ENGINEERING CIRCUIT...(LL)>CUSTOM PKG.<
9th Edition
ISBN: 9781260540666
Author: Hayt
Publisher: MCG CUSTOM
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Chapter 6, Problem 14E
To determine
Derive an expression for
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Q5 For the network of Fig. 1.42; determine re, Avmid, Zi, Avsmid, and the low cutoff frequency.
Ans: 30.23 2; 0.983; 21.13 KS; 0.955; 193.16 Hz.
14V
+
Vs
1 ΚΩ
0.1 µF
Vi
120 ΚΩ
B-100
0.1 µF
o Vo
30 ΚΩ
32.2 ΚΩ
18.2 ΚΩ
Fig. 1.42 Circuit for Q5.
31
Q1) (a) State Biot-Savart's law
(b) The y- and z-axes, respectively, carry filamentary currents 10 A along ay
and 20 A along -az. Find H at (- 3, 4, 5).
Chapter 6 Solutions
ENGINEERING CIRCUIT...(LL)>CUSTOM PKG.<
Ch. 6.2 - Derive an expression for vout in terms of vin for...Ch. 6.2 - Prob. 2PCh. 6.3 - An historic bridge is showing signs of...Ch. 6.4 - Design a circuit that provides a 12 V output if a...Ch. 6.4 - Design a noninverting Schmitt trigger that that...Ch. 6.5 - Assuming a finite open-loop gain (A), a finite...Ch. 6.5 - Use SPICE to simulate a voltage follower using an...Ch. 6 - For the op amp circuit shown in Fig. 6.39,...Ch. 6 - FIGURE 6.39 Determine the power dissipated by a...Ch. 6 - For the circuit of Fig. 6.40, calculate vout if...
Ch. 6 - For the circuit in Fig. 6.40, find the values of...Ch. 6 - (a) Design a circuit which converts a voltage...Ch. 6 - Prob. 6ECh. 6 - For the circuit of Fig. 6.40, R1 = RL = 50 ....Ch. 6 - Prob. 8ECh. 6 - (a) Design a circuit using only a single op amp...Ch. 6 - Prob. 11ECh. 6 - Determine the output voltage v0 and the current...Ch. 6 - Prob. 13ECh. 6 - Prob. 14ECh. 6 - Prob. 15ECh. 6 - Prob. 16ECh. 6 - Consider the amplifier circuit shown in Fig. 6.46....Ch. 6 - Prob. 18ECh. 6 - Prob. 19ECh. 6 - Prob. 20ECh. 6 - Referring to Fig. 6.49, sketch vout as a function...Ch. 6 - Repeat Exercise 21 using a parameter sweep in...Ch. 6 - Obtain an expression for vout as labeled in the...Ch. 6 - Prob. 24ECh. 6 - Prob. 25ECh. 6 - Prob. 26ECh. 6 - Prob. 27ECh. 6 - Prob. 28ECh. 6 - Prob. 29ECh. 6 - Prob. 30ECh. 6 - Prob. 31ECh. 6 - Determine the value of Vout for the circuit in...Ch. 6 - Calculate V0 for the circuit in Fig. 6.55. FIGURE...Ch. 6 - Prob. 34ECh. 6 - The temperature alarm circuit in Fig. 6.56...Ch. 6 - Prob. 36ECh. 6 - For the circuit depicted in Fig. 6.57, sketch the...Ch. 6 - For the circuit depicted in Fig. 6.58, (a) sketch...Ch. 6 - For the circuit depicted in Fig. 6.59, sketch the...Ch. 6 - In digital logic applications, a +5 V signal...Ch. 6 - Using the temperature sensor in the circuit in...Ch. 6 - Examine the comparator Schmitt trigger circuit in...Ch. 6 - Design the circuit values for the single supply...Ch. 6 - For the instrumentation amplifier shown in Fig....Ch. 6 - A common application for instrumentation...Ch. 6 - (a) Employ the parameters listed in Table 6.3 for...Ch. 6 - Prob. 49ECh. 6 - For the circuit of Fig. 6.62, calculate the...Ch. 6 - Prob. 51ECh. 6 - FIGURE 6.63 (a) For the circuit of Fig. 6.63, if...Ch. 6 - The difference amplifier circuit in Fig. 6.32 has...Ch. 6 - Prob. 55ECh. 6 - Prob. 56ECh. 6 - Prob. 57ECh. 6 - Prob. 58ECh. 6 - Prob. 59ECh. 6 - Prob. 60ECh. 6 - A fountain outside a certain office building is...Ch. 6 - For the circuit of Fig. 6.44, let all resistor...
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- Q5) a) State Ampere's circuit law. b) In a certain conducting region, H = yz(x² + y²)ax - y²xzay + 4x²y²a, A/m. (a) Determine J at (5, 2, -3) (b) Find the current passing through x = -1, 0 < y, z <2 (c) Show that V⚫H=0arrow_forwardFig. 1.43 Circuit for Q6- Q7 For the network of Fig. 1.44: a-Determine fH; and fHo b- Find fg and fr. c- Sketch the frequency response for the high-frequency region using a Bode plot and determine the cutoff frequency. Ans: 277.89 KHz; 2.73 MHz; 895.56 KHz; 107.47 MHz. 14V Cw=5pF Cbc-12 pF Cwo-8pF Che=40. pF 5.6kQ C-8pF 68kQ 0.47µF ww 0.82 kQ V₁ 0.47uF AN B=120 3.3kQ 10ΚΩ 1.2k0 =20µF Fig. 1.44 Circuit for Q7.arrow_forwardQ3) An infinite long filamentary wire carries a current of 2A in the +z direction. calculate: (a)B at (-3,4,7) (b) the flux through the square loop described by 25 16,0 Sz≤4, 0=90°.arrow_forward
- Q3) An infinitely long conductor is bent into an L shape as shown in Figure below. If a direct current of 5 A flows in the current, find the magnetic field intensity at (2, 2, 0). 5 A 5 Aarrow_forwardEx. 1° let Ĥ = -y (x²+y^³) ax + x (x²+y"`) ây":" H 5 find J M total current Passing through Z=oplane with the rectangular -\-2<<2arrow_forwardQ) Given the magnetic field vector potential: A= y² za, +2(x+1)y z ay- (x+1) z² az (A/m), find: (1)magnetic flux density B, (2)magnetic field intensity H, (3) current density J and (4) the current passing through surface y = 1,0≤x≤1, 0 ≤z≤1.arrow_forward
- Q9 For the network of Fig. 1.46: a- Determine gmo and gm. b- Find A, and Ay, in the mid-frequency range. c- Determine fH; and fHo Ans: 3.33 mS; 1.91 mS; -4.39; -4.27; 1.84 MHz; 3.68 MHz. + 1.5 kQ 20V 3220ΚΩ 1µF 68kQ AN CwF4pF Co=8 pF Cwo=6pF Cgs=12pF 53.9ΚΩ Cds=3pF 6.8µF o Vo Dss=10mA Vp=-6V 15.6 ΚΩ 2.2k =10µF Fiarrow_forwardQs For the network of Fig. 1.45: a- Determine fH, and fHo b- Find fp and fr c- Sketch the frequency response for the high-frequency region using a Bode plot and determine the cutoff frequency. Ans: 2.87 MHz, 185.78 MHz, 1.05 MHz, 105 MHz. 14V CWF8pF Cwo-10pF Cbc-20 pF Cbe=30pF 120 ΚΩ Co=12pF 1 ΚΩ B-100 0.1 µF Vs 0.1 HF Z; Vo www 30 kQ 2.2 ΚΩ € 8.2 kQ Fig. 1.45 Circuit for Carrow_forward5 A Q4) A thin ring of radius 5 cm is placed on plane z = 1 cm so that its center is at (0,0,1 cm). If the ring carries 50 mA along a^, find H at (0,0,a).arrow_forward
- Q6) Find the current density J for the magnetic field intensity vectors: (a) H = x²ya, + y²zay - 2xza, (b) H = p²zap + p³a + 3pz²az sin cos (c) H = a, 2 +2arrow_forwardQ2) Line x = 0, y=0,0arrow_forwardQ4) Given the magnetic vector potential: A = y²z ax-(x + 1)z² az A/m Find(a) the magnetic flux density; (b)the magnetic flux through a square loop described by 0≤x≤1, 0 ≤ y ≤1, z=2.arrow_forwardarrow_back_iosSEE MORE QUESTIONSarrow_forward_ios
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