 255.255.224.0 Configure six DHCP scopes with a range of 4,000 leases each. Add DHCP Relay Agents to all new subnets.
What result does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution produces the required result but no optional desired results. D. The proposed solution does not produce the required result.
Answer B (The subnet mask of 255.255.224.0 fails to meet the optional desired result to leave room to grow to seven subnets. It only allows six subnets)
24. Three Servers and 40 Windows NT Workstations are in one network. A router connects the network to an ISP. All PCs on network are DHCP, WINS and DNS clients. WINS and DNS Servers are global DHCP scope option. RAS Server has two modems.
Required: Remote client must be able to connect to shared resources on all computers on the network.
Optional: Data encrypted when transferred across dial-up connection. RAS must support two concurrent remote clients.
Proposal: Configure RAS to use a static address pool with two addresses for dial up networking clients. Enable multilink on RAS Server. Install PPTP on the RAS Server and on the dial up networking clients.
Which results does the proposed solution produce?
A. The proposed solution produces the required result and all of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution does not produce the required result. D. The proposed solution produces the required result but no optional desired results.
Answer D
25. Situation: You have three Windows NT 4.0 Servers, 40 NT 4.0 Workstations on a single network. A router connects the network to an ISP. All computers on your network are DHCP, WINS and DNS clients. WINS and DNS Servers are DHCP scope option. On one NT Server you have RAS with two modems installed.
Required result: Remote client must able to connect to shared resources on all computers on the company network.
Optional results: You want all data that is transferred across the dial-up connection to be encrypted. RAS must support two concurrent remote clients.
Proposed Solution: Configure RAS to use DHCP to assign remote clients address. Configure Dial-up networking clients to use a Server assigned IP address. Disable the Guest account on the RAS Server.
Which results does the proposed solution provide?
A. The proposed solution produces the required result and both of the optional desired results. B. The proposed solution produces the required result and only one of the optional desired results. C. The proposed solution does not produce the required result. D. The proposed solution produces the required result but no optional desired results.
Answer B
All the best everyone and good luck for the future.
Madmax MCP
[This message has been edited by Madmax (edited 07-18-2000).]
[This message has been edited by Madmax (edited 07-18-2000).] | |
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| In Hebrew we say:"KOL-HAKAVOD"!
it means something like "Way to go" or "Great job"...i thank you for this efort you made for all of us.
Thank you! | |
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| Hey,
That is one helluva compilation job.
I'm taking the exam within 10 days.
Thanks for your help and advice.
JLH |
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