Part 1 Superposition Theorem (Applied to Current Levels) The first configuration to be analyzed using the superposition theorem nppears in Fig. 10.1. The currents , , and I will be determined by considering the effects of E and E and thea adding the resulting levels algebraically R 1.2kn R 3.3kO Caution: Be sure the de R 2.2k E E 15 Vsupplies have common 10 V ground. FIG. 10.1 (a) Determining the effects of E Construct the network of Fig. 10.2 and insert the measured value of each resistor Note that the supply E has been replaced by a short-circuit equivalent. This does nor mean that one should place a short-circuit across the terminals of the supply. Simply remove the supply from the network and replace it with a direction to ground as sbown in Fig. 10.2. Keep this ia mind for all similar operations throughout the laboratory session. Calculate the currents , and / using the measurcd resistor values and insert in Table 101. 3. For the network of Fig. 10.1, record the measured values of I,, , and for each source and for both sources from Table 10,1into Table 10.5. Then, using PSpice or Multisim, determine the currents for each source and for both sources and record the results in Table 10.5. TABLE 10.5 TPSpice or Muttisim) E, (PSpice or Multisim) E (Table 10.1) E, (PSpice or Multisim) (Table 10.1) (Table 10.2) Compare results for each source and for both sources. Try to explain any maior dif ferences. Attach all appropriate printouts.