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please use multisim to answer all the parts.
EXPERIMENT 3 TESTING SERIES & PARALLEL RESONANCES Objectives:...
multisim help Part II: Capacitors in AC Circuits In this part, you will determine the impedance...
multisim help
Part II: Capacitors in AC Circuits In this part, you will determine the impedance of the circuit at various frequencies. The capacitive reactance is calculated using Xc = Vc/Ic 1- Construct the circuit of Figure 9.2. Connect meters to measure voltage and current. R1 mA 1kohm C1 AC 3.3uF Figure 9.2-Circuit to Determine Capacitive Reactance 2- Set the voltage to 6Vrms at 60Hz. Measure and record values in Table 9.3. Calculate reactance using Xc = 1/(2nf C) and...
Name: ENGT 3050 Fundamentals of Electricity LAB EXERCISE #3 Series and Parallel Circuits Objectives: The objective...
Name: ENGT 3050 Fundamentals of Electricity LAB EXERCISE #3 Series and Parallel Circuits Objectives: The objective of this exercise is to examine Kirchhoff's Voltage and Current Laws. Kirchhoff's Voltage Law (KVL) states, for a closed loop series path the algebraic sum of all the voltages around any closed loop in a circuit is equal to zero. Kirchhoff's Current Law (KCL) states, for a parallel path the total current entering a circuits junction is exactly equal to the total current leaving...
*USE Multisim( Provide Pictures of work on Multisim for each step) and Fill the Tables Below...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
PLEASE SHOW ALL WORK AND TO FOLLOW ALL DIRECTIONS. PLEASE USE PSPICE. Assignment 1. Using a...
PLEASE SHOW ALL WORK AND TO FOLLOW ALL DIRECTIONS. PLEASE USE
PSPICE.
Assignment 1. Using a DC Sweep analysis to analyze a circuit: Use the circuit below. A. Analyze the circuit by hand (find Va and is only). B. Analyze the circuit using PSPICE as follows: Use a DC Sweep analysis to find the quantities found in part A above. Include a voltage printer and a current printer to measure the quantities specified. Do not use a Bias Point analysis...
Please show detailed step by step with explanation (20%) Problem 5: An RLC series circuit has...
Please show detailed step by step with explanation
(20%) Problem 5: An RLC series circuit has a 2.6 22 resistor, a 85 uH inductor, and a 87.5 uF capacitor. 17% Part (a) Find the circuit's impedance, in ohms, at 110 Hz. Z = 16.74 Correct! > A 17% Part (b) Find the circuit's impedance, in ohms, at 4.5 kHz. 22= Grade Summary Deductions 0% Potential 100% E sin cos t an() cotano asin() acoso atan acotan sinh( cosh) tanh() cotanh0...
please only answer Part C, all other parts is for any information you may need. -...
please only answer Part C, all other parts is for any
information you may need.
- Part = Xc, solve for the frequency. That is the resonant frequency f? Using the expressions for XL and Xc given in the introduction and setting X Express your answer in terms of L, C and any relevant constant. O AXD O2 ? Submit Request Answer The amplitude of the AC current (10) in a series LRC circuit is dependent on the amplitude of...
Could you please show me how I can drw those circuits. please using (NI Multisim 14)...
Could you please show me how I can drw those circuits.
please using (NI Multisim 14)
Optocoupler Objectives Use an ohmmeter to determine the condition of the optoisolator. Observe the operation of an optocoupler. Determine the maximum frequency response of the optocoupler. Required Materials (1) Dual DC power supply (1) Function generator (1) Oscilloscope (2) Multimeters (1) Optocoupler (ECG3040) (1) 3.9ΚΩ resistor (1) 220 resistor Introduction An optoisolator is a hybrid integrated circuit that contains an LED on one side...
Only #4 Please Figure 2 6.00 volts 10.0 volts wt 4) Figure 2 illustrates the component...
Only #4 Please
Figure 2 6.00 volts 10.0 volts wt 4) Figure 2 illustrates the component voltage phasors corresponding to one embodiment of the series AC RLC circuit of Figure 1. The magnitude of each phasor is shown in Figure 2. All of the phasors rotate CCW with the angular velocity of the source. The other given values are R-30.0 ohms and L-0.020 H. Compute numerical values for the following quantities: a) The expected RMS voltage reading of each of...
Course and Section cto EXPERIMENT ac series-Parallel Sinusoidal Circuits OBJECTIVES 1. Measure th...
Course and Section cto EXPERIMENT ac series-Parallel Sinusoidal Circuits OBJECTIVES 1. Measure the currents of series-parallel R-L and R-C networks using sensing resistors 2. Demonstrate the Pythagorean relationship between the currents of the networks. 3. Measure the phase angles associated with the currents of the networks. 4. Calculate the input impedance of a parallel network using measured values EQUIPMENT REQUIRED Instruments Resistors 1-10-Q, 470-Ω, l-kM (14.W) Inductors 1-10-mH Capacitors 1-0.02-pF I-DMM 1--Oscilloscope 1-Audio oscillator or function generator 1--Frequency counter (if...
please use multisim XFG1 xsci Agilent PP 0 0 0 Vin R3 12k0 두 12V XSC2...
please use multisim
XFG1 xsci Agilent PP 0 0 0 Vin R3 12k0 두 12V XSC2 R1 Voal DD 4.7ko AD741CH R2 122 0 12V 12V Vot HH LM139AJ 120 TO TAG Hot Now, reduce the peak-to-peak voltage of the sawtooth input signal Vin until the fundamental frequency of the output signal V.2 becomes the same as that of the input signal (i.e. 500 Hz). The shape of Voz has to be inverse-sawtooth in this case. Insert below separate images...
multisim help
Part II: Capacitors in AC Circuits In this part, you will determine the impedance of the circuit at various frequencies. The capacitive reactance is calculated using Xc = Vc/Ic 1- Construct the circuit of Figure 9.2. Connect meters to measure voltage and current. R1 mA 1kohm C1 AC 3.3uF Figure 9.2-Circuit to Determine Capacitive Reactance 2- Set the voltage to 6Vrms at 60Hz. Measure and record values in Table 9.3. Calculate reactance using Xc = 1/(2nf C) and...
Name: ENGT 3050 Fundamentals of Electricity LAB EXERCISE #3 Series and Parallel Circuits Objectives: The objective of this exercise is to examine Kirchhoff's Voltage and Current Laws. Kirchhoff's Voltage Law (KVL) states, for a closed loop series path the algebraic sum of all the voltages around any closed loop in a circuit is equal to zero. Kirchhoff's Current Law (KCL) states, for a parallel path the total current entering a circuits junction is exactly equal to the total current leaving...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
PLEASE SHOW ALL WORK AND TO FOLLOW ALL DIRECTIONS. PLEASE USE
PSPICE.
Assignment 1. Using a DC Sweep analysis to analyze a circuit: Use the circuit below. A. Analyze the circuit by hand (find Va and is only). B. Analyze the circuit using PSPICE as follows: Use a DC Sweep analysis to find the quantities found in part A above. Include a voltage printer and a current printer to measure the quantities specified. Do not use a Bias Point analysis...
Please show detailed step by step with explanation
(20%) Problem 5: An RLC series circuit has a 2.6 22 resistor, a 85 uH inductor, and a 87.5 uF capacitor. 17% Part (a) Find the circuit's impedance, in ohms, at 110 Hz. Z = 16.74 Correct! > A 17% Part (b) Find the circuit's impedance, in ohms, at 4.5 kHz. 22= Grade Summary Deductions 0% Potential 100% E sin cos t an() cotano asin() acoso atan acotan sinh( cosh) tanh() cotanh0...
please only answer Part C, all other parts is for any
information you may need.
- Part = Xc, solve for the frequency. That is the resonant frequency f? Using the expressions for XL and Xc given in the introduction and setting X Express your answer in terms of L, C and any relevant constant. O AXD O2 ? Submit Request Answer The amplitude of the AC current (10) in a series LRC circuit is dependent on the amplitude of...
Could you please show me how I can drw those circuits.
please using (NI Multisim 14)
Optocoupler Objectives Use an ohmmeter to determine the condition of the optoisolator. Observe the operation of an optocoupler. Determine the maximum frequency response of the optocoupler. Required Materials (1) Dual DC power supply (1) Function generator (1) Oscilloscope (2) Multimeters (1) Optocoupler (ECG3040) (1) 3.9ΚΩ resistor (1) 220 resistor Introduction An optoisolator is a hybrid integrated circuit that contains an LED on one side...
Only #4 Please
Figure 2 6.00 volts 10.0 volts wt 4) Figure 2 illustrates the component voltage phasors corresponding to one embodiment of the series AC RLC circuit of Figure 1. The magnitude of each phasor is shown in Figure 2. All of the phasors rotate CCW with the angular velocity of the source. The other given values are R-30.0 ohms and L-0.020 H. Compute numerical values for the following quantities: a) The expected RMS voltage reading of each of...
Course and Section cto EXPERIMENT ac series-Parallel Sinusoidal Circuits OBJECTIVES 1. Measure the currents of series-parallel R-L and R-C networks using sensing resistors 2. Demonstrate the Pythagorean relationship between the currents of the networks. 3. Measure the phase angles associated with the currents of the networks. 4. Calculate the input impedance of a parallel network using measured values EQUIPMENT REQUIRED Instruments Resistors 1-10-Q, 470-Ω, l-kM (14.W) Inductors 1-10-mH Capacitors 1-0.02-pF I-DMM 1--Oscilloscope 1-Audio oscillator or function generator 1--Frequency counter (if...
please use multisim
XFG1 xsci Agilent PP 0 0 0 Vin R3 12k0 두 12V XSC2 R1 Voal DD 4.7ko AD741CH R2 122 0 12V 12V Vot HH LM139AJ 120 TO TAG Hot Now, reduce the peak-to-peak voltage of the sawtooth input signal Vin until the fundamental frequency of the output signal V.2 becomes the same as that of the input signal (i.e. 500 Hz). The shape of Voz has to be inverse-sawtooth in this case. Insert below separate images...
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