For more assistance please use comment section.
1. Find Do(t) nd oolt) for t>0 in the network, assume the circuit was in steady...
(2) The circuit is at steady state for t<0. Find v(t) for t>0. Answer t=0 ZF Navt)14 T
Ouestion 1 (10%) The circuit shown in Fig. 1 is at steady state before t-0s. Determine v(t) and i(t) for>0. 3Ω 60 |(t) 12 u() 22 ) 12Ω Fig. 1
3. (25 pts) The circuit is at steady state before the switch closes. Determine the capacitor voltage, v(), for t> 0 2 Hin + )20 V 50 2 50 2
The circuit shown has been in opera neration for a long time. At t=0, the source voltage suddenly jumps to s to 250V. Find vo(t) for t >0. 8KO 160 mH 50 V 10 nF ()
For the circuit below, find the complete response i(t) for t>0. 25/82 ult) nooooo 40 mF →
pls answer! my last attempt :) Use the step-by-step method to find io(t) for t> 0 in the circuit in the figure below. 36 V 4 k2 4 k2 24 ko X . 341 500uF t = 0 34 22 i.lt) Please round all numbers to 3 significant digits. Click here to enter or edit your answer jo(t) = mA Use the step-by-step method to find io(t) for t > 0 in the circuit in the figure below. 200 uF...
Q4: The switch in the has been open a long time before closing at t=0. Find iz(t) for t>0. 2.5 k92 ina 262.5H 15V 2.5HF 9 mA
2. Assume steady-state conditions exist at 0. (a) Find the differential equation for it(t) for t> 0 for the circuit below (b) Find the form of the solution (c) Find the initial conditions (d) Evaluate the coefficients for the solution. 4A 7 A 3. Find the voltage across the capacitor as a function of time. 30Ω 4u(t) A + 5A 3 H 27
value: 10.00 points For the network shown in the given figure, find v(t) for t> 0. Assume L = 0.9 H. 592 692 20 V 2 A 1292 > 200 + v L The voltage v(t) = V for t>0. Hints References eBook & Resources Hint #1 Hint #2 Hint #3 Hint #4 Check my work
Problem 1 Assume that the circuit in Fig. 1 has reached steady state byt-0-. The switch is opened at t 0 1. Determine i(0+) and v(0+) dt 3. Find i(oo) and v(oo) 4. Write down i(t) for t>0 0.01F - 142 15 V 4? 1 H Figure 1