1. Determine Vo, lo and Ix shown in the circuit in Figure 1. Vo 0 208...
R3 Problem 14 Find Vo and Ix for the circuit of Figure 14. Also determine the power delivered by each op amp Assume ideal op amps. Data: R1 Vs Ix ± Vcc= ± 15V R5
For the circuit shown in figure 1, determine the range of the output voltage Vo.
the circuit is figure 1 a) Consider the electrical circuit in Figure 1. Determine the state space representation of the circuit where the output is voltage across the capacitor. (6 marks) b) From result obtained in (a), predict the transfer function. (4 marks) [10 MARKS] 112 112 192 M + + vi(t) 1 H llll 1 H elle 1F HE vo(t)
(70pts) Figure out Vo and lo as the circuit shown below. Please show your works in details R1 1k R4 1k R5 1k ly R2 R3 1k 13 12 R6 I 1k
Find I, in the circuit Ix- 10 mA I, 2 mA 2. Determine Vo- & VI 12 kI
Problem 4 Using nodal analysis, determine Vo in the circuit. 20 ? 10? Ix 10? 20 ? 40 V 4 Lx
Determine the output voltage vo and the current labelled i0 in the circuit in Figure 1Determine the output voltage vo and the current labelled i0 in the circuit in Figure 1
2. H(s)Vo/v, for the circuit shown in Figure P9-12. 1 ΜΩ Figure P9-12 2. H(s)Vo/v, for the circuit shown in Figure P9-12. 1 ΜΩ Figure P9-12
For the circuit shown in Figure 1, determine (a) The transfer function H(s) Vo(s)/V(s) 1 (b). The impulse response h(t) given that R,-5Q, R2-2Q, L,-1 mH, and L2 = 2 mH Ri L R2 Figure 1.
Determine the gain Vo/Vs of the circuit shown below. Given Vs = 4V Rs1 = 712 RF1 = 112 Rs2 = 322 RF2 = 822 RF1 Rs1 RF2 w RS2 + + VO Vs 어