In the circuit below, determine: a) The transformed circuit in the Laplace domain b) Expression for...
2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b) Using Laplace transform techniques applied directly to the circuit (not applied to the differential equation found in problem 1), find iz(t), t > 0. No credit for time- domain techniques. IX V 40 + - 5+10u(t) 10 H 1/4 F 2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b) Using Laplace transform techniques applied directly to the...
6. (20) Transform the circuit below to phasor domain. Sketch and completely label the transformed circuit. Find the steady state value of i(t). (Hint: Find the current (I) in the phasor domain then convert it back to the time domain to find i(t).) 15 F 375mH 30 cos (377t-15°) V
Calculated i(t) from circuit is : apply the Laplace transform to the time-domain expression for the current i(t) to determine I(s). - R (+) Biological Tissue IDEAL JODA APPROX 100AA + Mathematical expression for current ilt) = 10,000 @ tato, 100MA lons @tato, 100uA ult-10ns) i for current ilt): ilt) = 10,000+ ult) - 10,000tult - 10x10-9) +100x10 bult-10x10 -9)
Problem #5 (20 points) For the circuit show below determine: a) The s-domain expression for V. b) The time-domain expression for v (t) for t> 0. 7Ω + 15u(t) A 311 0 .1F v
i need this explained clearly and neatly. thank you. like for the best answer. (50 pts.) For the circuit below the switch opens at t = 0. a. Transform the circuit into the Laplace Transform domain fort 20. b. Determine V. (s), the Laplace Transform of the voltage across the capacitor. VCCS) c. Determine (t), + 2 0 using Laplace Transform techniques only. Ін W tt Co?n şi 0.25 F 24 V EclH
8 H 2 Q iL Vs (t 22 1. vs (t) 2 V; this is a dc source. Solve using a simple circuit analysis method 2. Us (t) 2u (t) V; solve by writing and solving the differential equation for the circuit, as in Ch. 8. You = = 0 for t0. can assume that ir 2u (t) V; solve using the Thévenin method, as in Ch. 8. You can assume that i, = 0 for t< 0. 3. vg...
1. Determine the Laplace transform of the following signals e* .11(t) ; (b) g(t)=Icos(2) + sin(2t)j.u(1-3) ; (c) h(t)-t-e-21. cos(30.11(1) 2. Determine the Laplace transform of the non-periodic signal shown below: h(t) 0 1 2 3 4 t 3. Determine the Laplace transform of the periodic waveforms shown below: fa) f(t) 0 2T 4T 6T 8T 4. Determine the inverse Laplace transform of the following signals 2s (b) G)6s+12 H(s) =s.(14%) (a) F(s)-De (c) (2s +1)(s1 +5s +6 5. Using...
Problem 8. Provide the voltage equation for the circuit components below in the s-domain Laplace). PLEASE NOTE: Each answer should be in the form of V(s)-where the blank is the Laplace transform of the voltage equation for each element. a) R=20Ω c) L= 5m1H with 1,-10.1 d) C 10uF with VoOV e) C-5pF with Vo -10V 772 WI
Express the function below using window and step functions and compute its Laplace transform. 0, 0<t<3 2, 3<t<5 g(t) = 6, 5<t<8 4, 8<t Click here to view the table of Laplace transforms. Click here to view the table of properties of Laplace transforms. Express g(t) using window and step functions. Choose the correct answer below. O A. g(t) = 2ut - 3) + 6(t-5) + 4u(t-8) B. g(t) = 2113,5(t) + 6115,8(t) + 4u(t-8) O c. g(t) = 2113,5(t)...
dx dt 1. For the circuit below determine: a) The initial conditions: iz(0+), dix(0*), v(0+), dv(0+) b) The circuit differential equation and solve for iz(t), t 2 0 (No credit for Transform techniques) ix VI 102 422 + lo 5+10u(t) 10 H 1/4 F V