Consider the circuit diagram below. The circuit supplies power to an unknown resistive load, L. (a) Determine the Thevenin equivalent circuit for the supply circuit. (b) Determine the Norton equivalent circuit for the supply circuit. (c) Use Ohm's law to verify that your results for (a) and (b) are consistent.

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 R ID =  630

Consider the circuit diagram below. The circuit supplies power to an unknown
resistive load, L.
(a) Determine the Thevenin equivalent circuit for the supply circuit.
(b) Determine the Norton equivalent circuit for the supply circuit.
(c) Use Ohm's law to verify that your results for (a) and (b) are consistent.
(d) What size of resistive load results in maximum power transfer?
(e) Suppose a resistor RIp is connected as a load to the Thevenin equivalent
circuit. The resistor RIp has a value, in Ohms, that is equal to the three
numerical digits of your NSID. For example, for an NSID of abc456, the
value of the resistor would be RID = 456 N. Compute both the power
dissipated in the load and the efficiency of the circuit.
R1
3 kn
R2
4 kN
ww
ww
E1
R3
1 kN
12 V
5 mA
R4
2 kn
ww
ww
Transcribed Image Text:Consider the circuit diagram below. The circuit supplies power to an unknown resistive load, L. (a) Determine the Thevenin equivalent circuit for the supply circuit. (b) Determine the Norton equivalent circuit for the supply circuit. (c) Use Ohm's law to verify that your results for (a) and (b) are consistent. (d) What size of resistive load results in maximum power transfer? (e) Suppose a resistor RIp is connected as a load to the Thevenin equivalent circuit. The resistor RIp has a value, in Ohms, that is equal to the three numerical digits of your NSID. For example, for an NSID of abc456, the value of the resistor would be RID = 456 N. Compute both the power dissipated in the load and the efficiency of the circuit. R1 3 kn R2 4 kN ww ww E1 R3 1 kN 12 V 5 mA R4 2 kn ww ww
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