Find I, in the network in the figure. 5 11m 2 kn mA
4. Find I using Norton's theorem 1 kn 1 kΩ V + 2V 2 k2 12 V Answer: = 4mA 5. Use Thèvenin's theorem to find Va. 1000 6 kn 1 kn + 2 kΩS 2 kΩ 3 V 1 mA V Answer: V = V 6, Use Norton's theorem to find V Š1 k2 4000 2 kn 3 kn V3 kn 1 mA Answer: V= =1.4516V 4. Find I using Norton's theorem 1 kn 1 kΩ V + 2V...
Q2. Determine lo, for the network using Loop analysis. (10) 4 mA 1 kn 1 kn 6 mA 2 mA 1 kn
Q Compute Vo in the circuit using superposition. [CO: 05] 2 mA 12 V 2 kn 8 mA 3 kn 6kn 1 kn
7. (10 points) Find lo in the network using superposition . 2 mA 4 mA 7. (10 points) Find lo in the network using superposition . 2 mA 4 mA
Review Constants IA = 4 mA , VB = 7 V , Ic = 8 mA , R1 = 10 kN , R2 = 3 kN , R3 = 3 kN2 , and R4 = 9 k12 in the circuit shown. Part A Use a series of source transformations to find I.. R3 C: Å 1. = Value o O ? Units | To = Submit Request Answer Provide Feedback Next >
Problem 2 (3.104) Use both nodal and loop analyses to find lo. 1 kN} 1 kn B 2V, Žika 2 ma 2: 12v 1knižv
The MOS amplifier circuit below has Kn = 1.9 mA/V2 , ID = 0.4 mA and and λ = 0. a- Calculate the transconductance of this MOSFET. b- Find the voltage gain of this amplifier. 9V 5 kΩ 8. Ο υο 2 ΚΩ Μ || Ο, Ο 10 ΚΩ -9 V
2) For the circuit shown in Figure 2, find Vo using the node voltage method. kn kn Ma 0
Chapter 2, Problem 2.048 x Incorrect. Find I. in the network in the figure. 9 kn 10 mA 5 kn 8ko x 1.-13.569 ma the tolerance is +/-2%