Consider the following closed loop system U(s) K Find the closed loop characteristic equation s+1 s² -2s+2 Y(s)
Q: Q5 Two parallel plates 25 cm by 35 cm receive a charge of 0.2 μC from a 250V supply. Calculate (a)…
A: Given data, Dimension of plate 25 cm by 35 cm Charge Q=2 μC =2×10-6 C
Q: a current element J.dv is measured in terms of
A: given current element J.dv
Q: can i see the solution?
A:
Q: Under dc conditions, find v in Volts. Give only the numeric value.
A: The required parameter can be calculated by using the voltage divider bias. In DC conditions the…
Q: Find the Transfer Function of the system modeled by the follo d²y(t) dt² dy(t) dt d³ y(t) dt3 +3-…
A: Given data, Differential equation is given as, d3ytdt3+3d2ytdt2+2dytdt=d2xtdt2+3xt
Q: Example 3.1 Consider a 40% efficient heat engine operating between a large, high-temperature…
A: We have got an heat engine operating between a large with, High Temperature(TH) = 1000 k Cold…
Q: image
A: (a) An uncharged capacitor acts like a short circuit. So, all current goes through 10Ω resistor…
Q: ) A four-pole synchronous generator is spinning at a mechanical speed of 1500 r/min. What is the…
A: It is given that: p=4 Ns=1500 rpm
Q: balanced 3-phase delta-connected load consumes a total power of 100 kW at a pf of 0.6 lag, the line…
A: Given, Load is 3 phase delta connected so, VL=Vph VL=1000V PT=100kW cosϕ=0.6 lag
Q: Determine the voltages 1 and 2 of the network in Fig. by nodal analysis, ΤΩ 1 2 3 ΤΑ {2Ω Μ 202 ΣΙΩ 2…
A: Given: Circuit diagram
Q: image
A: Given data: A cylindrical wire specifications are given below. ρ=2.15×10-7 Ω-ml=1 mr= 0.100…
Q: 22. This is the product of an applied force in a certain area of fluid. a. energy b. work c. power…
A: Force: Force is a physical quantity that can change the motion of an object. It is denoted by 'F'.…
Q: V1 30 V Resistor 40 Ω 1 2 Capacitor 15μF Resistor 792
A:
Q: The voltages across two series-connected circuit elements are v1 =50 cos wt V and v2 = 30 cos (wt…
A:
Q: 16. Two loads with different power factor are connected with the source through a transmission line…
A: The question is about source current and source voltage. It is ac circuit so source current is…
Q: Q2. An angle modulated signal with a sinusoidal carrier 100 cos 2n fet and a sinusoidal message with…
A: It is given that: An angle modulated signal with a sinusoidal carrier 100cos2πfctfrequency…
Q: Hello, I was wondering how it could be either a buck or a boost considering the output voltage is…
A: There are three types of converters, Buck converter Boost converter Buck-boost converter
Q: 11. Pulse code modulation is preferred to PAM because of ______________. 12. Most FDM telemetry…
A: Pulse code modulation is preferred to PAM because of ______________.12. Most FDM telemetry systems…
Q: 9.1 Given the following transfer function for H(s), the damping coefficient was adjusted until is w…
A: In this question we will find settling time for given system....
Q: Diiferentiate open loop system and close loop system
A: The desired output in an open loop system is independent of the control action, which is one of the…
Q: In a synchronous generator, a DC current is applied to the rotor winding List two advantages of this…
A: Synchronous generator:- A synchronous generator is a device that uses electromagnetic induction to…
Q: Find the wave amplitude for p(x, t) = 10e-0.02x cos(200πt – 20x - at x = 100m and t = 0. Select one:…
A: Given data, Wave, px,t=10e-0.02xcos200πt-20x
Q: (a) Design an op-amp circuit that givens an output, V₁ = 7/3 * sin (x) - 3/5 * x² where the input…
A:
Q: A 500 MVA synchronous machine has H, = 5.6 MJ/MVA and a 1200 MVA machine has H₂ = 2.0 MJ/MVA. The…
A:
Q: 2.. plot. > Given the following transfer function for K. G(s)H(s), how many branches will be in the…
A:
Q: 5.3 Compute V, in the circuit in Fig. E5.3 using superposition. www 3 ΚΩ Figure E5.3 12v (+) 4 ΚΩ 2…
A:
Q: 3. A discrete source transmits messages x1, x2 and x3 with the probabilities 0.35, 0.25, 0.4. The…
A:
Q: Compute V
A:
Q: B) 6 pole alternator running at 1000 r.p.m. supplies an 8 pole induction motor. What is the actual…
A:
Q: 9. An alternating current and a direct current flow simultaneously in the same conductor. If the…
A: Given data, DC current Idc=11 A Effective value of Alternating current that is RMS current IAC=5 A
Q: Answer the given problems. Submit your solution in pdf form. Activity no. 3. Combination of…
A:
Q: c) A linear sensor-transmitter is used in the flow control loop. The current transmitter output is…
A: Given parameters: For the calibrated Linear output flow sensor, Current output at 5 m3/hr flowrate =…
Q: A full Wave rectifier shown in the circuit has 120V (rms) 50 Hz input through a transformer. RL = 2k…
A: Given: Input at primary of transformer, Vprms=120 V RL=2 kΩ
Q: Determine I2 in series-parallel circuit below.
A: It is given that:
Q: • 1. Determine the total impedance a NIVE 160/20°V jsn m rized 5 the total current. 85 rution…
A: Given:
Q: Delta modulation uses a) One b) Two c) Four d) Eight bits per sample.
A:
Q: This is the capacity to do work, equivalent to the work done per time. a. energy b. work done c.…
A: Answer: power Explanation: a. It is not a valid option. The capacity to do work or produce heat is…
Q: A transformer has a rated output of 200 KVA at a power factor of 0.8. Determine the rated power…
A:
Q: A coil of inductance 100 mH and resistance 800 ohm is connected in parallel with a variable The…
A: The required parameters can be calculated when the circuit reaches resonance. At resonance the…
Q: 2 100 Capacitance Real Power (UF) (Watts) 90 80 m 50 Q 70 60 V1 220 Vrms 60 Hz 0° Computed Values…
A: RLC circuit:- A circuit that consists resistor (R), inductor (L), and capacitor (C) is called an RLC…
Q: 14 Calculate the value of stored energy in an inductor if the value of inductance is 10 mH and 2 mA…
A: Given, The inductance of the inductor, L=10 mH Current flows through it, I=2 mA
Q: The current I in the circuit in figure below-3 .is equal to -0.2 A 3 V 4Ω 692 True False SV
A: Given circuit:
Q: A series circuit of resistance 60 2 and inductance 75 mH is connected to a 110V, 60 Hz supply.…
A: From the question, it is given thatResistance=60 ΩInductance=75 mHVoltage=110VFrequency=60 HzWe have…
Q: 8. Calculate the current Ix in the circuit shown by source conversion technique. 1510 A 0 ≤: O…
A:
Q: A JFET is also called .......... 1. unipolar 2. bipolar 3. unijunction 4. none of the above…
A: Fundamentals needs to be known unipolar means that conduction due to charge cariers for BJT is it is…
Q: (1) (11) R₁ R: C₁ DIS TRI THR VCC RST C₂ 100 nF 555 Timer OUT CV GND Figure 4(b) -Vcc - 12V Vout The…
A: Given: An astable multivibrator with oscillation frequency = 1200 Hz and duty cycle = 88 %. We have…
Q: Determine VAB in the circuit below. * 18/45 A ↑ O 11.62-59.9° V O 11.22-59.9° V O 11.8/59.9° V O…
A:
Q: Find i at t=0" 4V 126.32mA 400mA 336.84mA 10 Ω Μ t=0 Χ. 3Ω 5 Ω www ell 36 nH
A: So first we have to draw the condition before the switching happened so that we can find the given…
Q: Compute the monthly energy charges for an air conditioner having consumption of 2 kW. Daily usage of…
A: An conditioner is given and we have been asked to compute the monthly energy charge of this air…
Q: How to measure the current through a resistor? A) In parallel
A: Find the answer below for A The sum of the individual branch currents makes up the total current in…
Step by step
Solved in 2 steps with 1 images
- The picture shows three LC circuits, two of them with capacitors of capacitance C and the three with coils of inductance L, the three circuits are coupled by means of two capacitors Cc capacitors.L inductance coils, the three circuits are coupled by means of two capacitors of capacitance Cc. The currentscirculating through each mesh are those indicated in the figure: I1, I2 and I3. Using Kirchhoff's law for voltagesand taking into account the definition of current I = -dQ/dt, find the system of coupled equations for the systemand then find the angular normal frequencies of the system.Let's say you measure t1/2 to be 0.037 seconds and the resistance in the circuit is 68 Ohms. Then what is the capacitance in micro Farads? Answer in micro Farads.02: Using the Routh's criterion, determine the stability of the closed-loop system that has the following characteristic equation: s6 + 2s5 + 5s* + 85+ 8S2 + 85 + 4 = 0
- The point form of Ampere law is given by: Select one: O a. Curi(H) = J O b. Curl(B) = I OC Curl(V) = I Od. Curl(D) = JThe characteristic equation of sixth order system is as below find the stability of system. + 2s° + 8s4 + 12s + 20s? + 16s + 16 = 0The problem is to find the primary voltage required, but I already got a solution. The points is in this part (picture below), I don't know how solve involving the angular like (-36.86°). Can you explain how to solve involving an angle?
- Figure 2 shows three "LC" circuits, two of them with capacitance capacitors "C" and the three with inductance coils "L", the three circuits are coupled by means of two capacitance capacitors "Cc". The currents that circulate through each mesh are those indicated in the figure: "I1", "I2" and "I3". Using Kirchhoff's law for voltages and taking into account the definition of current I = −dQ / dt, find the system of coupled equations of the system and then find the normal angular frequencies of the system.Figure 2 shows three "LC" circuits, two of them with capacitors of capacitance "C" and the three with inductance coils "L", the three circuits are coupled by means of two capacitors "Cc" capacitors. inductance "L", the three circuits are coupled by means of two capacitors of capacitance "Cc". The currents circulating through each mesh are those indicated in the figure: "I1", "I2" and "I3". Using Kirchhoff's law for voltages and taking into account the definition of current I = -dQ/dt, find the system of coupled equations of the system and then find the angular normal frequencies of the system.for the R-th part. isn't R3 and R5 in series not parrallel? If not, explain why. If so, fix the solution. THank you.
- The following circuit corresponds to: Time left 0:51:55 Ic(s)→ of 2/s Vc( ) + 2/s O a. a 2F capacitor with an initial voltae v. (0)= 2V a 2F capacitor with an initial voltae v. (0)= 0.5V c a 0.5F capacitor with an initial voltae v. (0 ) = 2V a0.5F capacitor with an initial voltae v. (0 )= 0.5V d. e None of the other answers O Type here to searchFind the voltage and current across R,L,C Include phasor diagrams and impedance triangleCalculate the steady state currents flowing through inductors L₁ and L₂ and the steady state voltage across capacitor C in the circuit L₁ mm Vs = 20 V L₁ = 4 mH R₁ = 1 A R₂ = 3 L₂= 7 mH C = 6 4F shown below: Ri wwwww HH C