Refer to the DC network of Figure 3. The following data is applicable on the components in the network: E1 = 224 V, E2 = 248 V, R1 = 12.4 ohm, R2 = 15.6 ohm and RLoad = 14.8 ohm %3D

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The following data is applicable on the
Refer to the DC network of Figure 3.
components in the network:
E1 = 224 V, E2 = 248 V, R1 = 12.4 ohm, R2 = 15.6 ohm and RLoad = 14.8 ohm
R1
Rioad
E,
Ez
Figure 3
Determine the following by using the Superposition Theorem:
If we just consider the voltage source E, with E2 short-circuited, determine the
following:
(a) The total resistance of the circuit in ohm.
(b) The total current (I1) flowing through R, in the circuit.
(c) The current (I3) flowing through the load resistor (RLoad).
If we just consider the voltage source E2 with E, short-circuited, determine the
following:
(d) The total resistance of the circuit in ohm.
(e) The total current (I2) flowing through R2 in the circuit.
The current (I3) flowing through the load resistor (RLoad).
(f)
Now we consider Figure 3, determine the following:
(g) The total current (I3) through the load resistor (RLoad).
wwwH
Transcribed Image Text:The following data is applicable on the Refer to the DC network of Figure 3. components in the network: E1 = 224 V, E2 = 248 V, R1 = 12.4 ohm, R2 = 15.6 ohm and RLoad = 14.8 ohm R1 Rioad E, Ez Figure 3 Determine the following by using the Superposition Theorem: If we just consider the voltage source E, with E2 short-circuited, determine the following: (a) The total resistance of the circuit in ohm. (b) The total current (I1) flowing through R, in the circuit. (c) The current (I3) flowing through the load resistor (RLoad). If we just consider the voltage source E2 with E, short-circuited, determine the following: (d) The total resistance of the circuit in ohm. (e) The total current (I2) flowing through R2 in the circuit. The current (I3) flowing through the load resistor (RLoad). (f) Now we consider Figure 3, determine the following: (g) The total current (I3) through the load resistor (RLoad). wwwH
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