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3.29 For the circuit in Fig. P3.29, calculate 11 and using PSPICE current division. MULTISIM Figure...
MULTISIM 6,20 The current shown in Fig. P6.20 is applied to a 250 m PSPICE capacitor....
MULTISIM 6,20 The current shown in Fig. P6.20 is applied to a 250 m PSPICE capacitor. The initial voltage on the capacitor is zero a) Find the charge on the capacitor at t = 30 us b) Find the voltage on the capacitor at t = 50 us. c) How much energy is stored in the capacitor by this current? Figure P6.20 i(mA) 400 5 10 20 30 40 50 -300
MULTISIM 4.36 a) Use the mesh-current method to find the branch PSPICE currents in, in, and...
MULTISIM 4.36 a) Use the mesh-current method to find the branch PSPICE currents in, in, and i, in the circuit in Fig. P4.36. b) Repeat (a) if the polarity of the 140 V source is reversed. Figure P4.36 7512 150 12 Ic 80 V in 182000 140 V 1252 250 12 w w
Homework #5 Problem 4.67 PSpice Multisim 11 of 14> Find the Thevenin equivalent with respect to...
Homework #5 Problem 4.67 PSpice Multisim 11 of 14> Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1〕if u-690 V。 12 A PartA Find the equivalent voltage Express your answer with the appropriate units TValue Units Submit Request Answer Part B Figure 1 of 1 Find the equivalent resistance. Express your answer with the appropriate units. 30 0 RThValue Units 8Ω 5.2 Ω Submit Request Answer 12 2 Provide Feedback Next>
Section 4.6 4.38 Solve Problem 4.17 using the mes 4.39 Use the mesh-current method to find...
Section 4.6 4.38 Solve Problem 4.17 using the mes 4.39 Use the mesh-current method to find the power PSPICE pated in the 15 Ω resistor in the circuit in Fig. P4.39. h-current method. dissi- MULTISIM Figure P4.39 4Ω 8 92 65 V 5Ω 6Ω 15 Ω
MULTISIM 10.65 The variable load resistor R¡ in the circuit shown in PSPICE Fig. P10.65 is...
MULTISIM 10.65 The variable load resistor R¡ in the circuit shown in PSPICE Fig. P10.65 is adjusted for maximum average power transfer to RL a) Find the maximum average power. b) What percentage of the average power devel- oped by the ideal voltage source is delivered to Rź when R is absorbing maximum average power? c) Test your solution by showing that the power developed by the ideal voltage source equals the power dissipated in the circuit. Figure P10.65 1212...
For Prob 9.5 9.47 In the circuit of Fig 9.54, determine the value of i,Cr If...
For Prob 9.5 9.47 In the circuit of Fig 9.54, determine the value of i,Cr If V.-8/30" V in the circuit of Fig. 959. find l," 9.52 2miH ら(n20 115 cos 2,000, v C Figure 9.59 For Prob. 9.52 Figure 9.54 For Prob. 9.47 9.53 Find I, in the circuit of Fig. 9.60 9.48 Given that v,(,) = 20 sin( 100,-40") in Fig. 9,55. determine i,) 4Ω ML 10 Ω 3052 , tn) ( 10Ω 160 430 V 8Ω Figure...
Problem 5.24 Design Problem | PSpice|Multisim The circuit in the figure is a noninverting summing amplifier....
Problem 5.24 Design Problem | PSpice|Multisim The circuit in the figure is a noninverting summing amplifier. Assume the op amp is ideal. Design the circuit so that v. = va + 2b + Suc (Figure 1) Part C Calculate ia when va=1.1 V, ub=0.2 V, and vc=1.2 V Express your answer with the appropriate units. Figure < 1 of 1 MA ? 100 k2 Value Units 20 KA2 .5 V Submit Previous Answers Request Answer + 1-5 V R 7.3...
solve for part a & b only 13.46 PSPICE MULTISIM The op amp in the circuit...
solve for part a & b only
13.46 PSPICE MULTISIM The op amp in the circuit shown in Fig. P13.460 is ideal. There is no energy stored in the circuit at the time it is energized. If v, = 20,000tu(t)V, find (a) V., (b) v,, (c) how long it takes to saturate the operational amplifier, and (d) how small the rate of increase in v, must be to prevent saturation. Figure P13.46 100 nF HE C2 1 k12 R2 5V...
Problem 5.36 PSpice|Multisim The signal voltage vg in the circuit shown in (Figure 1) is described...
Problem 5.36 PSpice|Multisim
The signal voltage vg in the circuit shown in
(Figure 1) is described by the following equations:
vg=0, t≤0,
vg=4cos(π4t)V,
0≤t≤∞.
Problem 5.36 PSpicelMultisim The signal voltage vg in the circuit shown in (Figure 1) is described by the following equations: v 0, t S0, va 4 cos T t V, 0 S t S oo. Figure 1 of 1 20 kn 60 kn 10V 1.8 km 100 V vo 5 kn 5.4 km Part A Choose...
11.10 The circuit shown in Fig. P11.10 uses a 12-V ac source to deliver power to...
11.10 The circuit shown in Fig. P11.10 uses a 12-V ac source to deliver power to an 8-Ω speaker. If the average power delivered to the speaker is 1.8 W at an audio frequency f= 1 kHz, what is the value of the coupling coefficient k? 4Ω 12 cos 2z/t (V) 3mH 12 mH 8Ω Figure P11.10: Circuit for Problem 11.10.
MULTISIM 6,20 The current shown in Fig. P6.20 is applied to a 250 m PSPICE capacitor. The initial voltage on the capacitor is zero a) Find the charge on the capacitor at t = 30 us b) Find the voltage on the capacitor at t = 50 us. c) How much energy is stored in the capacitor by this current? Figure P6.20 i(mA) 400 5 10 20 30 40 50 -300
MULTISIM 4.36 a) Use the mesh-current method to find the branch PSPICE currents in, in, and i, in the circuit in Fig. P4.36. b) Repeat (a) if the polarity of the 140 V source is reversed. Figure P4.36 7512 150 12 Ic 80 V in 182000 140 V 1252 250 12 w w
Homework #5 Problem 4.67 PSpice Multisim 11 of 14> Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1〕if u-690 V。 12 A PartA Find the equivalent voltage Express your answer with the appropriate units TValue Units Submit Request Answer Part B Figure 1 of 1 Find the equivalent resistance. Express your answer with the appropriate units. 30 0 RThValue Units 8Ω 5.2 Ω Submit Request Answer 12 2 Provide Feedback Next>
Section 4.6 4.38 Solve Problem 4.17 using the mes 4.39 Use the mesh-current method to find the power PSPICE pated in the 15 Ω resistor in the circuit in Fig. P4.39. h-current method. dissi- MULTISIM Figure P4.39 4Ω 8 92 65 V 5Ω 6Ω 15 Ω
MULTISIM 10.65 The variable load resistor R¡ in the circuit shown in PSPICE Fig. P10.65 is adjusted for maximum average power transfer to RL a) Find the maximum average power. b) What percentage of the average power devel- oped by the ideal voltage source is delivered to Rź when R is absorbing maximum average power? c) Test your solution by showing that the power developed by the ideal voltage source equals the power dissipated in the circuit. Figure P10.65 1212...
For Prob 9.5 9.47 In the circuit of Fig 9.54, determine the value of i,Cr If V.-8/30" V in the circuit of Fig. 959. find l," 9.52 2miH ら(n20 115 cos 2,000, v C Figure 9.59 For Prob. 9.52 Figure 9.54 For Prob. 9.47 9.53 Find I, in the circuit of Fig. 9.60 9.48 Given that v,(,) = 20 sin( 100,-40") in Fig. 9,55. determine i,) 4Ω ML 10 Ω 3052 , tn) ( 10Ω 160 430 V 8Ω Figure...
Problem 5.24 Design Problem | PSpice|Multisim The circuit in the figure is a noninverting summing amplifier. Assume the op amp is ideal. Design the circuit so that v. = va + 2b + Suc (Figure 1) Part C Calculate ia when va=1.1 V, ub=0.2 V, and vc=1.2 V Express your answer with the appropriate units. Figure < 1 of 1 MA ? 100 k2 Value Units 20 KA2 .5 V Submit Previous Answers Request Answer + 1-5 V R 7.3...
solve for part a & b only
13.46 PSPICE MULTISIM The op amp in the circuit shown in Fig. P13.460 is ideal. There is no energy stored in the circuit at the time it is energized. If v, = 20,000tu(t)V, find (a) V., (b) v,, (c) how long it takes to saturate the operational amplifier, and (d) how small the rate of increase in v, must be to prevent saturation. Figure P13.46 100 nF HE C2 1 k12 R2 5V...
Problem 5.36 PSpice|Multisim
The signal voltage vg in the circuit shown in
(Figure 1) is described by the following equations:
vg=0, t≤0,
vg=4cos(π4t)V,
0≤t≤∞.
Problem 5.36 PSpicelMultisim The signal voltage vg in the circuit shown in (Figure 1) is described by the following equations: v 0, t S0, va 4 cos T t V, 0 S t S oo. Figure 1 of 1 20 kn 60 kn 10V 1.8 km 100 V vo 5 kn 5.4 km Part A Choose...
11.10 The circuit shown in Fig. P11.10 uses a 12-V ac source to deliver power to an 8-Ω speaker. If the average power delivered to the speaker is 1.8 W at an audio frequency f= 1 kHz, what is the value of the coupling coefficient k? 4Ω 12 cos 2z/t (V) 3mH 12 mH 8Ω Figure P11.10: Circuit for Problem 11.10.
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