Calculate v and i for the DC circuit of Figure 2 with the resistor values of Table 2 Calculate the power dissipated in each resistor and the power delivered by the DC Exercise: source Consider the two-terminal network of Figure 3. (The two-terminal network in that figure is the connected set of resistors R2, R3, and R4.) Using the resistor values of Table 2, calculate the equivalent load resistance Rj for this two-terminal network Calculate v and i for the circuit of Figure 4 with the R1 value of Table 2 and the Rj that you just calculated. Calculate the power dissipated in R1 and the power dissipated in Rf. Calculate the power delivered by the DC source R2 R3 R4 V 5 V Figure 2: DC circuit Two-terminal network R2 R1 + 5 V R3 R4 V Figure 3: Two-terminal network defined R1 + + 5 V V Figure 4: Equivalent load for DC circuit w

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Table 2: 

Resistor	Value
R1	3kOHM
R2	1kOHM
R3	2.5kOHM
R4	2.0kOHM

Transcribed Image Text:

Calculate v and i for the DC circuit of Figure 2 with the resistor values of Table 2 Calculate the power dissipated in each resistor and the power delivered by the DC Exercise: source Consider the two-terminal network of Figure 3. (The two-terminal network in that figure is the connected set of resistors R2, R3, and R4.) Using the resistor values of Table 2, calculate the equivalent load resistance Rj for this two-terminal network Calculate v and i for the circuit of Figure 4 with the R1 value of Table 2 and the Rj that you just calculated. Calculate the power dissipated in R1 and the power dissipated in Rf. Calculate the power delivered by the DC source

Transcribed Image Text:

R2 R3 R4 V 5 V Figure 2: DC circuit Two-terminal network R2 R1 + 5 V R3 R4 V Figure 3: Two-terminal network defined R1 + + 5 V V Figure 4: Equivalent load for DC circuit w