True/False
Indicate whether the
statement is true or false.
|
|
|
1.
|
Ring physical topologies are quite common.
|
|
|
2.
|
The logical topology describes the layout of the cabling, servers, and
nodes.
|
|
|
3.
|
The physical topology describes the layout of the cabling, servers, and
nodes.
|
|
|
4.
|
The physical topology describes the way the data travels from one computer to
another..
|
|
|
5.
|
The logical topology describes the way the data travels from one computer to
another..
|
|
|
6.
|
The bus topology is most common.
|
|
|
7.
|
A parallel backbone is the most fault tolerant of backbone setups
|
|
|
8.
|
The IP address 172.16.2.5 is a valid public IP address.
|
|
|
9.
|
The IP address 72.16.2.5 is a valid public IP address.
|
|
|
Image 4-5 
|
|
|
10.
|
The image in 4-5 shows the installation of NIC drivers in Windows XP.
|
|
|
11.
|
The logical topology describes the way the data travels from one computer to
another..
|
|
|
12.
|
VLANs are created on hubs
|
|
|
13.
|
A router can filter out broadcast transmissions.
|
|
|
14.
|
Routers have built in fault tolerance.
|
|
|
15.
|
One of the most important considerations in choosing media is cost.
|
|
|
16.
|
Fiber is always faster than copper.
|
|
|
17.
|
Multi mode fiber is faster because it allows multiple data streams to travel at
one time.
|
|
|
18.
|
Bounded is more secure because eavesdropping is more difficult.
|
|
|
19.
|
Copper is more secure than fiber because eavesdropping it quite easy in copper
cabling.
|
|
|
Lecture
|
|
|
20.
|
A WAN encompasses a limited geographical area.
|
|
|
21.
|
A network can be two computers that share a printer.
|
|
|
22.
|
A CAN covers a city and is often run by the city government.
|
|
|
23.
|
Protocols are rules for communication.
|
|
|
24.
|
A DHCP server is responsible for assigning static IP
addresses.
|
|
|
25.
|
A DHCP server must have a static IP address.
|
Modified True/False
Indicate
whether the statement is true or false. If false, change the identified word or phrase to make the
statement true.
|
|
|
26.
|
The statement below is either true or false. If the statement is true, select
true and do nothing else. If the statement is false, select false and type the word that would make
the statement true in the space given.
Example: In the statement "The sky is green"
the word "green" makes it false. I would select false and type the word "blue" in
the box below.
A DHCP listing is a range of addresses available for leases.
|
|
|
27.
|
The statement below is either true or false. If the
statement is true, select true and do nothing else. If the statement is false, select false and type
the word that would make the statement true in the space given.
Example: In the statement
"The sky is green" the word "green" makes it false. I would select false and type
the word "blue" in the box below.
The DNS service automatically assigns IP
addresses to computers on the network.
|
Multiple Choice
Identify the
choice that best completes the statement or answers the question.
|
|
|
28.
|
In Linux, what command allows you to create a directory?
|
|
|
29.
|
In Linux, what command allows you to move into a directory?
|
|
|
30.
|
In Linux, what command allows you to remove a directory?
|
|
|
31.
|
In the picture below, if node B goes down, what will happen?  a. | Communication can take place from D to C and from C to A
but not from A to D or A to C | b. | Communication can
take place from D to C and from D to A but not from C to A | c. | Communication can continue among all working nodes. | d. | Communication stops until the node is physically removed from the
network.. |
|
|
|
32.
|
ArcNet can use which topology?
|
|
|
33.
|
This is the part of a network that can be cables,
wires, wireless technology, or NIC. They allow a client to attach to a network.
a. | Connectivity devices | b. | Transmission media | c. | Protocols | d. | Resources |
|
|
|
34.
|
This contention based access method sends out data onto the medium. If a
collision occurs it stops sending data, waits a variable amount of time, and send the data
again.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
35.
|
This contention based access method listens to the cabling before sending out
data onto the medium.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
36.
|
This access method is used by Ethernet.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
37.
|
This access method is used by FDDI.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
38.
|
This access method is used by AppleTalk.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
39.
|
This access method sends around a special frame to
each computer. If a computer has data to send, it captures the special frame and sends the
data.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
40.
|
This access method is the most commonly used.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
41.
|
Node D did not return a reply to the beacon just
sent out by the active monitor. What is the next thing that will happen?
a. | Node D will be sent another beacon | b. | Node D will be removed from the network by the
MSAU. | c. | The network will cease functioning. | d. | Nothing |
|
|
|
42.
|
In the accompanying picture, Node A has a message for Node C. Which computers on
the network will read this frame?  a. | A and C | b. | C only | c. | AB and
C | d. | All of the computers on the network read the frame |
|
|
|
43.
|
Every node in a token ring network connects to a:
a. | MAUS | b. | MSAU | c. | Gateway | d. | Server |
|
|
|
44.
|
A token ring network uses a process called ____ in
order to ensure that all nodes on the network are communicating.
a. | Token passing | b. | Beaconing | c. | Frames | d. | Polling |
|
|
|
45.
|
The logical topology of a token ring network is
a:
|
|
|
46.
|
|
|
|
47.
|
|
|
|
48.
|
a. | Bus | b. | Ring | c. | Star | d. | Mesh | e. | Cascading
star |
|
|
|
49.
|
a. | Bus | b. | Ring | c. | Star | d. | Mesh | e. | Cascading
star |
|
|
|
50.
|
a. | Logical ring | b. | Physical ring | c. | Logical
star | d. | Logical ring in a physical star |
|
|
|
51.
|
a. | Bus | b. | Ring | c. | Star | d. | Mesh | e. | Cascading
star |
|
|
|
52.
|
Which of the following best describes an ARCNet network?
a. | ARCNet is an up and coming technology that is being seen more and more in businesses
today | b. | ARCNet is often seen in older non-profit businesses who have received donations of
equipment from companies. It is not state of the art. | c. | ARCNet is an extremely fault tolerant and fast
network that is easily upgradeable. | d. | ARCNet utilizes a physical ring topology and
contention based access method. |
|
|
|
53.
|
 This is what kind of network... a. | ad-hoc | c. | classic | b. | access point | d. | cascading star |
|
|
|
54.
|
 This is what kind of network... a. | ad-hoc | c. | classic | b. | access point | d. | cascading star |
|
|
|
55.
|
This is a LAN that uses boundless media for transmission.
|
|
|
56.
|
This was designed to improve the security of the security features that
weren’t quite up to snuff in the protocol that was developed for 802.11b security
|
|
|
57.
|
This type of backbone is cheap, and easy to manage and secure, but contains a
single point of failure.
a. | parallel | c. | backbone | b. | collapsed | d. | distributed |
|
|
|
58.
|
This type of backbone is the most fault tolerant due to redundancy in cabling.
a. | parallel | c. | backbone | b. | collapsed | d. | distributed |
|
|
|
59.
|
Woody Inc. has a large company with multiple LANs. They would like to change
their current backbone setup from a single point of failure to something secure, but more reliable.
Since budget is an issue, they want to limit expenditures.
You would suggest a:
a. | parallel | c. | backbone | b. | collapsed | d. | distributed |
|
|
|
60.
|
This toplogy is susceptible to signal bounce
|
|
|
61.
|
Which of the following standards uses a dual ring for fault
tolerance?
a. | 802.3 | c. | FDDI | b. | 802.5 | d. | 802.11b |
|
|
|
62.
|
Which of the following standards uses a single ring and token passing access
method?
a. | 802.3 | c. | FDDI | b. | 802.5 | d. | 802.11b |
|
|
|
63.
|
Uses CSMA/CA access method.
a. | 802.3 | c. | FDDI | b. | 802.5 | d. | 802.11b |
|
|
|
64.
|
The most common IP address scheme used today is:
|
|
|
65.
|
The net section of an IP address identifies
a. | The computer or node | c. | The network the computer belongs to | b. | The
router | d. | The domain the
computer belongs to |
|
|
|
66.
|
To make it easier on humans, IP addresses are typically written in what
formation?
a. | octal | c. | binary | b. | dotted decimal | d. | hexadecimal |
|
|
|
67.
|
The four numbers in an IP address are called:
a. | quintets | c. | quartets | b. | decimal notations | d. | octets |
|
|
|
68.
|
The value 0.0.0.0 is reserved for the _____ _____.
a. | default network | c. | local host | b. | broadcast network | d. | multicast
network |
|
|
|
69.
|
The class D IP addresses are reserved for the _____
a. | default network | c. | broadcast network | b. | multicast | d. | local host |
|
|
|
70.
|
The value 255.255.255.255 is reserved for the _____ _____.
a. | local host | c. | multicast network | b. | broadcast network | d. | default network |
|
|
|
71.
|
An ExpressCard card can run at up to what speeds?
a. | 250 MBps upstream, 150 MBps downstream | c. | 250 MBps in each
direction | b. | 150 MBps upstream, 150 MBps downstream | d. | 100 MBps in each
direction |
|
|
|
Figure 4-4 
|
|
|
72.
|
The images in 4-4 are all:
a. | NICs | c. | USB cards | b. | PCMCIA cards | d. | Wireless network
cards |
|
|
|
73.
|
The images in 4-4 are all:
a. | NICs | c. | USB cards | b. | PCMCIA cards | d. | Wireless network
cards |
|
|
|
74.
|
This access method is the most commonly used.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
75.
|
a. | Fiber optic | c. | UTP cable | b. | Coaxial cable | d. | STP cable |
|
|
|
76.
|
Which is more reliable?
|
|
|
77.
|
This can best be defined as the software that allows the computer to talk to the
network.
a. | Protocols | b. | Transmission media | c. | Control
panels | d. | Network operating system |
|
|
|
78.
|
This is described as the weakening of a signal the further it gets from its
transmission point.
a. | broadband | c. | attenuation | b. | bandwidth | d. | emi |
|
|
|
79.
|
This type of backbone is cheap, and easy to manage and secure, but contains a
single point of failure.
a. | parallel | c. | backbone | b. | collapsed | d. | distributed |
|
|
|
80.
|
You need to connect two servers that are located
600 meters apart. You require a direct connection without the use of signal regeneration. Which of
the following Ethernet standards would you employ?
a. | 10BaseT | c. | 10Base5 | b. | 100BaseT | d. | 100BaseFX |
|
|
|
81.
|
An ExpressCard card can run at up to what speeds?
a. | 250 MBps upstream, 150 MBps downstream | c. | 250 MBps in each
direction | b. | 150 MBps upstream, 150 MBps downstream | d. | 100 MBps in each
direction |
|
|
|
82.
|
What kind of BUS does an ExpressCard use?
a. | PCI | c. | PCMCIA | b. | ISA | d. | Integrated |
|
|
|
83.
|
The _________ port on a hub allows you to connect to another hub.
a. | downlink | c. | uplink | b. | data | d. | ring |
|
|
|
84.
|
Hubs can be used in what kind of network:
a. | Mesh | d. | Token Ring | b. | Star | e. | Any of these | c. | Cascading
Star |
|
|
|
Image 4-6 
|
|
|
85.
|
The image in 4-6 is a:
a. | hub | c. | NIC | b. | repeater | d. | Bridge |
|
|
|
86.
|
The image in 4-6 works best on what kind of network?
a. | BUS | c. | Cascading star | b. | Token ring | d. | Mesh |
|
|
|
87.
|
The bridge operates at what layer of the OSI model?
a. | Application | c. | Physical | b. | Data-link | d. | Network |
|
|
|
88.
|
This piece of hardware analyzes packets and makes decisions based on the MAC
address.
a. | Repeater | c. | Router | b. | Hub | d. | Bridge |
|
|
|
89.
|
This switching mode reads a frame’s header and whips it to the right port.
It’s main benefit is speed.
a. | Fragment free | c. | Store and forward | b. | Cut through | d. | Runt |
|
|
|
90.
|
This switching mode holds the entire frame in memory before forwarding
it.
a. | Fragment free | c. | Store and forward | b. | Cut through | d. | Runt |
|
|
|
91.
|
What is the minimum CPU speed required with Windows Server 2003 Standard
Edition?
a. | 64 MHz | c. | 550 MHz | b. | 133 MHz | d. | 733 MHz |
|
|
|
92.
|
_____ are periodic updates to the Windows Server 2003 operating system to fix
reported bugs and security issues.
a. | Service packs | c. | IRQs | b. | Hot fixes | d. | BIOSs |
|
|
|
93.
|
This can best be defined as the software that allows the computer to talk to the
network.
a. | Protocols | b. | Transmission media | c. | Control
panels | d. | Network operating system |
|
|
|
94.
|
This part of the network defines the "rules" for
communication.
a. | Protocols | b. | Transmission Media | c. | Connectivity
Devices | d. | Network operating system |
|
|
|
95.
|
This contention based access method sends out data onto the medium. If a
collision occurs it stops sending data, waits a variable amount of time, and send the data
again.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
96.
|
This contention based access method listens to the cabling before sending out
data onto the medium.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
97.
|
This access method asks each computer if it has data to send before allowing the
data to be sent.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing | e. | c and
d |
|
|
|
98.
|
This access method sends around a special frame to
each computer. If a computer has data to send, it captures the special frame and sends the
data.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
99.
|
This access method is the most commonly used.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token Passing |
|
|
|
100.
|
This contention based access method sends out a warning before it sends
data.
a. | CSMA/CA | b. | CSMA/CD | c. | Polling | d. | Token passing |
|
|
|
101.
|
This is interference caused by motors near bounded media.
a. | broadband | c. | attenuation | b. | bandwidth | d. | emi |
|
|
|
102.
|
Media that is physically attached from one device to another is known as:
a. | boundless | c. | boundary | b. | bounded | d. | binded |
|
|
|
103.
|
a. | Fiber optic | c. | UTP cable | b. | Coaxial cable | d. | STP cable |
|
|
|
104.
|
a. | Fiber optic | c. | UTP cable | b. | Coaxial cable | d. | STP cable |
|
|
|
105.
|
a. | Fiber optic | c. | UTP cable | b. | Coaxial cable | d. | STP cable |
|
|
|
106.
|
a. | Fiber optic | c. | UTP cable | b. | Coaxial cable | d. | STP cable |
|
|
|
107.
|
This can take the form of a broadcast message.
a. | simplex | c. | full duplex | b. | half duplex | d. | complex |
|
|
|
108.
|
In this communication, both computers can talk, but not at the same time.
a. | simplex | c. | full duplex | b. | half duplex | d. | complex |
|
|
|
109.
|
This is a wireless security protocol that was developed with 802.11b and
encrypts data for end to end protection.
|
|
|
110.
|
This is a LAN that uses boundless media for transmission.
|
|
|
111.
|
The original wireless LAN technology
a. | 802.11 | c. | 802.11b | b. | 802.11a | d. | 802.11g |
|
|
|
112.
|
Runs at 11 Mbps
a. | 802.11 | c. | 802.11b | b. | 802.11a | d. | 802.11g |
|
|
|
113.
|
Runs at up to 108 Mbps
a. | 802.11 | c. | 802.11b | b. | 802.11a | d. | 802.11g |
|
|
|
114.
|
This kind of LAN does NOT use token based access method.
a. | FDDI | c. | Token Ring | b. | Arcnet | d. | Ethernet |
|
|
|
115.
|
In a token ring network, what must a computer do before transmitting
data?
a. | Listen to the media | c. | Wait for the beaconing frame and capture it | b. | Capture a frame
called a token | d. | It sends
data out at random intervals and does not wait for anything |
|
|
|
116.
|
Which of these types of access methods will not cause a slow down in network
traffic?
a. | Token | c. | Polling | b. | CSMA/CD | d. | All of them can cause slow
downs |
|
|
|
117.
|
This kind of fiber uses one core to allow one beam of light to show through.
a. | Single mode | c. | Flashlight mode | b. | Multi mode | d. | Fiber mode |
|
|
|
118.
|
This kind of fiber uses a larger core that allows multiple beams of light to
show through.
a. | Single mode | c. | Flashlight mode | b. | Multi mode | d. | Fiber mode |
|
|
|
119.
|
a. | RJ45 | c. | IBM Data Connector | b. | RJ11 | d. | BNC |
|
|
|
120.
|
a. | RJ45 | c. | IBM Data Connector | b. | RJ11 | d. | BNC |
|
|
|
121.
|
 The image above represents which EIA/TIA
standard?
|
|
|
122.
|
In a crossover cable:
a. | Both ends are EIA/TIA 56B | c. | One end is B the other is
“crossed” | b. | Both ends are EIA/TIA 56A | d. | One end is A one end is
B |
|
|
|
Lecture
|
|
|
123.
|
This type of network is appropriate for a company with no more than ten
computers where security is not an issue.
a. | Peer to peer | b. | Client/Server |
|
|
|
124.
|
This type of network is appropriate if there are more than 10 computers, or if
security is a requirement.
a. | Peer to peer | b. | Client/Server |
|
|
|
125.
|
This is defined as a group of computers with clients and at least one server
sharing resources.
a. | Network | c. | Peer to peer | b. | Transmission media | d. | Protocol |
|
|
|
126.
|
Which requires more training for users?
a. | Peer to peer | b. | Client/Server |
|
|
|
127.
|
Which allows for centralized management of resources?
a. | Peer to peer | b. | Client/Server |
|
|
|
128.
|
This is a collection of computers in a limited geographical area (like a room or
small office).
|
|
|
129.
|
This is the part of a network that can be cables, wires, wireless technology, or
NIC. They allow a client to attach to a network.
a. | Connectivity devices | c. | Protocols | b. | Transmission media | d. | Resources |
|
|
|
130.
|
This part of the network defines the "Rules" for
communication.
a. | Transmission media | c. | Protocols | b. | Connectivity devices | d. | Client |
|
|
|
131.
|
This is the part of a network that connects clients and servers together. It is
not the cables, but may be a hub, router, bridge, or brouter.
a. | Transmission media | c. | Protocols | b. | Connectivity devices | d. | Client |
|
|
|
132.
|
This part of a network allows a user to access a server and its resources. It is
the computer the user uses.
a. | Transmission media | c. | Client | b. | Connectivity devices | d. | Server |
|
|
|
133.
|
This is good when you have less than 10 comptuers in a network and you have
users who are trainable.
a. | Domain | c. | Workgroup | b. | Client-Server | d. | All of the
above |
|
|
|
134.
|
Use this when security is an issue.
a. | Domain | c. | Workgroup | b. | Peer-to-Peer | d. | All of the
above |
|
|
|
135.
|
If the transport layer adds information to the header of a packet, the ___ layer
will read and strip off that information.
a. | physical | c. | transport | b. | session | d. | application |
|
|
|
136.
|
The first step of the DHCP process is the ___________ where
the computer finds a local DHCP server and requests an IP address.
a. | discover | b. | offer | c. | request | d. | acknowledge |
|
|
|
137.
|
The second step of the DHCP process is the ___________ where
the server responds back to the requesting machine and requests an acknowledgement.
a. | discover | b. | offer | c. | request | d. | acknowledge |
|
|
|
138.
|
The fourth step of the DHCP process is the ___________ where
the server responds with a broadcast that waits for the workstation to say "okay, send it on
baby". It then sends the package with the IP address.
a. | discover | b. | offer | c. | request | d. | acknowledge |
|
|
|
139.
|
The third step of the DHCP process is the ___________ where
the workstation tells all the servers that is accepted an offer from a server.
a. | discover | b. | offer | c. | request | d. | acknowledge |
|
|
|
140.
|
The range of IP addresses that the DHCP server can assign is
called a:
a. | Group | b. | Scope | c. | Range | d. | Service |
|
|
|
141.
|
Which of the following options is NOT configured with the
DHCP scope?
a. | The address of the router (or default
gateway) | b. | Subnet mask | c. | NetBEUI
server | d. | WINS server |
|
|
|
142.
|
A router that is RFC 1542 compliant can:
a. | offer IP addresses in place of a DHCP
server | b. | forward broadcast messages across
subnets | c. | advertise where DHCP servers hang out | d. | block broadcast requests |
|
Multiple Response
Identify one
or more choices that best complete the statement or answer the question.
|
|
|
143.
|
This new addressing scheme, known as ____ or ____, is the long-term solution to
the limitations of IPV4.
|
|
|
144.
|
Octets are split into two sections:
|
|
|
145.
|
Which of the following are workarounds that are used to address the problem of
running out of addresses in IPv4?
|
|
|
146.
|
The IP address of 169.254.3.5 would be:
(Choose three)
|
|
|
 Figure 5-4
|
|
|
147.
|
The graphic in 5-4 is known as a:
|
|
|
148.
|
The graphic in 5-4 is known as a:
|
|
|
Figure 4-1 
|
|
|
149.
|
The graphic in 4-1 is known as a:
|
|
|
Figure 4-2 
|
|
|
150.
|
The image in 4-1 is what kind of NIC?
|
|
|
151.
|
Which of the following is one of the jobs/features of a NIC?
|
|
|
152.
|
What factors determine what kind of NIC to use?
|
|
|
153.
|
What port(s) would you find on a repeater?
|
|
|
154.
|
Which of the following is a flavor of hub?
|
|
|
155.
|
Which of the following are features/jobs of bridges?
|
|
|
156.
|
Which of the following are benefits of using store-and-forward switching?
|
|
|
157.
|
Which of the following are accomplished by routers?
|
|
|
Image 4-12 
|
|
|
158.
|
In image 4-12, the devices circled are responsible for what?
|
|
|
159.
|
Which of the following would be considered different kinds of
gateways?
|
|
|
160.
|
Microsoft qualifier tools can be used to determine whether the current _____ is
compatible with Windows Server 2003.
|
|
|
161.
|
Which of the following defines resources which could be shared?
|
|
|
162.
|
The ___, ____, and ____ file formats are standards that the presentation layer
can translate on any computer.
|
|
|
163.
|
This would be a physical part of a network.
|
|
|
164.
|
This would be a logical part of a network.
|
Numeric Response
|
|
|
165.
|
The default subnet mask for a class B address is:
|
|
|
166.
|
The default subnet mask for a class C address is:
|
|
|
167.
|
The first four bits of a class D address are:
|
|
|
168.
|
| Required # of physical
segments | 12 | | Max # of hosts per
segment | 500 | | Network address | 191.32.0.0 | | Default subnet mask | 255.255.240.0 | | Proposed custom subnet mask | 255.255.11 | | Number of subnets supported | 14 | | Maximum
number of host IDs per subnet | 4094 | | Subnet
IDs (don’t include the invalid subnets) | | What is the last host address? | | |
Worth
5 points
|
|
|
169.
|
The default subnet mask for a class A address is:
|
|
|
170.
|
| Required # of physical
segments | 3 | | Max # of hosts per
segment | 4000 | | Network address | 142.25.0.0 | | Default subnet mask | 255.255.0.0 | | Proposed custom
subnet mask | 255.255.224.0 | | Number of
subnets supported | ?????? | | |
Worth
5 points
|
|
|
171.
|
| Required # of physical
segments | 12 | | Max # of hosts per
segment | 500 | | Network address | 191.32.0.0 | | Default subnet mask | 255.255.0.0 | | Proposed custom subnet mask | 255.255.240.0 | | Number of subnets supported | 14 | | Maximum
number of host IDs per subnet | 4094 | | Subnet
IDs (don’t include the invalid subnets) | | What is the first subnet ID? | | |
Worth
5 points
|
|
|
172.
|
| Required # of physical
segments | 12 | | Max # of hosts per
segment | 500 | | Network address | 191.32.0.0 | | Default subnet mask | 255.255.0.0 | | Proposed custom subnet mask | ???? | | |
Worth
5 points
|
|
|
173.
|
| Required # of physical
segments | 12 | | Max # of hosts per
segment | 500 | | Network address | 191.32.0.0 | | Default subnet mask | 255.255.0.0 | | Proposed custom subnet mask | 255.255.240.0 | | Number of subnets supported | 14 | | Maximum
number of host IDs per subnet | 4094 | | Subnet
IDs (don’t include the invalid subnets) | | What is the first host address? | | |
Worth
5 points
|
|
|
174.
|
| Required # of physical
segments | 2 | | Max # of hosts per
segment | 60 | | Network address | 199.32.18.0 | | Default subnet mask | 255.255.255.0 | | Proposed custom subnet mask | 255.255.255.192 | | Number of subnets supported | 2 | | Maximum
number of host IDs per subnet | ??????? | | |
Worth
5 points
|
Matching
|
|
|
|
|
|
175.
|
Permissions for the owner
|
|
|
176.
|
The group
|
|
|
177.
|
The last time the file was modified
|
|
|
178.
|
Name of the file
|
|
|
179.
|
Permissions for the group
|
|
|
180.
|
Number of links to the file
|
|
|
181.
|
The owner
|
|
|
Match the Address or Subnet to its class. a. | Class A | e. | Class
E | b. | Class B | f. | Broadcast | c. | Class C | g. | Default Network | d. | Class
D | h. | Loopback |
|
|
|
182.
|
122.56.45.251
|
|
|
183.
|
193.5.224.34
|
|
|
184.
|
255.255.255.0 is the default subnet mask for this class of addresses
|
|
|
185.
|
255.255.0.0 is the default subnet mask for this class of addresses
|
|
|
186.
|
15.26.85.56
|
|
|
187.
|
220.25.35.1
|
|
|
188.
|
255.255.255.255
|
|
|
189.
|
191.168.2.3
|
|
|
190.
|
Reserved for multicasts
|
|
|
191.
|
0.0.0.0
|
|
|
192.
|
Experimental address group
|
|
|
193.
|
45.85.169.22
|
|
|
194.
|
255.0.0.0 is the default subnet mask for this class of addresses
|
|
|
195.
|
127.0.0.1
|
|
|
What do each of the following lights on a NIC mean?
|
|
|
196.
|
NIC is functional
|
|
|
197.
|
If blinking the NIC is either sending or receiving data
|
|
|
198.
|
If blinking NIC is functional and transmitting frames
|
|
|
199.
|
If blinking, NIC is functional and receiving frames
|
|
|
Ethernet Matching
a. | 5-4-3 Rule | b. | CSMA/CD | c. | Polling | d. | 802.3 | e. | 802.5 | f. | Thinnet | g. | 10BaseT or 100BaseT | h. | Category 5 UTP
cabling | i. | 10Base5 | j. | 10BaseFL | k. | 100VG-AnyLAN |
|
|
|
200.
|
Slow but cheapest network cabling option.
|
|
|
Match the level of the OSI model with the descriptions below. a. | Application | e. | Network | b. | Presentation | f. | Data Link | c. | Session | g. | Physical | d. | Transport | h. | More than one
level |
|
|
|
201.
|
Describes the physical cabling and NICs.
|
|
|
202.
|
Interfaces with programs on the computer.
|
|
|
203.
|
Repeater and hubs
|
|
|
204.
|
Does not add or strip a header
|
|
|
205.
|
Primary function is to disassemble frames into bits for transmissions
|
|
|
206.
|
Deals with addressing on the MAC sublayer (aka the physical device address, or
the address of the NIC)
|
|
|
207.
|
Ensures reliable delivery of messages through error control and end to end flow
control
|
|
|
208.
|
Delivers packets through circuit switching or packet switching,
|
|
|
209.
|
gateway
|
|
|
210.
|
Opens, maintains, and closes a communication session
|
|
|
211.
|
router, brouter
|
|
|
Parts of a Network 
|
|
|
212.
|
Protocols
|
|
|
213.
|
Resource to share
|
|
|
214.
|
Clients
|
|
|
215.
|
Server
|
|
|
Match the parts of a network with their definitions.
a. | Protocol | e. | Server | b. | Transmission Media | f. | Clients | c. | Resources | g. | Network operating system | d. | Connectivity
devices |
|
|
|
216.
|
Software that allows a server to perform network operations.
|
|
|
217.
|
These can be files or directories or peripherals like printers, scanners, or
plotters
|
|
|
218.
|
A set of "rules" that allow communication to take place.
|
|
|
219.
|
Computers that access servers across a network and use resources.
|
|
|
220.
|
Can include NICs, cabling, wires, connectors, or wireless technology
|
|
|
221.
|
The computer(s) on a network that manage the network and resources.
|
|
|
222.
|
Hardware such as hubs, routers, brouters, or gateways that connect computers
together.
|
|
|
Match the level of the OSI model with the descriptions below. a. | Application | e. | Network | b. | Presentation | f. | Data Link | c. | Session | g. | Physical | d. | Transport | h. | More than one
level |
|
|
|
223.
|
Describes the physical cabling and NICs.
|
|
|
224.
|
Interfaces with programs on the computer.
|
|
|
225.
|
Does not add or strip a header
|
|
|
226.
|
Ensures reliable delivery of messages through error control and end to end flow
control
|
|
|
227.
|
Opens, maintains, and closes a communication session
|
|
|
228.
|
Advertises available services on the network
|
|
|
Parts of a Network 
|
|
|
229.
|
Protocols
|
|
|
230.
|
Resource to share
|
|
|
231.
|
Transmission media
|
|
|
232.
|
Clients
|
|
|
233.
|
Networking hardware
|
|
|
234.
|
Server
|
|
|
Match the description to the 802 committee where you would go for
information. a. | Setting up a wireless network | h. | General networking
standards | b. | Creating new hardware for an ethernet network that uses the CSMA/CD access
method | i. | Looking for
information on an older token based LAN that doesn’t use a ring topology | c. | Developing new token
ring technologies | j. | Your
company wants to move the phone system from POTS to integrating it into the ethernet
network | d. | Learning about new network security options available | k. | Learning about broadband | e. | Reading up on the
purpose of the LLC layer | l. | Designing new hardware to work with the cable system | f. | Developing hardware
to take advantage of fiber optics | m. | Defines protocols for setting up a high speed demand priority LAN | g. | Protocols in use on
a MAN |
|
|
|
235.
|
802.3
|
|
|
236.
|
802.5
|
|
|
237.
|
802.10
|
|
|
238.
|
802.11
|