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Unformatted text preview: (b) (10pts)Determine the maximum power that can be transfered to the resistance R . Figure 2: Problem 2 Prepared by Dr. Jorge L. Aravena. Last revised on November 8, 2001 4 3. (25pts) For the circuit in ﬁgure 3, R = 3 k Ω ,b = 5 k Ω. Determine the Thevenin equivalent of the circuit at terminals AB . Figure 3: Problem 3 Prepared by Dr. Jorge L. Aravena. Last revised on November 8, 2001 5 4. (30pts) For the circuit in ﬁgure 4 use R = 10 k Ω ,I S =12mA. (a) (16pts)At terminals AB , determine the Thevenin equivalent voltage and Thevenin equivalent resistance ss functions of the constant g . (b) (8pts)If the circuit must provide power to a 5 k Ω resistor, determine the value of the constant g that maximizes the power transfered. (c) (6ptsFor the optimal value of g , determined above, determine the maximum power that can be transfered to the load resistance. R R x V x gV s I a b Figure 4: Problem 4...
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This note was uploaded on 12/01/2011 for the course EE 2120 taught by Professor Aravena during the Fall '08 term at LSU.
 Fall '08
 ARAVENA

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