A 5.50 nF capacitor is charged to 12.0 V, then disconnected from the power supply and connected in series through a coil. The period of oscillation of the circuit is then measured to be 8.60 x 10-5 s. For related problemsolving tips and strategies, you may want to view a Video Tutor Solution of An oscillating circuit. Part C Calculate the total energy of the circuit. Express your answer with the appropriate units. ΜΑ 7 0 ? U = Value Units Submit Request Answer Part D Calculate the maximum current in the circuit. Express your answer with the appropriate units. D ΜΑ 7 0 ? Imax = Value Units Submit Request Answer
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- mylabmastering.pearson.com/?courseld=12649908&key=140171644883017936312024#/ mand A series RLC circuit consists of a 65 resistor, a 0.12 H inductor, and a 25 uF capacitor. It is attached to a 120 V/60 Hz power line. Part A What is the peak current I at this frequency? Express your answer with the appropriate units. ▸ View Available Hint(s) I= Value Submit Part B HÅ ? Units What is the phase angle ? Express your answer in degrees. ▸ View Available Hint(s) ΜΕ ΑΣΦ Submit Part C What is the average power loss? Express your answer with the appropriate units. ▸ View Available Hint(s) AA cell FB # $ % & 2 3 4 5 6 7 8 W E R T Y U 9 S D F G H J K X C V B B N M 40 19 F10 о P { commandPart A A charged capacitor with C = 640 µF is connected in parallel to an inductor that has L = 0.450 H and negligible resistance. At an instant when the current in the inductor is i = 1.80 A , the current is increasing at a rate of di/dt = 89.0 A/s. During the current oscillations, what is the maximum voltage across the capacitor? Express your answer to three significant figures and include the appropriate units. ? HA Vmax = Value Units Submit Request AnswerPart A What is the reactance of a 7.00 μF capacitor at a frequency of 60.0 Hz ? Xc = Submit Part B Xc = ΠΑΣΦ Submit Request Answer What is the reactance of a 7.00 μF capacitor at a frequency of 2.00 MHz ? 195 ΑΣΦ Ć Request Answer ? Ω [9] ? Ω
- Please box answers for DPart A In an L-C circuit, C = 3.19 µF and L = 87.0 mH. During the oscillations the maximum current in the inductor is 0.855 mA You may want to review (Pages 1004 - 1008) What is the maximum charge on the capacitor? For related problemsolving tips and strategies, you may want to view a Video Tutor Solution of An oscillating circuit. ΠΠ ΑΣφ. ? Qmaz = C Submit Request Answer Part B What is the magnitude of the charge on the capacitor at an instant when the current in the inductor has magnitude 0.491 mA ? Πνο ΑΣφ. q = Submit Request AnswerThe primary coil of a transformer has N1 = 4.25 x 102 turns, and its secondary coil has N2 = 1.28 x 103 turns. If the input voltage across the primary coil is Av = (190 V) sin wt, what rms voltage is developed across the secondary coil? 572.23 Your response differs from the correct answer by more than 10%. Double check your calculations. V
- An AC circuit has a purely capacitive load. If the amplitude of the EMF is 10.27 V with a frequency of 193.3 Hz, the capacitance is 73.2 UF, and the driving voltage is initially zero. What is the current in the capacitor after 0.732 s? A Save for Later Submit AnswerA 4.87-uF and an 9.74-uF capacitor are connected in series to a 60.0-Hz generator operating with an rms voltage of 112 V. Part A What is the rms current supplied by the generator? ? Ims A Submit Request Answer Provide FeedbackPart A A 300 N resistor is connected in series with a 80 mH inductor. The voltage across the resistor is VR = (1.20 V) cos (2500 rad/s)t. Find the amplitude of the voltage across the inductor. Express your answer with the appropriate units. HA ? VL = Value Units Submit Request Answer Part B What should multiply the amplitude to obtain an expression for the instantaneous voltage VL across the inductor? sin (2500 rad/s)t sin (2500 rad/s)t cos (2500 rad/s)t cos (2500 rad/s)t Submit Request Answer
- A 0.200 H inductor is connected in series with a 88 resistor and an ac source. The voltage across the inductor is VL = (12.5V) sin [(490rad/s)t]. Part A Derive an expression for the voltage VR across the resistor. Express your answer in terms of the variables L, R, V₁ (amplitude of the voltage across the inductor), w, and t. V— ΑΣΦ ? 480rad UR=(11.229) Cos SAn electric doorbell uses an electromagnet to pull on a steel hammer that rings the bell. The electromagnet has inductance 65.0 mH and resistance 6.36 N (meaning you can treat it as an LR circuit with the inductance in series with the resistance). It operates from a 6.00-V source. Part A How long does it take for the current in the electromagnet to reach 0.650 A? Express your answer with the appropriate units. HA t = Value Units Submit Request AnswerE The alternating current in an electric inductor is I = Z where E is voltage and Z= R + X₁ iis impedance. If E = 6( cos 20° + i sin 20°), R = 8, and X₁ = 2, find the current. The current is (Type your answer in the form a + bi. Round to the nearest hundredth as needed.)