In the given circuit switch S is closed at t = 0. Ratio of current through L₁, L₂ & L3 at steady state is : R R V (A) 1:1:1 (B) 1:1:2 L₁=L “ÞööbbőЖ 0000000 L₂=2L S L₂=3L
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A: Given ∈=26 VL = 4.8 mHR = 4.5 Ω
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Q: Consider the circuit shown. Before the switch is closed, both capacitors are uncharged. V = 12.0 V,…
A: V = 12 volts R1 = 90 Ω R2 = 30 Ω R3 = 60 Ω C1 = 5 × 10-⁶ F C2 = 3×10-⁶ F
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Q: In the circuit of the figure & = 1.70 kV, C = 9.50 µF. R = R2 = R3 = 0.750 MQ. With C completely…
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Q: In circuit shown below, ε = 6 V, L = 100 mH, R₁ = 3 k and R₂ = 2 k. What is the current through the…
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Q: Chapter 27, Problem 065 GO In the figure R₁ = 10.9 kN, R₂ 15.0 kN, C = 0.430 µF, and the ideal…
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Q: For the circuit shown in Fig. Q2(b), assuming the switch has been opened for a very long time, when…
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A: Given ε1=2V ε2=3V ε3=4V ε4=5VR1=3Ω R2=3Ω R3=1Ω R4=4Ω R5=5Ω
Q: Chapter 27, Problem 063 In the circuit of the figure 8 = 4.20 kV, C = 7.90 µF, R₁ = R₂ = R3 = 1.01…
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Q: A charged capacitor of C=67.0 µF is connected to a resistor of R=2.8 MQ as shown in the figure. The…
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Q: After the switch is turned off., the 12 (t) flow passing through its resistance is the function of…
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Q: Q5. In the circuit shown if the wire used was L-100 cm long, E=1.2 V, R-2 kn, R-3 kf, and the…
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Q: In the figure the ideal battery has emf g= 64 V. the resistances are R= 46 kQ and R2 = 11 kQ, and…
A: Given: Emf=E=64 V Resistances: R1=46 kΩR2=11 kΩ
Q: in the circuit shown in the figure, the S switch is closed at t=0 and the capasitors, which are…
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Q: The switch in figure has been open for a long time. It is closed at t = 0 s. What is the current…
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Q: For the circuit in the figure, at t = 0 the switch S is closed with the capacitor uncharged. If C =…
A: Given: At time t = 0 switch S is closed. Capacitance, C = 56×10-6F Resistance, R = 4×103 ohm Voltage…
Q: In the circuit of the figure below, R1 = 21 kQ, R2 = 53 kN, L = 82 mH, and the ideal battery has 8 =…
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Q: In the figure, E = 134 V, R₁ -8.500, R₂ = 17.60, R3 = 26.4 02, and L=2.14 H. Immediately after…
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Q: Q6. If the current, in the circuit shown beside, passes from point D to point C, then for the ratio…
A: in this question we can solve it by Wheatstone bridge.
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