Kirchhoff's Laws • If a charged particle moves around a closed loop and returns to its starting point, there is no net change in its electric potential energy: Au = 0. elec %3D • Because V = Ulq, the net change in the electric potential around any loop or closed path must be elec' zero as well. (a) Path around- the circuit R R2 Graph of the potential around the circuit. AVratery AV2 Battery Resistor Resistor Distance along circuit
Kirchhoff's Laws • If a charged particle moves around a closed loop and returns to its starting point, there is no net change in its electric potential energy: Au = 0. elec %3D • Because V = Ulq, the net change in the electric potential around any loop or closed path must be elec' zero as well. (a) Path around- the circuit R R2 Graph of the potential around the circuit. AVratery AV2 Battery Resistor Resistor Distance along circuit
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Kirchhoff's Laws
• If a charged particle moves around a closed loop and
returns to its starting point, there is no net change in its
electric potential energy: Au
= 0.
elec
%3D
• Because V = Ulq, the net change in the electric
potential around any loop or closed path must be
elec'
zero as well.
(a) Path around-
the circuit
R
R2
Graph of the potential
around the circuit.
AVratery
AV2
Battery
Resistor Resistor
Distance along circuit
Transcribed Image Text:Kirchhoff's Laws
• If a charged particle moves around a closed loop and
returns to its starting point, there is no net change in its
electric potential energy: Au
= 0.
elec
%3D
• Because V = Ulq, the net change in the electric
potential around any loop or closed path must be
elec'
zero as well.
(a) Path around-
the circuit
R
R2
Graph of the potential
around the circuit.
AVratery
AV2
Battery
Resistor Resistor
Distance along circuit
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