ET115_SextonColby_W1Lab
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Grantham University *
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101
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Electrical Engineering
Date
Dec 6, 2023
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10
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Colby Sexton G00210946
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Colby Sexton G00210946
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Colby Sexton
G00210946
Lab # 1
Grantham University
November 13, 2023
Colby Sexton G00210946
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Introduction:
During this lab, a schematic for a series RC circuit containing a 12V power supply, two ground sources, 1kohm resistor, and a 500 uF capacitor was created using Multisim. While conducting this lab, calculations were performed and used in a transient analysis for the circuit. While performing the analysis, a table was created and used to compare calculated values and data received from multisim. The goal of this lab is to familiarize with multisim and transient analysis.
Equipment/Components:
●
Multisim
●
12V power supply
●
1k ohm resistor
●
500 uF capacitor
●
Two ground sources
●
2 probes- Voltage and current analysis
Formulas & calculations used:
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Procedure:
1.
In step 1 of this lab, the RC series circuit was constructed with a 5% tolerance for each component
2.
In step 2, a table was created to store calculated data and data received from multisim
3.
In step 3, formulas were used calculate the 5 constant T values for the circuit along with capacitor voltage, and current. Once all calculations were complete, data was placed in the table that was created in step 2.
4.
In step 4, a transient analysis for Capacitor voltage and current was performed using multisim. During this analysis, data was recorded from each constant T value.
Circuit:
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Execution/Results (Transient Analysis):
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Analysis:
Before performing this lab, it was expected that all calculations would differ from the analysis performed using multisim. Upon completion of the Transient analysis, it was found that this wasn’t the case. There were no major differences in calculations and measurements.
Conclusion:
A schematic for a series RC circuit was created with multisim. This circuit was used in a transient analysis to compare pre calculated values in regards to:
●
Constant T
●
Capacitor voltage at each time constant
●
Capacitor current at each time constant
Throughout the analysis portion of this lab, there were no major differences between calculations and measurements. The biggest difference being at the second time constant(see values below):
●
Calculated Vc- 10.38V
●
Measured Vc- 10.4V
●
Calculated Ic- 1.604mA
●
Measured Ic- 1.602mA
Upon completion of the analysis, it was concluded that calculated values were very close to values from multisim, but weren’t exact.
Discussion:
Question B:
●
To design a circuit with an applied voltage of 24 volts and a resistor of 1KOhms, that starts at 0V and reaches 24V in 2 seconds, I would first Calculate the capacitance. Working backwards, using 2 seconds as 5T which would also need to be considered fully charged capacitor (24V). This will make 1T=0.4
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Related Questions
The figure below shows a simple RC circuit with a 3.30-μF capacitor, a 4.40-M resistor, a 9.00-V emf, and a switch. What are the following exactly 9.00 s after the switch is closed?
(a) the charge on the capacitor
13.7204
UC
(b) the current in the resistor
0.0110522
x
Your response is off by a multiple of ten. HA
(c) the rate at which the capacitor is storing energy
μW
(d) the rate at which the battery is delivering energy
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The figure below shows a simple RC circuit with a 3.50-µF capacitor, a 3.60-MQ resistor, a 9.00-V emf, and a switch. What are the following exactly 6.50 s after the switch is closed?
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Related Questions
- The figure below shows a simple RC circuit with a 3.30-μF capacitor, a 4.40-M resistor, a 9.00-V emf, and a switch. What are the following exactly 9.00 s after the switch is closed? (a) the charge on the capacitor 13.7204 UC (b) the current in the resistor 0.0110522 x Your response is off by a multiple of ten. HA (c) the rate at which the capacitor is storing energy μW (d) the rate at which the battery is delivering energy μWarrow_forwardPlease continue and explain all symbols. Please draw a simple RLC series AC circuit. AvR In an RLC series AC circuit (Figure), the maximum applied voltage AV is related to the maximum voltages across the resistor (AVR), capacitor (AVC), and inductor (AVL) by Avc Avarrow_forwardFind the voltage across and the charge on each capacitor in the following network. C₁ C3 300 pF 500 pF- QT = 18000 PC C2 C4 600 pF 500 pF-arrow_forward
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Recommended textbooks for you
- Delmar's Standard Textbook Of ElectricityElectrical EngineeringISBN:9781337900348Author:Stephen L. HermanPublisher:Cengage Learning

Delmar's Standard Textbook Of Electricity
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ISBN:9781337900348
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Publisher:Cengage Learning