B 12 V (+ 32 kn A 1 kM 2 kN 1 kN 2 mA D (+1) ww
Q: (+- 60 V 20 V 2000 I I 6 kn 10 kn
A: To solve such a type of problem Kirchhoff's law is used There are two Kirchhoff's lawKCL: It states…
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A: To answer above question on show know how to find equivalent resistance for series and parallel…
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A:
Q: 2 kn +) 6 V 1 kn 2 mA 4 mA 12 V 2 kN 31 kN 1 kn 31 kn Vo ww
A: The solution is given below
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A: find the time constant for the given RC circuit ?
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A:
Q: a 12.5 2 10 2 52 120 V (+ ww- 30 2 15 2 20 2 b ww
A: First we will find out the total equivalent resistance by star to delta conversion and series ,…
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A: In this question we will find voltage across point AB.
Q: 12 kn 4 mA I, 12 kn 12 kn 6 V + 12 kn 1.1mA 0.9mA 0.83mA 0.7mA 0.5 mA ww
A:
Q: 12 V 1 kn V. +. 2 kN $1 kn V. ww /2
A: for a given circuit the out put voltage can be caluculated from either KCL or KVL equations The…
Q: 202 60 2 40 Ω 24 V ww 10 2 50 2 20 Ω ww +1
A: Find equivalent resistance (Req) first and then find current I0
Q: 6 ΚΩ 2 kN ww 6 kN Vo 1 kn 3 ΚΩ 3 mA 12 V(+
A:
Q: 3. Solve for I in the given circuit. 10Ω Si 12 V
A: The solution is given below
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Q: (1) 2 ka 12 ko 4 ka 4 mA ww
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Q: Q3: Determine V, and V2. Use B=1.00 1.6 kN 22 k 2 mA
A:
Q: i, (t) 3 k2. 12 kΩ 150 μF 6 kN 3 kΩ 2 V t=0s 2 k2
A:
Q: 16 V 430 kf) 4,7 kfN B= 200 Bay =20 µS 120 kN (1,2 kn
A: In DC model analysis all the capacitors must be open circuited .. In the given question they are…
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A:
Q: iestion 2 For the network, determine IF in mA. 12 V 5.6 kN B= 100 390 k2 8 V
A: Apply KVL in base emitter loop to find base current. Emitter current =(1+beta)× base current. For…
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A:
Q: Find power dissipated in all elements 122 ww v. 60 V 120 24 V ww
A: NOTE :- We’ll answer the first question since the exact one wasn’t specified. Please submit a new…
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A: Statement :-The current in any passive circuit element (RL =6 ohm here) in a network will be same as…
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A:
Q: ww 10 30 20 ww 3A 40 20V ww
A: This question is from network analysis.
Q: R 80 W L 200 W 100 V ĐS. 50 W
A: Since you have asked a multiple question we will solve the first question for you, If you want any…
Q: .Q1: Find V 30 Ω 162 15 2 10Ω ww ww 100 V V I 35 2 12Ω 20 Ω ww
A:
Q: Determine I. 1とレ 2 ks ) 12レ my
A:
Q: 4 kM 12 kN I mA 6 kM 3 kN If I=24mA, what is the current 1,? ww
A:
Q: Determine the value of the Current 13. +1 12 V + - ww 892 + 9 V ww 20 32 13
A:
Q: 24. Approximately how many horsepower is an electrical device listed as 3,000 watts? Select…
A: Given power in watts = 3000 watts 1 horse power = 735.5 Watts
Q: 12 kN 12 k2 4 kN 12 kN 312 kM 12 kN 2 kN 12 kM 12 kN R7 1 kN 12 kN 12 kN 1kN 312 kN 3 12 kN 12 k2 12…
A: Series resistance are directly add to get the equivalent resistance. ex- R=R1+R2+R3 In parallel…
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A: In the given circuit, The supply voltage is DC which means the current flowing in the given circuit…
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A:
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A:
Q: 100 kN 250 kN 20 kQ stage 2 stage 1 0.4 V 2 kQ VL (+1)
A: In the Op-amp circuit, if the input is connected to a negative terminal, then it is called an…
Q: 202 -W- 152 10.2 Voltage drop across 25 ohms. 100 V 252 20.2 152
A: In the circuit, Voltage across the 25ohm resistance We are solving this problem using current…
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A: Instantaneous power is a product of instantaneous current and instantaneous voltage. To find the…
Q: + i1 12 13 10 Ω 6Ω 1 mF w is = 8 cos 200t A 40 mH wwm
A: (b) The given circuit diagram is:
Q: 1 kN 2 kM 1 kN 2 kN 1 ΚΩ 12 V(+ 2 mA 1 kN Vo
A: Given
Q: Calculate VAB 10 V (A) 9.3 V B) 8.6 V (C) 0.7 V (D) 1.4 V A 11 Si Si B R1 1 kohms D Si с R2 1 kohms…
A:
Q: Problem 1. 3 kΩ 4 kg Determine v, and i, in the given circuit. 12 V 2 ka 1 1 ka
A: In this question, Find the output voltage Vo and current Io. We are solving this problem using the…
Q: Calculate the indicated currents and voltages. R1 4 k) 12 kM. Rg R2 8 kM R 24 K(T 9 kN 3 kl Rg 12 k)…
A:
Q: Determine the value of the Current 13. 7.2 kn 5 kn 13. ►12 kn 10 V 100 Ig
A:
Q: 2 mA 2 kN ww 6 kN 6 kN 8 mA 3 kN 1 ΚΩ Vo 12 V(+ ww
A: we need to find out V0.
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- (BASIC ELECTRICAL ENGINEERING) A solenoid of iron core has a cross sectional area of 2.33 in2 and has a length of 1.89 ft. If the winding has a 2234 turns of wire what is the reluctance of the circuit? Show your complete solution and limit your answer into 3 decimal place only.201503131 3. Two batteries with E, = 3V and E₂ = 5 V are connected with three resisters R₁ = 10 ohms, R₂ = 20 ohms and R3 = 30 ohms as shown in the Figure. (8-points) a) Find the currents I₁, I2 and 13 passing through the resistors R₁, R₂ and R3 consecutively and indicate their directions in the figure. (4-points) I Iz V.P 23 13 = I₁+I₂ R₂ 10 3 & 3-101₁-3013 =0 5-20 I 2-10 I₁ = 0 I R₁ ww R3 30 20 25You are working as an electrician in a large steel manufacturing plant, and you are in the process of doing preventive maintenance on a large DC generator. You have megged both the series and shunt field windings and found that each has over 10 M to ground. Your ohmmeter, however, indicates a resistance of 1.5 across terminals S1andS2. The ohmmeter indicates a resistance of 225 between terminals F1andF2. Are these readings normal for this type machine, or is there a likely problem? Explain your answer.
- Two ideal batteries with zero internal resistance and five resistors connected as shown in the diagram. The resistances of resistors are known, the electromotive force of one battery, and it is known that a current of I1 = 3A flows through the resistor R1. Calculate the electromotive force of the battery E2Find the potential difference between point a and point b for the situation shown below. Here ₁ = 12.0 V, E₂ = 8.27 V and R₁ = 4.33, R₂ = 6.24 , and R3 = 2.28 N. Va - Vb = R₂ E2 V R3 R₁ ६Q2: Find the T.F for the system below Force Fin M2
- I need helpo with this. I need step by step solutions for this and I cant figure it out. Wire to be used in buildings and homes in the United States is standardized according to the AWGsystem (American Wire Gauge). Wires are assigned a gauge number according to their diameter.The scale ranges from gauge 0000 to gauge 36 in 39 steps. The equation for the wire gauge interms of the wire diameter in millimeters is the picture. (a) What is the equation for the diameter in millimeters in terms of the wire gauge N?(b) You have two wires, one that has five times the diameter of the other. By how much do thewire gauges differ for the two wires? (Give your answer to the nearest integer.)For the following electrical circuit discuss explain the operation of the hydraulic cylinder +24V K2 K1 s2 4 K2 2 A1 K2 A2 Y1 A2 ov S1 S2 A Y1 Y2Use the following constants if necessary. Coulomb constant, k = 8.987 x 10° N - m² /C2. Vacuum permitivity, co = 8.854 x 10 12 F/m. Magnetic Permeability of vacuum, Ho = 12.566370614356 x 10-' H/m. Magnitude of the Charge of one electron, e = -1.60217662 × 10–19 C. Mass of one electron, me = 9.10938356 x 10 31 kg. Unless specified otherwise, each symbol carries their usual meaning. For example, µC means micro coulomb. a R5 R3 e R9 R, R6 R8 Ry K Suppose you have the following circuit diagram. Here R1 =1.1 kN, R2 = 3.3 kN, R3 = 2.2 kN, R4 = 22 kN, R5 = 22 kN, Rg = 11 kN, R7 = 11 kN, Rg = 11 kN, R9 = 1.1 kN are the resistances on the circuit where kN stands for kilo ohm. The electromotive forces of the batteries are & = 5 volts and Ez = 3 volts. a) Calculate Rik. the resistance equivalent to R5, Re, R7, Rg and R9 between the terminals b and k. Value of Rhk Give your answer to at least two significance digits. Ω b) Calculate the current through R1.
- Which statement is true about a resistor? O A resistor stores energy in an electric field and returns that energy to the circuit. O A resistor stores energy in a magnetic field and returns that enrgy to the circuit. O A resistor absorbs heat and and dissipates electrical energy O A resistor absorbs electric power and dissipates heatNOTE: Solve this as soon as possible, I need this urgently. Determine the currents I, and I, in the circuit below 6 mA 1.51 1 mAQ1: The two forces shown act at point A of the bent bar. Determine the resultant R of the two forces. F1 = 3 kips 300 F2= 7 kips 45° L.