Pick two question from the following list to drive your two posting in part 1
o What is bandwidth in terms of telecommunications?
o Why is the theoretical limit on the speed of a traditional telephone modem in the neighborhood of 28.8-56K?
o What is the baud rate of a 1200baud modem, 2400bps modem, 56k bps modem?
o What is the difference between baud and bit rate?
o Why do cable modems, FIOS, or DSL not have to comply with the limit above for telephone modems?
o Why is bandwidth a consideration in an educational setting? Give examples.
o What is the Digital Divide and how is it tied to the question above on bandwidth?
o If the Digital Divide exists, should educators be worried about it? How does it impact your school or classroom?
o How much bandwidth to the Internet does your school have? What is it being used for? Do you have extra bandwidth? If so, what would you use the extra bandwidth to do in your class?
o How does bandwidth impact the selection for tools that could be used in a distance education program? Give examples.
o Which has more bandwidth? A DVD (assume it is 4.2G storage) mailed to a student or a student having access to a 56Kbps dialup (assume that it is 33Kbps throughput) for 20 hours? Provide your math solution and explain how you figured it. Why might you use one media delivery over the other?
· Post to the forum the following information
o How do geosync satellites work
o Provide details about transmission times, bandwidth, speed, and other details you can find
· From these postings on satellite communications and the materials provided in the book, be prepared to answer the following question on the quiz
o Calculate how long in seconds a (full duplex) computer connection would take to echo back from an mainframe in Honolulu (to Dallas) if the connection was
a) undersea cable vs.
b) geostationary satellite.