Determine the current through the inductor, iL(t), in the circuit below. No energy is stored in the circuit prior to t = 0 seconds. The applied current input consists of a 12 A step input applied at t = 0. Solve also for iL(t) = t
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Determine the current through the inductor, iL(t), in the circuit below. No energy is stored in the circuit prior to t = 0 seconds. The applied current input consists of a 12 A step input applied at t = 0. Solve also for iL(t) = t
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- Help to solve the part (B) only.An RL circuit consists of a switch, an emf source E,, a 3.0 ka resistor, and a 1.0H inductor. If the potential across the resistor is 15.0 V 8.0 ms after the switch is closed, find the source emf, E..The switch S in the circuit has just been closed. Right after (at t= 0) the current shown is measured to be / = 6 A. Determine the induced voltage Vbs = V- Va in the inductor (in Volts) at !! this moment. S. 50 0 200 V 500 15 mH ww -ww0000
- Use the worked example above to help you solve this problem. An AC generator consists of eight turns of wire, each having area A = 0.0890 m², with a total resistance of 10.3. The loop rotates in a magnetic field of 0.445 T at a constant frequency of 63.5 Hz. (a) Find the maximum induced emf. V (b) What is the maximum induced current? A (c) Determine the induced emf and current as functions of time. E = ( V)sin(wt) I = ( A) sin(wt) W = (d) What maximum torque must be applied to keep the coil turning? N.m (Need Correct answer.In the figure ɛ = inductor is ideal. If the switch is closed for a long time, what is the current through the inductor. Give your answer in A. 10.0 V, R1 = 4.00 N, and R2 = 1.00 N. The OA elarak deten çok- veriiy Aincinden nedir. anra R1 S E- R2 L
- b. If a current of (0 + 2) A is applied to an inductor of (0 + 55) mH, find the energy stored in the inductor.Basic of electrical circuits A 5 μH inductor is driven by a current I (t) = 10 sin (2π 10t) mA. Calculate the power supplied to the inductor. ●In the circuit shown in the Figure with 3.0 mH for the inductance and 6.0 uF for the capacitance, S1 has been closed for a long enough time so that the current reads a steady 3.50 A. Suddenly, S2 is closed and S1 is opened at the same instant. What is the maximum charge that the capacitor will receive? What is the current in the inductor at this time? At an instant when the charge on the capacitor is 0.1 mC, what is the current in the inductor? At an instant when the charge on the capacitor is 0.1 mC, what is the rate at which the current in the inductor is changing?
- Question 1 A 8.50 µF capacitor is connected to a 8.00 mH inductor as shown in the circuit above. When the switch is closed, the current will begin to oscillate in the circuit. What is the frequency of oscillations?An LR circuit consists of an inductor with L = 2.5 x 10* H and a resistor with R 5.3 connected in series to an oscillating source of cmf. This source generates a voltage given by E= Emax Sin(@t) with E a) What is the maximum current in the circuit? b) What is the phase angle of the current? c) What is the average power dissipated in the resistor? %3D 0.40 V and w =6x 10* rad/s.An inductor has an inductance of 0.120 mH. Calculate the number of turns per unit length (meter) of this inductor if it has a total of 719 turns in it. The cross-sectional area of the solenoid is 2.83 cm². Take Ho = 4TT x 10-7 T.m/A. X Submit your answer after rounding off to zero decimal place. You are required to show your work in the file you submit.