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Act 2

The document instructs the reader to: 1. Simulate a DC series circuit with 3 1kΩ resistors and a 20V power supply using Multisim Live and measure the currents and voltages. 2. Simulate a DC parallel circuit with 3 1kΩ resistors and a 20V power supply using Multisim Live and measure the currents and voltages. 3. Support the current and voltage measurements with calculations showing Kirchhoff's Laws. 4. Simulate the same circuits in Tinkercad. 5. Write a short narrative about the experience of simulating the circuits in Multisim Live and Tinkercad.

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Eris Presnedi
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668 views3 pages

Act 2

The document instructs the reader to: 1. Simulate a DC series circuit with 3 1kΩ resistors and a 20V power supply using Multisim Live and measure the currents and voltages. 2. Simulate a DC parallel circuit with 3 1kΩ resistors and a 20V power supply using Multisim Live and measure the currents and voltages. 3. Support the current and voltage measurements with calculations showing Kirchhoff's Laws. 4. Simulate the same circuits in Tinkercad. 5. Write a short narrative about the experience of simulating the circuits in Multisim Live and Tinkercad.

Uploaded by

Eris Presnedi
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOCX, PDF, TXT or read online on Scribd
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1. Using Multisim Live.

Create and simulate a DC series circuit on line consisting of three (3)

1kΩ resistors and a 20 Vp DC power supply. Insert dc current and volt meters to

showcase Kirchhoff’s Voltage Law (KVL)

2. Using Multisim Live. Create and simulate a DC circuit on line consisting of three (3) 1kΩ

resistors in parallel powered by and a 20 Vp DC power supply. Insert dc current and volt

meters to showcase Kirchhoff’s Current Law (KCL)

3. Support your current and voltage measurements with calculations/solutions for 1 and 2

above.

4. Create your Tinkercad account and simulate the circuits described in 1 and 2

5. Create a short narrative about your experience.


Answer:
1.

2.

3. Since Voltage on series are all the summation of all voltage then;
(Vt = V1 + V2 + V3 and Iin = Iout)
20v = 6.667v + 6.667v + 6.667v ;20v = 20.001v or 20v = 20v

As for current, I just use the formula of 1/r to get every current flowing on the resistor;

1/1000 = 0.02A or 20mA.


4.

5. As I start conducting this simulation, some of the formula that I’ve learned flashed back in an
instant. I really enjoy doing simulation because after I did the task given to us I tried to do some
changes to see what will be the result. It is a very challenging task to make it on multisim and
tinkercad since this 2 software for circuits are not the same. They are just two different
application which we can try to simulate the task given to us. But as I tried using it, I coped with
it so little by little I am getting used to it. This experience is a very good one since we can use
different app to help us on the betterment of ourselves in terms of understanding the circuits
well, also I figure out that in the near future education is continue to innovate so this tools may
be one of the best tools we can use because we are on the modern day era in which we usually
spent our time using smartphones and sitting in front of our laptop or computers.

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