Solve the total capacitance, total current, voltage across 6 microfarad (out of 3 choose 1) at the last branch, the current flowing through 4 microfarad at the second branch, and Q if the supply voltage is 100 volts. 6 μF 6 μF 6 μF 4 µF 6 μF 6 μF 4 μF 6 μF 6 μF
Q: 2. A non-uniform sheet charge is distributed along one-eighth of a spherical surface of radius 'a'…
A: (2) The given figure is shown below: It is given that: Radius of spherical surface=aSurface charge…
Q: Consider the circuit in the figure below: a) What are the benefites of using the transformer in this…
A: Cut in voltage of silicon diode is 0.7V and cut in voltage of germanium diode is 0.3V. During…
Q: Find the Thévenin equivalent circuit with respect to the terminals a,b for the circuit shown. 72 V…
A:
Q: Under some conditions, it is possible to approximate the effects of ferromagnetic materials by…
A: Given Few parameters of cylindrical wire,we need to determine magnetic field, magnetic field…
Q: In a balanced three-phase Y-Y system, the source is an abc sequence of voltages and Vab = 476∠3°…
A:
Q: Simplify the complement of Boolean Expression using DeMorgan’s Law Z= (BC’ + A’D) . (AB’ + CD’)
A:
Q: Solve the following using hybrid model. 1. The transistor's current gain (Aix) is: A. 110 B. 87.49…
A:
Q: Given that L = 100 uH and C= 100 pF, what is the frequency so that the inductive reactance equals to…
A:
Q: 1.) R₁=56 201 A) RTOTAL = B) I TOTAL = C) V-TOTAL = R67 = E) V3 R₂=5 R3-20 R5=45 R6 = 3 R4=252 M R7…
A:
Q: Q2.Find Q-point when VBB = 1V, 2 V and 3 V.. Assume VCE(sat) = 0 V. Re 1.0 K RB www 20 KQ Bpc = 50
A:
Q: understandable way. • Use Block Diagram Algebra and DO NOT USE Mason Gain Method PROBLEM: Find the…
A: Given A block diagram is given.we need to find the transfer function of the block diagram using…
Q: Determine the values of i2, i4, V2, V3, and V6 in Fig.(2). U3 + 4 V- E 6 A 3 A 6 V 12A 1214 -2V Di…
A:
Q: Q1. If vs= 50 cos(4t). Find i and vi 8 Ω ΤΩ 3Η F
A:
Q: AM
A: We are authorized to answer one question at a time, since you have not mentioned which question you…
Q: Q\ Compare between single - stack variable Reluctance motor and Multi stack variable Reluctance…
A: Here we discuss about comparison between single stack VR stepper motor & Multi stack VR stepper
Q: V1 tbVrms 60Hz 아 R1 ww 10 01 1N3493 V2 -SV * 02 R2 Z1N349421kO V3 =5V * XSC1 fontmpniny
A: Given A double clipper circuit, we need to explain the output waveforms. Please find the below…
Q: (1) Please don't write on a paper. I can't understand handwritten well. 1. DETERMINE THE MAGNETIC…
A: Magnetic field strength: It is a force that is applied to the moving electric charge. This is…
Q: Determine the stability of the control system by applying the Routh Stability Criterion to the given…
A: In this question, We need to determine the stability of the control system using the routh…
Q: Q2- In the circuit in fig.(2) if 13= 1mA. Find all currents (11, 12, 14 and 15) and the voltage…
A: In this question, We need to determine the unknown currents, and voltage Vs? We are solving this…
Q: V10. What are the key advantages of RF-ICP high-density plasma sources for application in…
A: RF-ICP stands for radio frequency inductive coupled plasma. It is used to measure elements at trace…
Q: b. Determine the proper spatial sampling interval required to make small-scale propagation…
A: The minimum sampling frequency should be at least twice the frequency of the system. The proper…
Q: Determine Vx in this circuit using Thevenin theorem. Draw illustrations if needed. Show complete…
A:
Q: Q1.Determine IE, VBE, VCE, and VCB in the circuit. Assume BDC = 150.
A:
Q: 1. Consider an air-filled rectangular cavity resonator with dimensions of a = 2.286 cm, b = 1.016 cm…
A: Given A rectangular waveguide dimensions,we need to find the resonant frequency and Q. Please find…
Q: Explain the difference between DOL starting and Autotransformer starting also explain the working…
A:
Q: X O D Q K D Q Q OA B AOOOO-- А 0 0 0 1 1 1 1 BO XOO0O 0 0 1 1 0 0 1 1 1 1 1 1 Next State A B
A: We need to find out the truth table for given circuit
Q: If Vab = 135 Vrms in a balanced Y-connected three-phase generator, find the magnitude of the phase-c…
A:
Q: Q1. Determine IE, VBE, VCE, and VCB in the circuit. Assume BDC = 150.
A:
Q: nts A 100 mH coil of negligible resistance is connected to an AC circuit in which an effective…
A:
Q: explain the advancement and what kind of innovation in electrical power systems that will be…
A: Clean energy: It is a part and parcel of todays need of energy demand. It is much emphasized as it…
Q: Determine the power absorbed by each of the resistors in the circuit shown in Fig.(3). 12 v ܤ ܚܕ ܟ ܕ…
A: Given the circuit with the voltage and current source.
Q: Q1. Determine IE, VBE, VCE, and VCB in the circuit. Assume BDC = 150. Rc 390 RB wwww. w 8V 88 Assume…
A:
Q: Find the following parameters if B-120 for this transistor C. VCE d. VE RB 680kQ VCC 15V LRC 2.2kQ…
A: We need to find out the current and voltage for given circuit
Q: Please provide answers in at least 5 significant figures Surface charge densities are positioned in…
A: As we know due to infinite sheet charge tye electric field is only in the perpendicular direction of…
Q: Given: 120V, 60H₂, 39, 6 Pole , Y-connected IM R₁ = 0.08₁ X₁ = 0.3 S = 0,031 XM = 6:33 R2 = 0.07,…
A: Given parameters are R1 =0.08 ohm X1 =0.3 ohm R2' =0.07 ohm X2 =0.3 ohm Xm =6.33 ohm slip is s=0.03…
Q: A very long wire generates a magnetic field of 0.0070 x 104 T at a distance of 3.0 mm. What is the…
A:
Q: Three zones of a single-phase circuit are identified in the figure with a generator voltage…
A: For the evaluation of electrical machines, one-of-a-kind values are required, consequently, per unit…
Q: For the circuit shown above, what is the magnitude of the line c current? Assume that ZY = 9 + j 6…
A:
Q: Nyquist criterion
A: Open Loop System (OLS)-A system having a input in the system which does not depends on the system…
Q: Four resistors, R1 = 100 ohms, R2 = 250 ohms, R3 = 350 ohms, and R4 = 200 ohms are connected such…
A:
Q: oolean
A:
Q: From the figure shown below, find the modulation index, then write an equation represents the shown…
A:
Q: Q1: Find the Ceg. At point A&B in the network in fig.(1) Imf
A:
Q: An air-filled coaxial line with e=₁ and µ-u, has a line inductance L'=(1/54)µH/m. What is the line…
A: We need to find out the capacitance of co axial cable
Q: Determine the attenuation in decibels for the attenuator having an input power of 100mW and an…
A:
Q: a. explain how this circuit works
A: Here we will discuss about electrical distribution board (DB) used in the houses.
Q: explain the aliasing in the PAM Signal?
A: The analog pulse modulation techniques are classified into three types, which are mentioned as…
Q: 3. We can find the frequency where the GAIN is 0 dB and the phase (phi) at that frequency. Then, the…
A: We are authorized to answer only three subparts at a time since you have not mentioned which…
Q: any radial position (r). Use the abov
A: Given the laminar flow velocity profile in pipe for Newton fluid, ux=2u¯1-2rd2 where, ux is the…
Q: Given the circuit below with the following data: Rs = 330 £2, RB = 470 kN, RĘ = 2.2 kN, RC = 4.7 km,…
A: Bartleby has policy to solve only first 3 subparts of a question. So please reupload the question
Step by step
Solved in 4 steps with 12 images
- Three capacitors having capacitance values of 20F,40F, and 50F are connected in parallel to a 60 - Hz power line. An ammeter indicates a circuit current of 8.6 amperes. How much current is flowing through the 40F capacitor?You are working in an industrial plant. You have been instructed to double the capacitance connected to a machine. The markings on the capacitor, however, are not visible. The capacitor is connected to 560 volts and an ammeter indicates a current of 6 amperes flowing to the capacitor. What size capacitor should be connected in parallel with the existing capacitor? What is the minimum AC voltage rating of the new capacitor? What is the minimum DC voltage rating of the new capacitor? What is the minimum KVAR size that can be used in this installation?You are a journeyman electrician working in an industrial plant. Your task is to connect an inductor to a 480-V, 60-Hz line. To determine the proper conductor and fuse size for this installation, you need to know the amount of current the inductor will draw from the line. The nameplate on the inductor indicates that it has an inductance of 0.1 H. An ohmmeter reveals that it has a wire resistance of 10 . How much current should this inductor draw when connected to the line?
- A capacitor uses air as a dielectric and has a capacitance of 3 F. A dielectric material is inserted between the plates without changing the spacing, and the capacitance becomes 15 F. What is the dielectric constant of this material?a) You are provided with three capacitors of values 4µF, 6µF, 30µF and 220V power supply. Connect the 4µF and 6µF in parallel; and then connect the combination to the 30µF in series. Connect the 220V power supply across this arrangement and find (i) the equivalent capacitance of the circuit formed, (ii) the voltage across 30µF, (iii) the charge on each capacitor. (iv) If the circuit formed is switched ON for 3minutes, what will be the amount of current flowing through the circuit? (b) What is the accuracy of a measurement of 26.5gm taken as against 25gm? (c) State the types of resistor colour band in use and hence determine the colours of the following resistors: (i) K39±10%; (ii) M56±1%; (iii) 3K9±10%; (iv)120K±2% (v) 8R8±10%Vbatt=25 VC1=90 ?CC2=75 ?CC3=60 ?CR1=160 ΩR2=120 Ωt2=21.6 msect3=27 msecConsider the circuit shown below which shows a battery connected to some resistors and capacitors along with some switches which will be toggled opened or closed at different times. The components are listed above. The capacitances are in microFarads (?F), the resitances are in Ohms (Ω), and the times are in milliseconds (msec). A stopwatch is started at time t1=0 ms. At that time, switch S1 is closed and all other switches are open and the capacitor is allowed to charge up.(a). (i)What is the charge (in uC) on C1 at the time the stopwatch reads t2=21.6 ms?a)3690 b)1520 c)5710 d)2630 e)683 f)1750 (a).(ii)What is the current (in mA) through R1 at t2=21.6 ms?34.9 30.4 114 13.6 73.6 52.4 (b)(i)What is the voltage (in V) across R1 at t2=21.6 ms?8.37 5.58 2.18 11.8 18.2 4.85(ii). What is the voltage (in V) across C1 at t2=21.6 ms?63.2 29.1 40.9 7.57 19.4 16.9(c). (i) What is the energy (in mJ) in C1 at t2=21.6 ms?6.63…
- Vbatt=25 VC1=90 ?CC2=75 ?CC3=60 ?CR1=160 ΩR2=120 Ωt2=21.6 msect3=27 msecConsider the circuit shown below which shows a battery connected to some resistors and capacitors along with some switches which will be toggled opened or closed at different times. The components are listed above. The capacitances are in microCoulombs (?C), the resitances are in Ohms (Ω), and the times are in milliseconds (msec). A stopwatch is started at time t1=0 ms. At that time, switch S1 is closed and all other switches are open and the capacitor is allowed to charge up.(a). What is the charge (in uC) on C1 at the time the stopwatch reads t2=21.6 ms?Ans: 1750 uC(b). What is the current (in mA) through R1 at t2=21.6 ms?Ans: 34.9 mA(c). What is the voltage (in V) across R1 at t2=21.6 ms?Ans: 5.58 V(d). What is the voltage (in V) across C1 at t2=21.6 ms?Ans: 19.4 V(e). What is the energy (in mJ) in C1 at t2=21.6 ms?Ans: 17.0 mJThen, immediately at time t2=21.6 on the stopwatch, switch S1 is thrown open and…Given this network of capacitors: Assuming the dielectric of each capacitor is air and the network is connected to Vab = 30V supply, calculate thefollowing:a. The equivalent capacitance between a and b. b. The charge on each capacitor. c. The potential difference on each capacitor d. Energy stored on each capacitorGiven this network of capacitors:Assuming the dielectric of each capacitor is air and the network is connected to Vab = 30V supply, calculate thefollowing:a. The equivalent capacitance between a and b. b. The charge on each capacitor. c. The potential difference on each capacitor d. Energy stored on each capacitor
- Answer the following problems. Complete your answers by using GRESA format.(given, required, equation, solution, and answer). a. Find the amount of charge stored on either plate of 4.4 mF capacitor connected to a 12-volt battery.b. If a plate separation of a capacitor is 2.2 × 10−3m, determine the area of the plates if the capacitance is 1.4 F....In the circuit diagram below, the capacitor C is first fully charged by using a 6.0V battery and the two way switch k. It is then discharged through the resistor R. The figure below shows how the charge Q on the capacitor C changes with time during the discharge. Use the graph to answer the following questions: What is the capacitance of the capacitor? Estimate the initial current through the resistor during the discharging process, hence, calculate the resistance of the resistor and the time constant of the circuit. On the same axes, draw graphs to show how the voltage Vc across the capacitor and VR across the resistor vary with time during the charging. Indicate values where appropriate.A resistor (of unknown constant resistance) and a 0.02 farad capacitor are connected in series with an emf of E = 100 volts. The initial charge of the capacitor in 5 coulombs. If at t = 1/10 second the current flowing is 30/e amperes on the reverse direction, find the value of the resistance.