EET315 Netwi -2019 Winter 4. Using Laplace Transform to calculate Vo(t) for the following circuit, and power supply V=10 volts; all the rest components (capacitor, resistor, inductor) are represe...
4- (10 points) In the following circuit, use Laplace Transform to find Vo(s). Consider the following initial conditions in the inductor and capacitor: V.(0) - IV, 10) - 1A Follow the following steps in your solution. a) Draw the equivalent circuit in the Laplace Domain taking into account the initial conditions, and using the parallel model (see below) b) Use CDR or VDR to find Vo(s). c) Leave your answer in the Laplace Domain simplifying Vo(s) as a ratio of...
Please do question 524 the power in watts dissipated by the resistor. Hamad Alrobayan ans:4 ource, resistor, 524) Given a series circuit consisting of a DC voltage capacitor, inductor, and switch which closes at t-o. All elements are initially uncharged. If v-1 volts, R-4 Ohms, C-1/10 Farads, and L-2 Henries. DO NOT determine current. Determine voltage across the INDUCTOR (VL(t)). Any inverse LT requires Stanley met Express any angle in radians. ans:4 Hamad Alrobayan 765 Given th vstem in Fig...
QUESTION 5 (25 marks) Using Laplace transform techniques, determine the current i, (t) through the inductor in the circuit shown in Figure 5. 202 + Vo w 5 exp(-2t)u(t) V 10 IF + 3u(-t) V + 0.5V 1Η io M Figure 5
1) Given the circuit below, with v(t) = 15 sin(377t - 10°) volts, R = 250, L = 30mH, and C = 60uF; answer the following: VRO) m vo 18 v.CO — volt) a. Determine: V, VR,V,Vc, and ī b. What is ZT? c. What is the power consumed by each component?
Consider the following circuit. a) Using any method you want, calculate Vo(t) given Vi(t) = u(t) for the following circuit and plot as a function of time. b) Calcualte Vo(t) when Vi(t) = e^(j2(pi)ft) and plot the magnitude ans phase as a function of f. pts) Q.1) Consider the following circuit. 2 H o,(t) 3 2 (15 pts) Using any method you want, calculate vo(t) given v(t)-u() for the following circuit and plot as a function of time. (15 pts)...
Question 4 (Marks: 15) A circuit you were using has been adjusted to provide a load across from the 300 resistor vo(t) with 6.154cos(10't + 70.26) Volts. Your variable power supply vi malfunctioned and blew the capacitor. To save your experiment, you must calculate the value of the capacitor in F and the amount of volts that your power supply provided (time-domain). You saved some readings from the experiment before it blew, namely: . V2 = 1.572cos(10-24.14) Volts V. =...
3. (35 pts) Consider a standard RLC circuit with a resistor R, inductor L and capacitor C all in series driven by a voltage source v(t). The voltage source gives pulses of 5 volts that last 1 msec every 10 msec, i.e. a square wave with period 10. We are interested in the output y(t) which is the current flowing through the circuit at time t. (a) Find a general expression for the frequency response H(jw) of this system (b)...
Exercise 3 An RLC circuit is made of a resistor, an inductor and a capacitor connected in series to a battery. The current I(t) in such a circuit satisfies the ODE LI"(t) + RI (1) + (t) = G(t) where L is the inductance (unit: henrys (H)), R is the resistance (unit: ohms (N2), C is the capacitance (unit: farads (F)), and G is the forcing term generated by an AC power (G is actually the derivative with respect to...
A circuit is constructed with an AC generator, a resistor, capacitor and inductor as shown. The generator voltage varies in time as ? =Va - Vb = ?msin?t, where ?m = 120 V and ? = 221 radians/second. The inductance L = 352 mH. The values for the capacitance C and the resistance R are unkown. What is known is that the current in the circuit leads the voltage across the generator by ? = 58 degrees and the average...
S2* (8 pts) In the circuit to the right, the DC source, V = 2 volts for all time. The switch has been open a long time. Also, the capacitor is charged to 1 volt, so ve(0-) =1. At t = 0, the switch closes. Assume: C = "4 F, = 1 H, R = 10 ohms. a) Find the current through the resistor for t> 0. (hint: at t= 0+, di/dt = .04 amps per second. *) Plot your...