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<title>ENSC 220 Lab #1: KVL and KCL</title>
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<h2>
Fall 2025
<br>
ENSC 220-3
<br>
ELECTRIC CIRCUITS I</h2>

<p>
<h2>Lab #1: KVL and KCL</h2>

<p>
<b>OBJECTIVE</b>:     
<br>
Using the circuit below, you can verify KVL by showing that the sum of voltages
around the loop Vin -> R1 -> R2 is zero. 
You can also verify KCL by showing that the
currents entering node "a" sum to zero.

<p> 
<b>RESOURCES</b>: 
<li>
Access PCs in ENSC Lab 1
<br>
Folders: 
<br>
&nbsp &nbsp &nbsp Reference Materials
<br>
&nbsp &nbsp &nbsp Course_Specific_Material
<br>
&nbsp &nbsp &nbsp ENSC-220
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<p>
<b>PREPARATION</b>:
<li> Read Lab Handbook Sections:
<br>
&nbsp &nbsp &nbsp  2.2.2 Lab Power Supplies
<br>
&nbsp &nbsp &nbsp  2.2.3 DMM
<br>
&nbsp &nbsp &nbsp  2.3.3 Resistors
<br>
&nbsp &nbsp &nbsp  2.4.1 Breadboards
-->

<li> Derive equations for all circuit voltages and currents in terms 
     of Vin, R1, R2, and R3.

<p>
<b>EQUIPMENT</b>:
<li>
Basic lab tools (from your supplies)
<li>
Breadboard (from your supplies)
<li>
Digital multimeter (DMM), Fluke 45
<li>
DC power supply
<li>
Resistors (assorted, from open lab stock).

<p>
<b>NOTES</b>:
<li>
Before connecting the power supply to your circuit, 
preset the voltage and then limit the current to be less than 100 mA. 
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(Use the techniques outlined in the Lab Handbook section 2.2.2.)
-->
<li>
When making circuit changes, turn down the current on the power
supply and turn off the power supply. Turn it on again only after
checking the circuit carefully.
<li>
Check the multimeter setup before hooking it into the circuit.
Improper setup can give incorrect readings and/or damage the meter.

<P>
<b>IMPORTANT</b>: When building the circuit, select resistor values
such that the power generated in each resistor in the circuit will be
well below its 1/4 Watt power dissipation rating.

<p>
<b>METHOD</b>:
<br>
<img src="./figures/lab1.jpg">
<p>
<b>1</b>.
Choose appropriate R1, R2, and R3, 
and measure their values using the DMM.
<p>
<b>2</b>.
Construct the circuit and adjust Vin=1.0 V (approximately), under load.
<p>
<b>3</b>.
KVL: Calculate the expected voltages across R1 and R2, and then measure them.
<p>
<b>4</b>.
KCL: Calculate the expected currents through 
R1, R2, and R3, and then measure them.

<p>
<b>DISCUSSION</b>:
<li>
Find the DMM accuracy for measuring DC voltage, current, and resistance.
<li>
Choose one example from your calculations and show how equipment accuracy 
and measurement errors propagate through equations to affect expected values.
<li>
Explain how the measurement process itself affects the resistances, voltages and currents that you are measuring.
<li>
Reconcile each measurement against the expected value. 
You should be able to explain any differences within a specified 
range of certainty.
<li>
Can you think of a more effective method of confirming KCL?

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Last modified: 
Thu 16 Oct 2025 21:24:42 PDT.
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