15.  For the equation below, name the slope and the y interc…

15.  For the equation below, name the slope and the y intercept.  Graph the line using the slope and y-intercepts.  Clearly mark your points. {6 pts.} y=-23x+4{“version”:”1.1″,”math”:”y=-23x+4″} a.  m = _____ b.  b = _____ c.  Graph (put graphing grid here)
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Consider the network topology diagram on the exam formula sh…

Consider the network topology diagram on the exam formula sheet that you printed out. The dotted lines indicate the ability to hear other nodes over the wireless link. For example, Node A can hear Nodes B, C, and D, but Node A cannot hear Nodes E, F, and G. The initial energy for each node before data is pulled is:Node A: 7.3mJNode B: 4.3mJNode C: 6.3mJNode D: 8mJNode E: 4.3mJNode F: 8.8mJNode G: 10mJAll nodes are already on and have already used the startup energy. Use the formula labeled “More Detailed Energy Consumption Model” on the formula sheet to do the energy calculations. Edecbits=10-7 J/b,   Rcode=2/3, Data packets=500 bits, control packets = 100 bits, R= 1Mbps and the MEDUSA-II transceiver parameters.Scenario: –Node G is the Sink Node and wants to pull data from source Node D. The Sink Node (Node G) has already set up the path D–>F–>E–> Sink (G).  Node D has an unlimited number of data packets to send.  Question: If flooding were used instead of a fixed path, which node will be the last Node to transmit, or retransmit, the last packet that successfully arrives at the Sink. Justify your answer in the “show you work” question that follows this question.
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