Determine the value of the current in the inductor for the time = 150 ms
Determine the value of the current in the inductor for the time = 150 ms2 t=0...
Determine the value of the current in the inductor for the time = 200msCO TI, t=0 2H 4 1) 2A 12
The current in a 150 μH inductor is known to be iL=25te−500tAfort≥0, where t is in seconds. Assume the passive sign convention. Find the power at the terminals of the inductor when t = 6.7 ms . Find the energy stored in the inductor at 6.7 ms . Find the maximum energy stored in the inductor. Find the time when maximum energy is stored in the inductor.
Determine the current through a 45.0 mH inductor, in A, at time t=64.8 ms, for the voltage across the inductor shown graphically: 1:0), V 2V V 0 1, ms 1, T; -V -2V where V=4.6 V T1=13,8 18 T2=28.6 ms T3=57.2 ms
4. Obtain equations for the inductor voltage vL(t) and the inductor current iL(t) for the circuit in Figure 4. Based on the equations, determine the final value of the inductor current and the initial value of the inductor voltage. Furthermore, utilize the voltage and current equations to obtain the values for vr(7) and iL(T). What fraction of its final value is iL(T)? What fraction of its initial value is vL(T)? 1 2 L1 2.2mH R1 V1 1kQ OV 5V swn1.54e-5s...
The current i through a 5.1 H inductor varies with time t as shown by the graph of the figure. The inductor has a resistance of 17 2. Find the magnitude of the induced emf ε during the time intervals (a) t = 0 to 2 ms; (b) 2 ms to 5 ms, and (c) 5 ms to 6 ms. (Ignore the behavior at the ends of the intervals.) 6 n 2 0 4 6 2 1 (ms) (a) Number...
Problem 6.1 PSpice Multisim PartA The current in a 150 H inductor is known to be i seconds. Assume the passive sign convention 25teA for t0, where t is in Find the voltage across the inductor fort>0 O 7.50e (1 500t mV O 3.75e 250t) mV O 7.50e-50"(1-250t) mV O 3.75e SKM (1- 500t) mV O 7.50e-00t) mV 3.75e(+500) mV O 7.50e 250t) mV Submit PartB Find the power at the terminals of the inductor when t 6.6 ms Express...
Chapter 30, Problem 046 The current i through a 6.5 H inductor varies with time t as shown by the graph of the figure. The inductor has a resistance of 14 2. Find the magnitude of the induced emf = during the time intervals (a) t = 0 to 2 ms; (b) 2 ms to 5 ms, and (c) 5 ms to 6 ms. (Ignore the behavior at the ends of the intervals.) 6 34 2 0 4 6 2...
200 402 W t=0 180 V i 3252 iL250 mH Given: The switch, which has been open for a very long time, is closed at t = 0. Required: Determine the initial inductor current, iLu, the steady-state inductor current, Lc, the time constant, T, in effect for t> 0 and the value of the inductor current at t= 3.75 ms. Solution: İLo = L2= A A TO ms IL (3.75 ms)= A
The current in a 6.00 mH-inductor varies in time as shown. Construct a graph of the self-induced emf across the inductor over the time interval t= 0 to t= 12.0 ms i (mA) 3 2 1 (ms) 2 4 6 8 10 12 -1 -2
The current in 5 mH inductor is periodic and triangular as shown below. a. Plot the inductor voltage vs. time (using the relationship that v(t) = L di/dt). b. Plot the instantaneous power vs. time. c. Determine the average power of the inductor (computed over the period of the waveform, 2 ms). i(t) 4 A 0 2 ms 3 ms 4 ms 1 ms