1. Find the power dissipated in the 3 kΩ resistor in the circuit in Figure 1. 750 Ω 192 V + 5 V 10 ΚΩ 2. Find i, (in microamperes) in the circuit in Figure 2. 3V/ 15 ΚΩ 3 ΚΩΤ Figure 1 6 ΚΩ www {3 ΚΩ Figure 2 5 ΚΩ www 5 ΚΩ ●+ 5V 25 ΚΩ '5 ΚΩ –5V ίξ4 ΚΩ
Q: 5. Solve for Vo 30 V 2 ΚΩ 20 V 5 ΚΩ 4 ΚΩ
A: E1= 30 V R1= 2 kohm E2= 20 V
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Q: 50 50 C1 = 5 µF C3 = 8 µF C2 = 4 µF E0 C5 = 4 µF C4 = 6 µF DURACELL VT = 12 V
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Q: The total conductance of the circuit shown in Fig. 8 is: 10 S2 www 2Ω ww 192 www Fig.8
A: From the given figure, R1 = 10 ΩR2 = 2 ΩR3 = 1 Ω
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Q: 3.1.5 Use nodal analysis to find Vo in the circuit in Fig. P3.1.5. 6 ΚΩ 3 ΚΩ ww 20 V | + + 12 ΚΩ ΣΤ…
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Q: Part C Find the unknown emf E. Express your answer in volts. E = Submit VE ΑΣΦ Request Answer ? V
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Q: 7. Calculate Currents on resistors 1, 2 and 3 respectively
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Q: 6. Determine the total power dissipated in the following circuit. M m R₂=22 R₁ =60 R₂=30 www R₂=8…
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Q: AV 133.0 V 24.0 V 65.0 2 Consider the circuit above where AV = 130 volts. If you travel around the…
A: V1 = 133 volts V2 = 24 volts ∆V = 130 volts R = 65 ohm
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Q: Determine the voltage drop across 362 and 18Ω. 162 542 80V V2 362 V1 182 |
A: Given:- The circuit Find:- The Voltage drop across the 360 ohms and 18-ohm resistance
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A: To determine: The resistance of the given circuits
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A: Net emf of batteries V = 4+2+7-6 = 7 volts Net resistance of circuit Req = 6+4+3+5 = 18 Ohm A)…
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A: I2 = 2 A I3 = 1 A ε1 = 21 V
Q: 2. Use the Kirchoff's Laws for the Circuit R₂ 10 0 25 02 220 V L R₂ m 150 R₁300 R₂ w 35 0 ww R₂ 600…
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Q: power
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Q: 24.0 V 12.0 V + I Μ R₁ 4.00 Ω 13 3.00 Ω 5.00 Ω Μ R₂
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Q: In the circuit shown in (Figure 1), assume that I₁ = 3.55 A and I2 = 5.90 A. Find the current in…
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Q: 3. Solve for il and 12 |3A 25 Ω 5Ω 10Ω 12V ΖΩ
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Q: 2. Solve the total capacitance of the circuit below a. 0.30 µF 10 μ 2.5 µF : 2.5 μF 10 μ C0.30 µF b.…
A: 2. a. The total capacitance of the circuit is Ceq=C3C1+C2C1+C2+C3=0.30 μF10 μF+2.5 μF10 μF+2.5…
Q: potential difference
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