Electric Circuits (10th Edition)
10th Edition
ISBN: 9780133760033
Author: James W. Nilsson, Susan Riedel
Publisher: PEARSON
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Chapter 2, Problem 33P
To determine
Calculate the values of
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Question 1 (25 marks)
Use constant-voltage-drop model to analyse the circuit in Figure 1.
(a) Re-draw the circuit by replacing each diode with its equivalent circuit.
(b) Calculate the values of li, 12, b and Is.
(c) Determine the voltage across R1, VR-
(5 marks)
(15 marks)
(5 marks)
Si R 3.3kQ
ΚΩ
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+ VR1
12
15
13
14
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R3
20V
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Si
12.2ΚΩ
R4
R₂
4.7 ΚΩ
5.1 ΚΩ
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Figure 1
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each of the following search strategies include,
(a) Initial (Arad)
(b) Goal.
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Section C
Chapter 2 Solutions
Electric Circuits (10th Edition)
Ch. 2.1 - Prob. 1APCh. 2.1 - For the circuit shown,
What value of α is required...Ch. 2.2 - For the circuit shown,
If υg = 1 kV and ig = 5 mA,...Ch. 2.2 - For the circuit shown,
If ig = 0.5 A and G = 50...Ch. 2.4 - Prob. 5APCh. 2.4 - Use Ohm’s law and Kirchhoff’s laws to find the...Ch. 2.4 - a)
The terminal voltage and terminal current were...Ch. 2.4 - Repeat Assessment Problem 2.7, but use the...Ch. 2.5 - Prob. 9APCh. 2.5 - The current iϕ in the circuit shown is 2 A....
Ch. 2 - Prob. 1PCh. 2 - If the interconnection in Fig. P2.4 is valid, find...Ch. 2 - Prob. 3PCh. 2 - If the interconnection in Fig. P2.3 is valid, find...Ch. 2 - Prob. 5PCh. 2 - Consider the interconnection shown in Fig....Ch. 2 - Consider the interconnection shown in Fig....Ch. 2 - Prob. 8PCh. 2 - If the interconnection in Fig. P2.8 is valid, find...Ch. 2 - Find the total power developed in the circuit in...Ch. 2 - For the circuit shown in Fig. P2.12
Figure...Ch. 2 - For the circuit shown in Fig. P2.11
Figure...Ch. 2 - A pair of automotive headlamps is connected to a...Ch. 2 - The terminal voltage and terminal current were...Ch. 2 - A variety of voltage source values were applied to...Ch. 2 - A variety of current source values were applied to...Ch. 2 - Prob. 17PCh. 2 - Given the circuit shown in Fig. P2.18, find
the...Ch. 2 - Find the currents i1 and i2 in the circuit in Fig....Ch. 2 - The current ix in the circuit shown in Fig. P2.21...Ch. 2 - The current ia in the circuit shown in Fig. P2.21...Ch. 2 - Prob. 22PCh. 2 - The variable resistor R in the circuit in Fig....Ch. 2 - Prob. 24PCh. 2 - Prob. 25PCh. 2 - The currents ia and ib in the circuit in Fig....Ch. 2 - Prob. 27PCh. 2 - Prob. 28PCh. 2 - The voltage and current were measured at the...Ch. 2 - Prob. 30PCh. 2 - Prob. 31PCh. 2 - For the circuit shown in Fig. P2.34, find υo and...Ch. 2 - For the circuit shown in Fig. P2.33, find υo and...Ch. 2 - Consider the circuit shown in Fig. P2.32.
Find...Ch. 2 - Prob. 35PCh. 2 - Prob. 36PCh. 2 - Find υ1 and υg in the circuit shown in Fig. P2.37...Ch. 2 - Derive Eq. 2.21. Hint: Use Eqs. (3) and (4) from...Ch. 2 - For the circuit shown in Fig. 2.24, R1 = 40 kΩ R2...Ch. 2 - Suppose you want to add a third radiator to your...Ch. 2 - Repeat Problem 2.41 using the wiring diagram shown...Ch. 2 - Repeat Problem 2.41 using the wiring diagram shown...Ch. 2 - Repeat Problem 2.41 using the wiring diagram shown...
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- control systemarrow_forward2.50. Let y[n] = x[n]* h[n]. Then show that x[nn] h[n-n₂] = y[n-n, -n₂] Hint: See Prob. 2.3. Show that no+N-1 = k=no x[n]x[n] x[k] x[nk] for an arbitrary starting point no. Hint: See Probs. 2.31 and 2.8.arrow_forward"2. In the following circuit R₁ = 2000, RL = 100k, n₁/n2 = 1/100, and vin (t) = 40 cos(wt)V, where w = 1000 rad/s: (a) Find the impedance Z₁. That is, the secondary impedance reflected to the primary. (b) Find the resistance seen by the source. (c) If Ry, is changed to 40k, find the value of n₁/n2 for maximum power transfer to RT. (d) Calculate the voltage in the primary and the secondary, V₂, and V, (where V, = Vout). (e) Calculate the currents I, and I, (primary and secondary)." vs(t) www R₁ 01:02 Z₁l ideal R₁ Voutarrow_forward
- "3. In the following circuit R₁ = 1500, R₂ = 6000, R₁ = 12k, n₁ n₂ = 1: 10, and Vin (t) = 5√2 cos(wt) V, where w = 2000π rad/s: (a) Find the impedance Z₁. (b) Find the phasor Vout (c) If Ry, is changed to 24k, find the value of n₁: n₂ for maximum power transfer." vs(t) ww R₁ R₂ 01:02 Z₁ ideal R₁> Voutarrow_forwardcontrol systemarrow_forwardG = X^4+X+1 M = X^9+X^8+X^6+X^4+X^3+X+1arrow_forward
- 2.52. The step response s(t) of a continuous-time LTI system is given by s(1) = [cos wol ]u(1) Find the impulse response h(t) of the system. Ans. h(t)=8(1) - wo[sin w₁t]u(t)arrow_forward2.48. Show that if y(t) = x(t)* h(t), then y' (t) = x' (1) * h(t) = x(t) * h'(t) Hint: Differentiate Eqs. (2.6) and (2.10) with respect to t. 2.49. Show that x(1) * 8'(t) = x(t) Hint: Use the result from Prob. 2.48 and Eq. (2.58).arrow_forward2.47. Compute the convolution sum y[n] = x[n]+h[n] of the following pairs of sequences: (a) x[n] = u[n], h[n] = 2"u[n] (b) x[n]=u[n]-u[n-N], h[n]=a"u[n], 0 < a <1 (c) x[n]=()"u[n], h[n] = 8[n] - 8[n-1]arrow_forward
- "4. The load impedance connected to the secondary winding of the ideal transformer in the following circuit consists of a resistance of 237.5m2 in series with an inductor of 125µH. If the sinusoidal voltage source v, is generating the voltage 2500 cos(400t) V, calculate the steady-state equations for: (a) 21. (b) v1. (c) i₂, and (d) v2." 08 0,255 mH 237,5 m2 10:1 01 - Ideal 02 125 pharrow_forward"1. Formulate the matrix system to find the voltages and currents of the transformer in the following circuit. Hint: Use KVL (Kirchhoff's Voltage Law) in each winding of the transformer and use the voltage and current relationships." RT www pNp Ns Rc Vp idealarrow_forward2.62. Write the input-output equation for the system shown in Fig. 2-34. Ans. 2y[n]-y[n-1] = 4x[n] + 2x[n-1] x[n] Unit delay Fig. 2-34 y[n] Σ + +arrow_forward
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