Examining Voltage Drops Around a Closed Loop ENGR 120 470  220  5V 

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Presentation transcript:

Examining Voltage Drops Around a Closed Loop ENGR  220  5V 

Select Resistors Find the 220  and the 470  resistors from your Boe-Bot kit. Example: 470  resistor: 4 = yellow 7 = violet Add 1 zero to 47 to make 470, so 1 = brown Now, find the 220  resistor. So, 470 = yellow, violet, brown

Build the Series Circuit Below 470  220  the breadboard connects these resistors 5V 

Compute the Voltage Drops Across the Two Resistors  V = 470  220  5V  (Hint: compute the total current provided by the power source and then apply Ohm’s Law to each resistor) SOLUTION: V – V – V = V Now, add the voltage rise of the power source (+5V) to the voltage drops across the resistors (negative numbers).

Use Multimeter to Measure Voltages Around Loop (1) From Vdd to Vss (2) Across the 470  resistor (3) Across the 220  resistor Remember... a RESISTOR is a voltage DROP and a POWER SOURCE is a voltage RISE  V 1 = _____  V 2 = _____  V 3 = _____  V 1  V 2  V 3  Rises must balance drops!!!!

 V = Compare Measurements to Theory How close are your experimental and theoretical results?  V =

Kirchoff’s Voltage Law (KVL) Kirchoff’s Voltage Law says that the algebraic sum of voltages around any closed loop in a circuit is zero – we see that this is true for our circuit. It is also true for very complex circuits. V – V – V = V  V = Notice that the 5V is DIVIDED between the two resistors, with the larger voltage drop occurring across the larger resistor.

The End Gustav Kirchoff (1824 – 1887) was a German physicist who made fundamental contributions to the understanding of electrical circuits and to the science of emission spectroscopy. He showed that when elements were heated to incandescence, they produce a characteristic signature allowing them to be identified. He wrote the laws for closed electric circuits in 1845 when he was a 21 year-old student. Photo: Library of Congress