Presentation is loading. Please wait.

Presentation is loading. Please wait.

Introduction To Engineering Electrical Circuits - 2 Agenda Kirchhoff’s Law Resistors & Resistance Wheatstone Bridge.

Published byRaymond Sherman Modified over 8 years ago

Similar presentations

Presentation on theme: "Introduction To Engineering Electrical Circuits - 2 Agenda Kirchhoff’s Law Resistors & Resistance Wheatstone Bridge."— Presentation transcript:

1 Introduction To Engineering Electrical Circuits - 2 Agenda Kirchhoff’s Law Resistors & Resistance Wheatstone Bridge

2 Kirchhoff’s Laws Voltage Law: The sum of the voltage rises around a closed loop in a circuit must equal the sum of the voltage drops. Current Law: The sum of all currents into a junction (node) must equal the sum of all currents flowing away from the junction.

3 Resistors in Series Applying Kirchhoff’s voltage law gives us: V = I R 1 + I R 2 + I R 3

4 Resistors in Parallel voltage law: V = I 1 R 1 = I 2 R 2 = I 3 R 3 current law: I x = I 1 + I y and I y = I 2 + I 3

5 Equivalent Resistance If desired, several resistors can sometimes be replaced by a single “equivalent” resistor: For resistors in series: R1R1 R3R3 R2R2 R eq R eq = R 1 + R 2 + R 3 + …

6 Equivalent Resistors (cont) For Resistors in Parallel R1R1 R3R3 R2R2 R eq

7 Student Problem: If each of the R’s were 60 W light bulbs, (R =240 ohm), what would be the equivalent resistance for all three bulbs in parallel. What would be the total power draw for the three bulbs R1R1 R3R3 R2R2 V = I x R P = V x I

8 Wheatstone Bridge Circuit with resistors in both series and parallel configurations. Used in strain gages, alarm circuits, and many other systems. The bridge is “balanced” when i m = 0, at which point: R 1 /R 2 = R 3 /R 4

9 Assignment #29 Do problem set 2 on electrical circuit drawings found in the assignment packet.

Download ppt "Introduction To Engineering Electrical Circuits - 2 Agenda Kirchhoff’s Law Resistors & Resistance Wheatstone Bridge."

Similar presentations

Circuits.

Circuits.
Series and Parallel Circuits

Series and Parallel Circuits
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Unit 8 Combination Circuits

Unit 8 Combination Circuits
Kirchhoff’s Laws Three Examples

Kirchhoff’s Laws Three Examples
Physics Mrs. Coyle.  Kirchhoff’s Rules  Series Circuits  Equivalent Resistance  Voltage Drop Across Resistors  Brightness of Bulbs in a Series Circuit.

Physics Mrs. Coyle.  Kirchhoff’s Rules  Series Circuits  Equivalent Resistance  Voltage Drop Across Resistors  Brightness of Bulbs in a Series Circuit.
Light bulb When switch is closed, bulbs are … Brighter The same Dimmer than the bulb above (?)

Light bulb When switch is closed, bulbs are … Brighter The same Dimmer than the bulb above (?)
Kirchhoff’s laws. Kirchhoff’s laws: current law: voltage law: Equations.

Kirchhoff’s laws. Kirchhoff’s laws: current law: voltage law: Equations.
20.10 Kirchhoff's Rules There are two KIRCHHOFF'S RULES. 1. Junction rule 2. Loop rule These are useful in circuit analysis.

20.10 Kirchhoff's Rules There are two KIRCHHOFF'S RULES. 1. Junction rule 2. Loop rule These are useful in circuit analysis.
Electric circuit power, circuit elements and series-parallel connections.

Electric circuit power, circuit elements and series-parallel connections.
Introduction and Simple Circuit (2/11/04) Basic Concepts: Ideal voltage/current sources: provide prescribed voltage/ currents the prescribed values are.

Introduction and Simple Circuit (2/11/04) Basic Concepts: Ideal voltage/current sources: provide prescribed voltage/ currents the prescribed values are.
Lecture 91 Single Node-Pair Circuits and Current Division.

Lecture 91 Single Node-Pair Circuits and Current Division.
Kirchhoff’s Rules Physics 102 Professor Lee Carkner Lecture 14.

Kirchhoff’s Rules Physics 102 Professor Lee Carkner Lecture 14.
Circuits Series and Parallel. Series Circuits Example: A 6.00 Ω resistor and a 3.00 Ω resistor are connected in series with a 12.0 V battery. Determine.

Circuits Series and Parallel. Series Circuits Example: A 6.00 Ω resistor and a 3.00 Ω resistor are connected in series with a 12.0 V battery. Determine.
If current is disrupted through one element (e.g. the light goes out) If current is disrupted through one element (e.g. the light goes out) then they.

If current is disrupted through one element (e.g. the light goes out) If current is disrupted through one element (e.g. the light goes out) then they.
Lecture 2 Basic Circuit Laws

Lecture 2 Basic Circuit Laws
Lecture 2: Resistive Circuits Nilsson 2.5, 3.1-3.4, 3.7 ENG17 : Circuits I Spring 2015 1 April 2, 2015.

Lecture 2: Resistive Circuits Nilsson 2.5, , 3.7 ENG17 : Circuits I Spring April 2, 2015.
Objective of Lecture Explain mathematically how resistors in series are combined and their equivalent resistance. Chapter 2.5 Explain mathematically how.

Objective of Lecture Explain mathematically how resistors in series are combined and their equivalent resistance. Chapter 2.5 Explain mathematically how.
Resistance and Ohm’s Law: More Practice

Resistance and Ohm’s Law: More Practice
Kirchhoff’s Laws Laws of Conservation.

Kirchhoff’s Laws Laws of Conservation.

Similar presentations

Ads by Google