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Series and Parallel Circuits

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Title: Series and Parallel Circuits Author: Andrea Last modified by: pmcd Created Date: 11/14/2004 11:16:35 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Series and Parallel Circuits


1
Series and Parallel Circuits
2
Review of Chapter 22
  • A flow of charged particles is called an electric
    Current.
  • A Flow of one Coulomb/second is equal to 1
    ampere. We write this as 1A
  • A device for measuring current is an Ammeter.
  • The potential energy of an electrical charge is
    termed the Electric Potential Difference.
  • Electric Potential is measured in Joule/Coulomb
    and is called the Volt (V)
  • A device for measuring Voltage is a Voltmeter.

3
Review of Chapter 22
  • Resistance (R) is the opposition to current flow
    and is represented by the Ohm (O).
  • Ohms Law is R V/I
  • Power (P) is the energy/time converted into some
    other form of energy by the circuit.
  • Power is measured in Watts (W).
  • To find Power P VI or P I2R
  • Energy Pt (Power x time) or E I2Rt in Joules
    (J)

4
Some Symbols
5
Example of a Simple Circuit
The Voltmeter is measuring across a battery and
resistor. The ammeter is measuring current
through the circuit.
6
Series and Parallel Circuits
  • Objective of this chapter
  • Discuss Series Circuits
  • Identify Voltage Drops in a Series Circuit
  • Discuss Parallel Circuits
  • Identify Voltage Drops is a Parallel Circuit
  • Equivalent Resistance
  • Ammeters and Voltmeters

7
Series Circuits
  • Only one Path for current to flow through.
  • All current travels through each resistor.
  • The total resistance of the circuit is the sum of
    all resistors in the circuit. R R1 R2 R3
  • The Current through the circuit is


    I V/(R1 R2
    R3)
  • The Voltage V V1 V2 V3
  • Find the equivalent resistance and then use
    R V/I

8
Series Circuit Example
E 120V and R1, R2 and R3 are all 20 O
resistors. What is the effective resistance of
the circuit? What is the current in the circuit?
9
Voltage Drops in a Series Circuit
  • The change in Electric Potential around a series
    circuit is Zero.
  • If you have a 9V battery, the voltage dropped
    around the circuit will equal -9V
  • The circuit to the right is called a Voltage
    Divider

A1
ms
V1
5 oh
E
R1

45V
10 ohms
V2
R2
10
Parallel Circuits
  • In a Parallel circuit there are many paths for
    current to follow. Current follows the path of
    least resistance.
  • The Potential Difference is the same across each
    path.
  • The total current is the sum of the currents in
    each path I I1 I2 I3
  • The equivalent resistance is found by
  • 1/R 1/R1 1/R2 1/R3

11
Equivalent Resistance
  • 1/R 1/R1 1/R2 1/R3

12
Parallel Circuits
If R1 60 ohms, R2 30 ohms, R3 20 ohms , E
90V a) Find Req b) Find I for the
circuit c) Find I for each branch circuit
13
Combined Circuits
  • Many circuits combine both series and parallel
    circuits.
  • Using combined circuits enables a wide variety of
    controls over current and voltage.
  • Simplifying these circuits consists of 3 steps
  • If resistors are in parallel, replace with an
    Req.
  • If Resistances are then in series, determine the
    new Req
  • Repeat steps 1 and 2 until the circuit is reduced
    to an equivalent resistance.

14
Req in a Combined Circuit
Simplifying these circuits consists of 3
steps If resistors are in parallel, replace with
an Req. If Resistances are then in series,
determine the new Req Repeat steps 1 and 2 until
the circuit is reduced to an equivalent
resistance.
15
Voltmeters Ammeters
  • Voltmeters are used to measure voltage drop
    across some part of a circuit.
  • Voltmeters have a very high resistance 10MO
  • Ammeters measure current through the circuit.
  • Ammeters have a very low resistance.
  • Voltmeters work in Parallel.
  • Ammeters work in Series.

16
Recap
  • Series Circuits have one path for current.
  • Parallel Circuits have many paths for current.
  • Series Req is R1R2R3R4 etc.
  • Parallel Req 1/R(1/R1)(1/R2)(1/R3) etc.
  • Combined Circuits need to be simplified in a step
    by step manner.
  • Ammeters work in series while voltmeters work in
    parallel.

17
Housekeeping
  • Tutorial tomorrow evening covering waves and
    sound.
  • Test Friday Morning.
  • Labs this week will investigate various circuits.
  • Assignment for Chapter 23
  • Problems 1, 5, 6, 10, 13, 14, 15, 16, 17, 18
  • Due as per normal assignment guidelines.
  • You can find my website (with physics stuff) at
    http//electronics.saintjohn.nbcc.nb.ca/mcdevitt/

18
Thank You
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