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Series, Parallel, and Series-Parallel Circuits CVHS Electronics 1.

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Presentation on theme: "Series, Parallel, and Series-Parallel Circuits CVHS Electronics 1."— Presentation transcript:

1 Series, Parallel, and Series-Parallel Circuits CVHS Electronics 1

2 Review: Basic Elements of a Circuit  An electric circuit provides a complete path for current to flow  A basic circuit must include: Power Source (battery) Complete Path (wires) Load (resistor, light, motor, etc.)  Many circuits also include : Control Devices (switch, etc.) Protective Devices (fuse, circuit breaker, etc) What components does the circuit below include? Answer: Load, Path, Source, & Control

3 Types of Circuits  Circuits with multiple loads can be placed into one of three categories: Series, Parallel, & Series-Parallel  These are based on paths of current flow through the circuit

4 Series Circuits  Only allow current to flow through one path from – to + through the loads  Current only has one way to go from one side of the power source to the other

5 Parallel Circuits  Allows current to take Multiple Paths from – to + through the loads.  Current can follow different routes from the source, through the loads, and back to the source

6 Series-Parallel Circuits  Contains areas of both Series & Parallel circuits  Some sections allow multiple paths for current flow  Other areas only allow one path for current flow  Must have at least three loads

7 Resistance Calculations  Because some circuits allow current to follow multiple paths, current divides among these paths  This reduces the total current of these sections  Therefore, different resistance formulas must be used for different circuits

8 Series Circuit Calculations  Only allow current to follow one path  Total resistance is equal to the sum of all the individual resistances  Formula Rt = R1 + R2 + R3… R1 = 10 R2 = 20 R3 = 30 Rt = R1 + R2 + R3 Rt = 10 + 20 + 30 Rt = 60 

9 Parallel Circuit Calculations  Allow current to follow Multiple Paths  Current divides among paths  Total resistance is always less than smallest resistor  Resistance Formula: Rt = 1/ [(1/R1)+(1/R2)+(1/R3)…] This is Known as the Reciprocal Formula R1 = 10 R2 = 20 R3 = 30 Rt = 1/ [(1/R1)+(1/R2)+(1/R3)] Rt = 1/ [(1/10)+(1/20)+(1/30)] Rt = 1/[.1+.05+.033] Rt =1/.183 Rt =5.45 

10 Parallel Circuit Calculations (Only Two Resistors)  If only Two resistors are in parallel, then another formula can also be used to calculate total resistance  This formula is: Rt = (R1 x R2) / (R1 + R2)  Total resistance is always less than smallest resistor R1 = 20 R2 = 20 Rt = (R1 x R2) / (R1 + R2) Rt = (20 x 20) / (20 + 20) Rt = 400 / 40 Rt = 10

11 Parallel Circuit Calculations (All Resistors Are the Same)  If all of the resistors in the circuit are equal, then this formula may be used: Rt = R / N (N = Number of resistors/ loads)  Total resistance is always less than smallest resistor R1 = 30 R2 = 30 R2 = 30 Rt = R / N Rt = 30 / 3 Rt = 10

12 Series-Parallel Circuit Calculations  Contain series & parallel elements  Must use series & parallel formulas  First determine Parallel R-value, then add to series sections R1 = 10 R2 = 10 R3 = 10 R4 = 10 Rt = (R1 x R2) / (R1 + R2) Rt = (10 x 10) / (10 + 10) Rt = 100 / 20 Rt = 5 Rt = R1 + R2 + R3 Rt = 10 + 5 + 10 Rt = 25 

13 Resistance Formula Flow Chart

14 Guided Practice #1  What kind of circuit is it?  What Formula can be used?  What is the total resistance? Series Circuit Rt = R 1 + R 2 + R 3 R1 = 30  R2 = 50  R3 = 70  Rt = R1 + R2 + R3 Rt = 30 + 50 + 70 Rt = 150 

15 Guided Practice #2  What kind of circuit is it?  What Formula can be used?  What is the total resistance? Rt = 1/ [(1/R1)+(1/R2)+(1/R3)…] or … Rt = (R1 x R2) / (R1 + R2) Parallel Circuit R1 = 10  R2 = 20  Rt = (R1 x R2) / (R1 + R2) Rt = (10 x 20) / (10 + 20) Rt = 200 / 30 Rt = 6.67

16 Guided Practice #3  What kind of circuit is it?  What Formula can be used?  What is the total resistance? Rt = (R1 x R2) / (R1 + R2) & Rt = R1 + R2 + R3 Series-parallel R1 = 5 R2 = 4 R3 = 6 R4 = 5 Rt = (R1 x R2) / (R1 + R2) Rt = (4 x 6) / (4 + 6) Rt = 24 / 10 Rt = 2.4 Rt = R1 + R2 + R3 Rt = 5 + 2.4 + 5 Rt = 12.4 

17 Lesson Review  What is a series circuit?  What is a parallel circuit?  What is a series-parallel circuit?  What are the formulas for each?  What elements do all circuits include?

18 Questions?

19 Worksheet Worksheets help me learn

20 References  Electrical circuits. Retrieved: March 6,2008, from: http://www.uvi.edu/Physics/SCI3xxWeb/Electrical /Circuits.html.  National High Magnetic Field Library. (2003). Molecular expressions: Electricity and magnetism introduction. Retrieved: March 7,2008, from: http://micro.magnet.fsu.edu/electromag/electricity/resistance. tml. All images not cited above have been retrieved from PPT Clip Art

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