1. The circuit with a load resistor element R1 to be inserted into the terminals A and B is given as below. R1 100 kN A 1.5 V R2 56 kN RL B a. Determine the value of a load resistor connected between terminals A and B in the Figure for maximum power transfer to the load resistor by apply ing Thevenin’s Theorem. b. Obtain the equation for power dissipated on the load resistor as a function of load resistor value R1 by applying any circuit analysis technique (Loop curent analysis, Node voltage analysis, etc.) c. Prepare a set of data Pz vs. R1 with the help of the equation obtained in the part b. Set 10 arbitrarily chosen value of R. which are less than the determined value of R1 in part a. and set 10 arbitrarily chosen value of R1 which are greater than the determined value of R1 in part a. In total, you will get a set of 21 data for PL vs. Rį including the value obtained from part a. d. Draw the PL vs. Ri graph by using your dataset constructed in part e. in order to determine graphically the value of R, for maximum power transfer to the resistor.

Hi, Can you please solve the question and make explanation step by step? Just C If necessary you can use excel matlab or multism and Please send me a screenshot of it. 

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1. The circuit with a load resistor element R1 to be inserted into the terminals A and B is given as below. R1 100 kN A 1.5 V R2 56 kN RL B a. Determine the value of a load resistor connected between terminals A and B in the Figure for maximum power transfer to the load resistor by apply ing Thevenin’s Theorem. b. Obtain the equation for power dissipated on the load resistor as a function of load resistor value R1 by applying any circuit analysis technique (Loop curent analysis, Node voltage analysis, etc.) c. Prepare a set of data Pz vs. R1 with the help of the equation obtained in the part b. Set 10 arbitrarily chosen value of R. which are less than the determined value of R1 in part a. and set 10 arbitrarily chosen value of R1 which are greater than the determined value of R1 in part a. In total, you will get a set of 21 data for PL vs. Rį including the value obtained from part a. d. Draw the Pi vs. R1 graph by using your dataset constructed in part c. in order to determine graphically the value of R1 for maximum power transfer to the resistor. Note: You can use Excel, Matlab, Multisim or any other software that you are familiar with during your homework study.