The six nodes represent the points on the circle where traffic enters and exits . The given numbe...
The six nodes represent the points on the circle where traffic enters and exits . The given numbers show the number of cars expected to enter/exit per hour, on the average. (This is called the traffic density.) The y,'s (for i-1:6) are the unknowns, representing the traffic density (cars/hour) flowing on the various arcs of the circle; note that all traffic on the circle must flow in the counter-clockwise direction 70 100 y, 130 -90 y. 130 2. Starting with the node on the upper right of the circle as node #1, label the other nodes (#2:#6) moving in the clockwise direction. Then write the corresponding KCL" equations3 for each of the nodes, with the y, variables in order) on the left- hand side of the equation and the constants on the right-hand side Node #1 : Node #2 Node #3 Node #4 Node #5 Node #6
The six nodes represent the points on the circle where traffic enters and exits . The given numbers show the number of cars expected to enter/exit per hour, on the average. (This is called the traffic density.) The y,'s (for i-1:6) are the unknowns, representing the traffic density (cars/hour) flowing on the various arcs of the circle; note that all traffic on the circle must flow in the counter-clockwise direction 70 100 y, 130 -90 y. 130 2. Starting with the node on the upper right of the circle as node #1, label the other nodes (#2:#6) moving in the clockwise direction. Then write the corresponding KCL" equations3 for each of the nodes, with the y, variables in order) on the left- hand side of the equation and the constants on the right-hand side Node #1 : Node #2 Node #3 Node #4 Node #5 Node #6