Networking Chapter 6

Editor's Notes

• #7: Teaching Tip: The introduction to Chapter 6 runs beyond the cover page and includes the first two figures. This is a nice transition from the previous chapters, filled with facts to this chapter, also fact-filled, but packed with details on installing and troubleshooting a physical network. Inform the students that they will go beyond the neat and tidy “real-world” network shown in Figure 6.2 to inside telecommunications rooms, walls, and ceilings.
• #8: Teaching Tip While the Historical/Conceptual information is less than two pages, extending to the middle of Page 99, the first paragraph on Page 98 explains the scope of the CompTIA Network+ exam regarding designing and installing network cabling and other components. The hands-on ability to actually run cabling is more than is expected on the exam, but it will certainly give students a deeper understanding.
• #11: Teaching Tip Be sure to point out the Tech Tip on page 98, The Big Wireless Lie . Students new to networking may embrace the notion that wireless is the future and is more important than wired and they may have already asked questions about wireless at this point. This Tech Tip puts it in its place – for now. The significance (or lack) of wireless is reflected by how little of the Network+ objective list includes wireless topics. Assure students that they will learn about wireless networking in Chapter 16.
• #15: Teaching Tip If there is time, review the TIA/EIA 568 standards, per the Cross Check at the top of Page 99 before moving into the Test Specific content of the chapter. Also point out that students can explore the BICSI certifications (www.bicsi.org), as described in the Tech Tip on that page
• #16: Teaching Tip The Test Specific content begins here.
• #39: Teaching Tip Point out the fourth paragraph on Page 106 which explains that the TIA/EIA 568 specification only allows UTP cable lengths of 90 meters, although the standards for UTP previously studied have a maximum length of 100 meters. Make sure they understand that the “missing” 10 meters is to allow for the length added by the patch cables—both in the equipment room and in the work area.
• #88: Teaching Tip Summarize the section on Installing Structured Cabling by using the last paragraph on Page 121. This chapter does not prepare students for the highly skilled tasks required for installing structured cabling themselves. Rather, helps them gain an understanding of the process of installing structured cabling in order to work with most problems that come up in an installed structured cabling system.
• #95: Teaching Tip Discuss how to tell the difference between NICs because they look the same in some instances. The textbook does a good job of demonstrating this.
• #114: Teaching Tip Don’t overlook the BIOS Setup utility when troubleshooting a built-in NIC. Check to see that an onboard NIC is enabled. If it is enabled, then check for signs of failure. Seeing a lit indicator light on the port does not necessarily mean it is working. Dig around in the BIOS if the NIC is enabled, but does not appear to be working. Some BIOSs have an error log that may have captured the failure of the NIC. This confirms that you need to install a bus NIC in the computer to replace the failed built-in NIC.
• #117: Teaching Tip There is more than one way to detect the source of a problem. Point out the great real-world scenario on the bottom of page 128, in which they discovered that the manager of a building was turning off the power overnight. To detect this, they placed a voltage event recorder on a power outlet to track voltage over time. While it is a real cool use of a voltage event recorder, it is not the only way to discover that the server was shutting down every night. This is where a network tech needs to know a little secret about server operating systems: they all have log files. The network tech could have asked the server administrator to check out the log files on the server reporting that it was unable to connect to the Internet. Assuming there was no smart UPS to kick in with battery power, and communicate with the server when the power went off to initiate a controlled shutdown of the server, the System event log file would have shown no activity after the point in time when the power went off. The System event log file would have shown the server starting up in the morning, at which point an entry would have indicated that the last shutdown was abnormal (loss of power). That information alone may have been enough evidence that the power was turned off at night.