Q2. Determine lo, for the network using Loop analysis. (10) 4 mA 1 kn 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
Find Vo in the network in the figure using loop analysis. Find V. in the network in the figure using loop analysis. 6 ν(Ε) (14 mA 1 ΚΩ T + VO - –ΛΛΑ 2 ΚΩ 32 ΚΩ 31 ΚΩ ( 3 mA
Chapter 3, Problem 3.085 Find Vo in the network in the figure using loop analysis. 1 k12 2 mA 6 V t-
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
1. Find 10 in the network from following figure using superposition theorem only. 12 kn 120 6 mA 12 V 6 kn 6kn
2. Find to in the network below using loop analysis. 6k2 662 w 6 Ic + "6 Ib + 6 (Ia- Ic) = 0 In- Ia- SMA (IB - Ic) + 6Ib - GV + 6 (Ia - It) = 0 5 mA in 36ko 61B + 6 Ia=0 Ib - Ia = SMA 12 IB= 30mA IB= 2.5mA - Io
Solve for lo using any circuit analysis method. 1) 6 V 2 mA
Q2. (a)Figure Q2(a) shows the block diagram of a system network. Determine the (7 marks) closed-loop transfer function T(s) C(s)/R(s). Cts) Ris) + Figure Q2(a)
Chapter 12, Problem 12.011 Use nodal analysis to find I, in the network in the figure below. 4 mA 6 ma) 2 KN 7ko 6kΩ 4 mA) 8 kn | mA the tolerance is +/-2%
Find I in the circuit in the figure using mesh analysis. lo 4V (+ 2 mA 1 mA mA