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Balanced pipe connection. Explain the features of the A and C ports. Calculate the reaction force/moment(s) at A and the tensile force in the cable.
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- For the coaxial line filled with two dielectric media as shown in figure below, a) Find the capacitance per unit length between the inner and outer conductors. b) Find the inductance per unit length between the inner and outer conductors, neglecting the internal inductance inside the metal. Radii of the coaxial material are a, b, and c, as shown in figure below. Permittivity and permeability of each dielectric are shown in figure below. Conductors Ho, 81 Ho, 82 Figure CoaxI, R, R, I2 R,- + + V, I3 Select all loop rules that apply to this circuit. SELECT ALL THAT APPLY A. 0 = -V +l½R2 – 1,R1 B. 0 = V2 – I3R3 – I½R2 – Vị C. 0 = 1,R1 – V2 – I3R3 D. 0 = -V – I½R2 + I,R1 E. 0 = -V2 – I3R3 + I½R2 + V1 F. 0 = 1,R, + V½ + I¿R3 G. 0 = -V, +I̟R2 + I,R1 H. 0 = V2 + I3R3 + I½R2 – V1 I. 0 = 1,R1 – V2 + I3R3 | J. 0 = -V – 1½R2 + I,R1 K. 0 = -V2 + I3R3 + I½R2 – V2 L. 0 = -,R1 – V2 – I3R3 wwAn inductance coil operates at 240 V and 60.0 Hz. It draws 15.7 A. What is the coil's inductance? Express your answer using three significant figures.
- For the circuit shown below, E = 20 V, L = 4.0 mH, and R_1 = R_2 = 5.0 Ω. After steady state is reached with S1 closed and S2 open, S2 is closed while simultaneously opening S1 (at t = 0). a. Determine the current through the inductor at t = 0. b. Determine the current through the inductor at t = 4.0 × 10^-4 s. c. Determine the voltages across the inductor and resistor R_2 at t = 4.0 × 10^-4 s.Problem 2A generator connected to a stationary bicycle is used as a power source.
- Assume the battery in Figure CQ20.12a is replaced by an ACsource and the switch is held closed. If held down, the metalring on top of the solenoid becomes hot. Why?Apply the loop rule to loop aedcba in the figure below. E₁ = 18 V 1+ b 94 R₂ 2.5 Ω a 12 h 1₁ R₁ 13 6.0 Ω 1+ 1₁ 0.5 Ω E2 = 45 V O (1₁R₂) + (1₂₁) - E₂ + (1₂R₂) = 0 ○ (1₁R₂) - (1₂¹₂) + E₂ + (1₂R₂) = 0 O (1₁R₂) + (1₂₂) - E₁ + (1₁R₂) = 0 1 O (I₁R₁) + (₂₁) - E₁ + (1₂R₂) = 0 12 0.5 Ω 13 2 e R3 1.5 ΩFor the circuit shown below, which of the following equations is Kirchoff's loop rule applied to the right loop circuit counterclockwise? 12 V + a. b. 4 Ω www 1₁ 13 202 15 V 4 Ω -15V + I₂(4₪) -I3(2N) = 0 12V + I₂(42) +I₁(42) +15V = 0 ○ c. d. e. None of these choices. 15V - 1₁(42) -I3(2N) = 0 12V + I₁(42) +I3(2N) = 0 + 12
- Don't use chatgpt will upvoteA microscope illuminator uses a transformer to step down the 120 V AC of the wall outlet to power a 12.0 V, 50 W microscope bulb.a. What is the resistance of the bulb filament?b. What is the rms current in the bulb filament?c. What is the rms current in the primary coil?Physics2(Electricity and Magnetism) Subjects: -Faraday’s Law -Inductance -Alternating-Current Circuits