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Q3.Calculate the current I by successive source transformation. 54 12 el 7 2or 40v 252 4ou...
I need answers only please I don't want many clarifications please Q3.Calculate the current I by successive source transformation. 54 12 2 7 2or 40V 252 4ou 7.5 A 4 your
Q2.Calculate the current I by superposition. 5A 122 2or 40v 252 'you 7.5 A tv You
i need q1 q2 q3 q4 please without anymistakes Q1.Calculate the current I by superposition. 44 Чл 3r 128v 16 1 3oi, - 5.2 Q2.Calculate the current I by superposition. 54 122 2011 400 2532 you 7.5 A Ҷол Q3.Calculate the current I by successive source transformation. 54 12.02 1 2012 400 252 40S 7.5 A V 402 Q4.Calculate the current I by successive source transformation IA 52 17e 2A بائی '1.52 34v
Q4.Calculate the current I by successive source transformation. ТА br 5r site 2A or 1.52 34V
3. Using source transformation, calculate the current I. 22 1217 612 NI
6. Referring to circuit below, use source transformation to determine the current and power absorbed by the 7-2 resistor. 7Q 6 Q ww ww. 5 A 6Q 4Q 12 V ww ww 6. Referring to circuit below, use source transformation to determine the current and power absorbed by the 7-2 resistor. 7Q 6 Q ww ww. 5 A 6Q 4Q 12 V ww ww
Use source transformation to find I, in the given circuit where V = 20 V. 12 192 w h 422 4.2 + V- { 32 V The current 1, in the given circuit is
Beta = 100 10 V IRE R3 Fig. 1: A current source and mirror circuits using npn BJTS Design the current source and mirror circuit in Fig. 1 such that IREF = 10 mA (13%) nominally. Use supply of Vcc = 10 V, and use an average value for ß that you found in your previous experiments or that from the datasheet. Find the value of R, that satisfies the design requirements. In your pre- lab, perform the following: 1....
2.5kr 3. (12 points) (a) Find the current i, using source transformations. (8 points) (b) Verify your solution using either nodal or mesh-current analysis. akoa 40kr 120v 84 mA Fboka 215kn 90kr ist ha ZKA
QUESTION 15 Calculate the current I E/ZT (in mA) in the series circuit shown. The source voltage E5 Vrms, the resistance is R-47 W , and the inductor reactance is XL = 33 W . (Enter your answer as the number of mA without the units.) 5 V RMS 350 Hz