6. Assume that at t-0 there is no current through the inductor and no voltage across...
The voltage of the capacitor vo(t) for t> 0 is known to be vo(t) = 9e-20 V. i1(0) = 5mA. (a) Find i(t) for t 20. (b) How much energy was initially stored in the inductor and capacitor? (c) How much energy was stored at t= in the inductor and capacitor? it) (0) i20 1110 H V.0) 10 kΩ Black box -T gmF
The current in a 200 mH inductor is į = 75 mA, t = 0; i = (B1 cos 200t + B2 sin 200t) e -50t A, t>0, where t is in seconds. The voltage across the inductor (passive sign convention) is 4.25 V at t = 0. Part A Calculate the power at the terminals of the inductor at t = 23 ms. Express your answer to three significant figures and include the appropriate units. MÅ ? p =...
The inductor current in the circuit shown in Figure is given by i(t)-5 + 11 e-4tA for t 2 0 Determine v(t) for t > O. 84 Ω 14H 84 Ω D10 A 84 Ω e-4t y for t20 2 Answer: v(t) -
The current in a 200 mH inductor is i=75 mA, t< 0; i= (B cos 200t + B, sin 2000) e -50t A, t>0, where t is in seconds. The voltage across the inductor (passive sign convention) is 4.25 V at t = 0. Part A Calculate the power at the terminals of the inductor at t = 24 ms Express your answer to three significant figures and include the appropriate units. μΑ ? p= Value Units Submit Request Answer...
Consider the following linear circuit. The capacitor voltage is +) 1, t<0 vc(t) = let, t > 0 Determine the total energy dissipated in the resistor for 0 <t<. Tu Circuit + Eu(t)
Chapter 14, Problem 14.18 For the network shown in the figure, find vo(t), t > 0, using mesh equations 2? 3 H 2 2u(t) A 2 Find Vo(t) att 1 s 4 the tolerance is +/-2%
(b) If R = 4solve and sketch the response of voltage, V(t) when t > 0. Next, obtain the current I flowing through the inductor in Figure Q3(b). [16 marks) t = 0 422 IH wm + + 24 V 0.25 F V(t) R Figure Q3(b)
Find i(t) for t>0 for the circuit in Fig. 16.37 Assume i(t)- [6(t) + 35(t)]mA 16.14 1Ω i(t) ist) ( 0.2 H 2Ω
In the circuit in the figure, the movement of the switch takes place at the time t= 0. Find the voltage value vo(t) for t> 0 using the Laplace transform. v.0) 812 312 I = 0 t = 0 12 V 6V
Problem: The current in and the voltage across a 5 Hinductor are known to be zero fort <= 0. The voltage across the inductor is given by the graph in fort >= 0. A. Write the expressions that describe the current i(t) in piece-wise linear representation in suitable intervals. Find the current in the inductor at t2 s. B. Derive the expressions for the inductor power and energy. Use the passive sign convention. Sketch the current, power and energy waveform...