Part 3: Resistors in Parallel and Series Aim: To understand how the magnitude of the total resistance is calculated in a parallel and series circuit. Resistors in Series Procedure: 1. Create a circuit with one battery and 2 resistors in series. 2. Using the voltmeter tool, measure the voltage across each resistor, and then the whole circuit. Record results in table below. 3. Using the non-contact ammeter tool, measure the current through the wire near each resistor and the battery. Record the results. 4. Calculate the resistance for each resistor and the whole circuit using the equation R=V/I (Ohm's Law). 5. Repeat these steps, but add another resistor each time. Go up to 4 resistors.

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Part 3: Resistors in Parallel and Series
Alm: To understand how the magnitude of the total resistance is calculated in a parallel and
series circuit.
Resistors in Series
Procedure:
1. Create a circuit with one battery and 2 resistors in series.
2. Using the voltmeter tool, measure the voltage across each resistor, and then the whole
circuit. Record results in table below.
3. Using the non-contact ammeter tool, measure the current through the wire near each
resistor and the battery. Record the results.
4. Calculate the resistance for each resistor and the whole circuit using the equation R=VI
(Ohm's Law).
5. Repeat these steps, but add another resistor each time. Go up to 4 resistors.
Results:
2 Resistors
Current through
resistor
Calculated
Voltage across
resistor (do not
include negatives)
Resistance (R=V/)
Resistor 1
Resistor 2
Whole circuit
(measure across the
battery)
Transcribed Image Text:Part 3: Resistors in Parallel and Series Alm: To understand how the magnitude of the total resistance is calculated in a parallel and series circuit. Resistors in Series Procedure: 1. Create a circuit with one battery and 2 resistors in series. 2. Using the voltmeter tool, measure the voltage across each resistor, and then the whole circuit. Record results in table below. 3. Using the non-contact ammeter tool, measure the current through the wire near each resistor and the battery. Record the results. 4. Calculate the resistance for each resistor and the whole circuit using the equation R=VI (Ohm's Law). 5. Repeat these steps, but add another resistor each time. Go up to 4 resistors. Results: 2 Resistors Current through resistor Calculated Voltage across resistor (do not include negatives) Resistance (R=V/) Resistor 1 Resistor 2 Whole circuit (measure across the battery)
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