20 R2 D1 1.5V In the circuit shown, determine the current flowing through the resistor R1. *
Q: 2. Perform the following analysis and calculations on the circuit shown below. Use Kirchhoff's Laws…
A:
Q: 1. Vertical wind turbines have the highest Betz coefficient T F 2. Wind power is attractive because…
A: 1. Berts coeficient is defined as the ratio of the enerfy which is usefull and the energy which is…
Q: 1. Design a 4-bit combinational circuit that adds one (1) to the input if the input is less than…
A: As per our guidelines we are supposed to be answer the first question only kindly repost the other…
Q: 1. What are the types of sampling? 2. State sampling theorem? 3. What happens when f,= 2fm? 5.…
A: According to the bartleby's guidelines we have to solve only first three subparts of a question so…
Q: Determine the current flowing through the resistor R1. (assume LED forward voltage is 2.1 volts) *
A:
Q: In the following circuit, the output voltage equals:
A:
Q: USING THEVENIN'S THEOREM FIND THE CURRENT FLOWING THROUGH Z2. SHOW YOUR THEVENIN'S EQUIVALENT…
A: In this question we need to find a Thevenin equivalent circuit.
Q: olve for the Real Power delivered by the power supply to the circuit.
A:
Q: 3.14 Using the formula % regulation = [ V(cos 02 + Rpu)2 + (sin62. +Xpu)2 -1]100% %3D determine the…
A: 3.14 It is given that: KVA=50240:120f=60 Hzr1=0.13ohm r2=0.03 ohmx1=0.20ohm x2=0.05 ohm
Q: c) Design a uniformly-stressed coaxial cylindrical electrode system using three different insulating…
A: given data, ∈r=2.5 r1=10cm R=30cm Ed=60KV/cm U=200KV
Q: sing masan's formula Gro 412 Ga, RIS) O G13
A:
Q: If the next state of flip-flop B is derived from the state equation B(t+ 1)= Ax, then which of the…
A:
Q: FIND: a. V, and Vy b.44, 2, a c.I, =-13
A:
Q: Find the current flowing through r2. R3 RI -m- 202 O-552 E: E, Ez? 3V R4 E4 24V 0-752
A:
Q: 1. Calculate D in rectangular coordinates at point PA(2, –3,6)produced by a uniform line charge =…
A: In this question, We need to determine the D in the rectangular form at the P point The charge…
Q: Three 1-phase, 41 kVA, 2400 V / 277 V, 60HZ Transformers are connected to form a 3-phase 4160 V /…
A: Voltage control is a measure of how a power converter can maintain a second constant voltage in view…
Q: Comparing an electric dipole attenna and a magnetic dipole attenna, if the frequency is the same and…
A: According to the question, Comparing an electric dipole antenna and a magnetic dipole antenna, if…
Q: 4. Find the mesh current I, I, ans Iz in the circuit shown. 10 40 25 ww so Lo v 70 Lgyl 15 ww
A: The solution is given below
Q: 20 Determine the voltage at resistor R1 if the Zener voltage is 3V. * D1 R1 1K LI 5V
A: In the given circuit zener diode connected in series with resistance R1 Zener diode has voltage…
Q: C(s) s+2 2. G(s) = R(s) Write the state matrix s2+4s+3 equation and the output equation in the phase…
A: Brief description : In the above given question they have mentioned transfer function of the system.…
Q: Vout (s) for the two circuits shown below. 6. Wr ite the transfer function, Vin (s) ' R1 R1 R2
A:
Q: For a CMOS logic gate circuit given below a.) Sketch and Label the types of MOSFET for Ml, M2, M3,…
A: According to the bartleby's guidelines we have to solve only first three subparts of a question so…
Q: If a Si diode at room temperature (25°) has a leakage current Is = 48 nA, k = 5,800, and Vp = 0.53…
A: Given, The reverse saturation current, IS=48nA=48×10-9A k=11,600η, for silicon, η=2Hence,k=5,800…
Q: Consider a PV system with a battery bank installed in a location in North Europe during a summer…
A:
Q: A 65000-kW thermal power station uses coal of calorific value 15000 kcal per kg. if the coal…
A:
Q: 4.22 A 50 KVA; 600/240-volt; 25 cycle transformer has a core loss of 200 watts of which 30% is eddy…
A: Given data, Rating of transformer 50 KVA, 600/240 V Core loss = 200 W. Full load copper loss = 650…
Q: 1N.S +flt) 1. Gcs) = X,Cs) FCs) Ikg lell %3D m
A:
Q: 2. The sequence b(k) = {1, 1, 0, 1, 0, 1} is transmitted at bit rate of Rp =200 b/s using an ASK…
A: According to the question, for an ASK digital system Input data sequence b(k)={1, 1, 0, 1, 0, 1}…
Q: 1. Given the following Boolean functions: f(a, b, c) =(c'+b'c').(b+c).(a+bc') A. Find the…
A:
Q: A thermal power station has an overall efficiency of 28% and 0.8kg of coal is burnt per kWh of…
A: Calorific value is the amount of heat energy in tha coal in 1 kg of coal. Overall efficiency is the…
Q: -- than AC to DC Drives e) higher 6. The efficiency of DC to DC converter to drive de motor is a)…
A: 6. The efficiency of DC to DC converter to drive DC motor is higher than AC to DC drives. Option…
Q: What is the scalar electric field strength 75 mm away perpendicularly from the center of a…
A:
Q: Frequency stability refers to an oscillator's ability to maintain a constant frequency and is…
A: An RC phase shift oscillator is one of the oscillating circuits, which consists of Resistor and…
Q: D2 D3 R = 12 k2 D DA Figure 2. Circuit for problem 5 and 6 6. If the bridge rectifier shown in…
A:
Q: 1. What are the types of sampling? 2. State sampling theorem? 3. What happens when f,<2 fa?
A: We are authorized to answer three subparts at a time, since you have not mentioned which part you…
Q: 1. The resistivity of aluminum is 2.8 x 10-8 Qm. How long (in meters) a piece of aluminum wire 1.0…
A: In this question we will find length of wire of aluminum with given resistivity and resistance. ..
Q: Write a KCL node equation for the node marked v1 in the circuit below. Put the equation in normal…
A: A circuit diagram is given in the question. The capacitor initial voltage is vC0-=2 Volts and the…
Q: ease help me answer with my assignment. What is the difference between the voltage regulation and…
A:
Q: If the radio wave transmitted at an angle of incidence 68 degree , with a wavelength of 6mm. I. Find…
A: Given information: The angle of incidence is θ=68° Wavelength is λ=6 mm
Q: Kindly show complete solution and Box the Answers. Thank you!
A: The solution is given below
Q: q4/The diode and the switch places are swapped. Plot the input and output voltages and determine the…
A: A ripple factor is to identify the purity of the output of the rectifier. It is the ratio of AC…
Q: 12 20L0° 10 L90 15 Lot Fig. 15.2 Fig. 15.3 8f+9 263.4° 4.47 63.4° 2-js 3-j4
A:
Q: How silicone diode and change-of-state sensors function, what types of equipment they can be used…
A: The sensors are the part of circuits, which help to detect or monitor any kind of change in physical…
Q: Example4/ A telephone cable with R=52.5 KO/Km , C=62 nF/Km , G=0 and L=1.1 mH/Km , find ,x ,B ,Vp…
A: The solution is given below
Q: 120 V 8 H 60 Hz coil Solve for the total reactance of the given circuit. Copy paste these in as…
A: Given data,
Q: Tind Vo FIND The therenin 8 Norton Equivalant + 2 ΚΩ 2000 Vx X + 6 kN Vo 4 ΚΩ +) 3 V 2 mA B
A:
Q: 3 The maximum efficiency of a transforner occurs when theconstant core loss equals the variable…
A:
Q: If the input signal-to-noise ratio is 20, and the output signal-to-noise ratio is 5, calculate the…
A: The solution is given below
Q: Please write report of jfet 00000000000 amplifier 00000000000000..
A: FET Amplifier: A field-effect transistor (FET) amplifier is one that employs one or more…
Q: A 2500 kVA, 6600 V synchronous turbo alternator is operating at full load and 0.8 pf lagging. This…
A: The solution is given below
Use 2nd approximation and assume all diodes are silicon for all the problems
Step by step
Solved in 2 steps with 2 images
- Question T ir1= ir2 = id1= Vr1= V1 Vr2 = D1 Given the circuit above, determine the current across R1 (ir1), R2 (ir2) and D1(id1), determine the voltage across R1 (vr1) and voltage across R2 (vr2). Determine the parameters using an input voltage of 8 volts MBR0520L VR1 M R1 10k 2 Activate Windows 8:50 AMUse 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.The circuit below(left) displays a schematic diagram of a battery. The voltage measured by U1 is called the terminal voltage given R1 = 1 ohm. In the circuit below(right), the terminal voltage of each of the battery-resistor combination is VT = 1.5 volts. Find the voltage across R1 & voltage of the battery. Find the percentage of voltage loss of the battery due to the internal resistance R1.
- Please solve ellaborately and include the untis in every step, show diagram and write your solutions clearly and readable if your solution is in written form. Your work will be appreaciated much. Thank You.Suppose the three branch currents in this circuit are I₁ = -3 A, I₂ = -18 A, and I3 = -15 A. The voltage drop across each circuit element is as given in the table below. From this information, determine, for each of these circuit elements, (i) whether an active or passive sign convention is being used for that element, (ii) whether that element is absorbing or producing a net (positive) amount of electrical power. In each answer box within the table below, type the correct choice from among the bold-faced words above. V₂ B A B A C D 1₁ A B 1₂ 1₂ + Circuit element Voltage drop Sign convention? Absorbing or producing net electrical power? -9 V -2 V C 9 V -11 V D2. You are employed in a large industrial plant. A 480-V, 5000-W heater is used to melt lead in a large tank. It has been decided that the heater is not sufficient to raise the temperature of the lead to the desired level. A second 5000-W heater is to be installed on the same circuit. What will be the circuit current after installation of the second heater, and what is the minimum size circuit breaker that can be used if this is a continuous-duty circuit?
- Determine the nodes/junctions, Current (I), Loops, Voltage drop on each Resistor (R), and Power (P) on each Resistor (R) with the following given and illustration: Use the following given for batteries and resistors (color bands for your value of resistors, use the lower limit). R1 = red red black goldR2 = orange green black silverR3 = white orange black goldR4 = green violet brown goldR5 = violet red black silverR6 = yellow green black silverR7 = brown black black gold V1 (lower left) = 100VV2 (top center) = 150VV3 (lower right) = 200VFigure 2.1 shows a simple circuit. Explain why using a DMM tomeasure the DC voltage across resistor R2 might lead to inaccurate results. Include in your answer how the value of R2 might affect the size of the error and provide some circuit diagrams and equations to showhow to calculate the error.1. Which of the following statements is true?a. Terminal A is negative with respect to terminal D.b. Terminal D is negative with respect to terminal A.c. A voltmeter connected between terminals A and C would measure 40Vdc.d. Terminal A is positive with respect to terminal D.2. Which of the following statements is true?a. ES = ER1 – ER2 – ER3b. ER1 – ER2 – ER3 = 100Vdcc. ES = ER1 + ER2 + 30 Vdcd. ER1 + ER2 + ER3 = ES3. What is the value of resistor R1?a. 5000 Ωb. 1500 Ωc. 3000 Ωd. 10 000 Ω 4. What is the voltage drop between points A and B?a. 45 Vdcb. 15 Vdcc. 10 Vdcd. 60 Vdc 5. What is the voltage drop between points B and C?a. 5 Vdcb. 15 Vdcc. 10 Vdcd. 7.5 Vdc6. What is the value of resistor R2?a. 500 Ωb. 1000 Ωc. 1500 Ωd. 3000 Ω7. Refer to TLO 4, Fig. 4-3 and Exercise Procedure 4. What is the approximatedresistance of DS1 when lighted?a. 35 Ωb. 75 Ωc. 42 Ωd. 100 Ω 5. What is the voltage drop between points B and C?a. 5 Vdcb. 15 Vdcc. 10 Vdcd. 7.5 Vdc6. What is the value of resistor…
- 1. Which of the following statements is true?a. Terminal A is negative with respect to terminal D.b. Terminal D is negative with respect to terminal A.c. A voltmeter connected between terminals A and C would measure 40Vdc.d. Terminal A is positive with respect to terminal D.2. Which of the following statements is true?a. ES = ER1 – ER2 – ER3b. ER1 – ER2 – ER3 = 100Vdcc. ES = ER1 + ER2 + 30 Vdcd. ER1 + ER2 + ER3 = ES3. What is the value of resistor R1?a. 5000 Ωb. 1500 Ωc. 3000 Ωd. 10 000 Ω 4. What is the voltage drop between points A and B?a. 45 Vdcb. 15 Vdcc. 10 Vdcd. 60 Vdc 5. What is the voltage drop between points B and C?a. 5 Vdcb. 15 Vdcc. 10 Vdcd. 7.5 Vdc6. What is the value of resistor R2?a. 500 Ωb. 1000 Ωc. 1500 Ωd. 3000 Ω7. Refer to TLO 4, Fig. 4-3 and Exercise Procedure 4. What is the approximatedresistance of DS1 when lighted?a. 35 Ωb. 75 Ωc. 42 Ωd. 100 Ω 5. What is the voltage drop between points B and C?a. 5 Vdcb. 15 Vdcc. 10 Vdcd. 7.5 Vdc6. What is the value of resistor…1. Which of the following statements is true?a. Terminal A is negative with respect to terminal D.b. Terminal D is negative with respect to terminal A.c. A voltmeter connected between terminals A and C would measure 40Vdc.d. Terminal A is positive with respect to terminal D.2. Which of the following statements is true?a. ES = ER1 – ER2 – ER3b. ER1 – ER2 – ER3 = 100Vdcc. ES = ER1 + ER2 + 30 Vdcd. ER1 + ER2 + ER3 = ES3. What is the value of resistor R1?a. 5000 Ωb. 1500 Ωc. 3000 Ωd. 10 000 Ω 4. What is the voltage drop between points A and B?a. 45 Vdcb. 15 Vdcc. 10 Vdcd. 60 Vdc 5. What is the voltage drop between points B and C?a. 5 Vdcb. 15 Vdcc. 10 Vdcd. 7.5 Vdc6. What is the value of resistor R2?a. 500 Ωb. 1000 Ωc. 1500 Ωd. 3000 Ω7. Refer to TLO 4, Fig. 4-3 and Exercise Procedure 4. What is the approximatedresistance of DS1 when lighted?a. 35 Ωb. 75 Ωc. 42 Ωd. 100 Ω 5. What is the voltage drop between points B and C?a. 5 Vdcb. 15 Vdcc. 10 Vdcd. 7.5 Vdc6. What is the value of resistor…Using the circuit in the image and the figures in the attached table: a. With both switches, SW1 and SW2 left open complete the following: i. Briefly discuss what the three resistors are used for. ii. Determine the total resistance in the circuit. iii. Determine the currents flowing in the circuit. iv. Determine the volt drops around the circuit. v. Use the appropriate Kirchhoff’s law to confirm your results. b. Now close switch SW1 and complete the following: i. Determine the total resistance in the circuit. ii. Determine the currents flowing in the circuit. iii. Determine the volt drops around the circuit. iv. Use the appropriate Kirchhoff’s law to confirm your results. c. Now Whilst keeping SW1 closed close SW2 and complete the following: i. Determine the total resistance in the circuit. ii. Determine the currents flowing in the circuit. iii. Determine the volt drops around the circuit. iv. Use the appropriate Kirchhoff’s law to confirm your results.