n=32 n=last two digit of your id m=0.7*n Problem 1 For the circuit shown below ....
Emergency please!!!! Last two numbers digit: 11 1) (35 pts) In this problem the last two digits of your student number will be important. Let n, be a number equal to the last digit of your student number, na be a number equal to the last two digits of your student number. That is, if the last two digits of your student number is 83 then, n = 3, n2 = 83. Consider the predator-prey equations: dx =ax - bxy...
Question 2: For the circuit below: 0.5 F C1 120 R1 2H m L1 V HC R2 R3 V1+ 10V 120 100 a. Find V1(s), ZR1(s), ZR2(s), ZR3(), ZL1(s), ZC1(s) b. Redraw the circuit in the S-Domain Perform Nodal Analysis and give the equation for the voltage at node V C.
142 ?? 1 2 10 cos Volt I H In the above circuit, v(0)7 V for all pacitors, and i (0)4 A a) Draw the qual circuit is S-domain considering the initial conditions. b) find V2(s) and then V(t) using nodal analysis.
1. RLC Circuits Revisited. The first example of a RLC circuit illustrates the use of circuit elements in the s domain to represent initial conditions and a forced response. Next an example of sinusoidal excitation will follow where the transient response and steady state response are combined into one response waveform.. Transient RLC Circuit with Initial Conditions. Consider the RLC circuit below in Figure 7.14 which has two DC sources (Vco and V) applied before and after a switch is...
An object has an initial negative velocity of your last digit of the university ID +1) m/s. If it has a positive acceleration of 0.075 m/s2, how will velocity be immediately affected? 00 Select one: a. Velocity will decrease b. Velocity will increase O C. Velocity will be constant d. Velocity will either increase or decrease
Circuit Analysis in the s-Domain 15.3. The initial voltage across the capacitor in the circuit shown in Figure P15.3 is v(0) 1 V, and the initial current through the inductor is i(0)0 mA Find the voltage vo (t) across the capacitor for t 2 0 Figure P15.3 50 mH 1 kS2 V. Volt) T 0.1 μF The circuit in the s-domain is shown below. R2 Va 1k 0.05s 1/(sC)-1e7/s Vo R1 2k V (0-ys 5/s 1/s 1 format long; 2...
Q6: In the circuit shown in Figure-6, assume the initial conditions, i0-0 and v(0)-0.The input, Vin is a step voltage of 5V at t20. (i Draw the Laplace Transformed circuit of the network at t20. (i Find Laplace function, Vou s). (iii) Solve for Vourt) [61 2? 4? Vin-5u(t) 0.2F 0.5H v out Figure-6 4
3. Natural response, for ? > 0 of a series R-L-C circuit has R = 1 Ω , L = 1 H and C = 1 F. The initial capacitor voltage is 4 V, and initial inductor current is zero. The series current is i. (i) Draw the time domain circuit. (ii) Draw the Laplace transform domain circuit. (iii) From (ii), determine Io =Io (s) (iv) From (iii), determine ?? = ??(?) for t > 0
The diode in the circuit below has a saturation current Is-10-13 A and n=1. Its ID-VD curve is illustrated below for your convenience. Problem 2 a) Using the graphical method, determine the value of R that would result in a diode current Ip -4mA. What is the resulting voltage Vp? b) With R as calculated above, a sinusoidal signal v, 100 sin(cot) mV is superimposed on the DC source. Draw the small signal model and find the output voltage across...
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...