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SERIES AND PARALLEL CIRCUITS. Circuits  Provides a path for electricity to travel  Similar to water pipes in your house  Because of the voltage of.

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Presentation on theme: "SERIES AND PARALLEL CIRCUITS. Circuits  Provides a path for electricity to travel  Similar to water pipes in your house  Because of the voltage of."— Presentation transcript:

1 SERIES AND PARALLEL CIRCUITS

2 Circuits  Provides a path for electricity to travel  Similar to water pipes in your house  Because of the voltage of an outlet, electrons will travel through the circuit  Electrons NEED to travel around the ENTIRE path for anything to work

3 Open vs. Closed Circuits  When there is a complete path, the circuit is considered a closed circuit.  When there is NOT a complete path, the circuit is considered an open circuit.  A switch allows you to open and close a circuit

4 Conductive Ink!!!  The ink on this page conducts electricity (yes, it is special ink).  What happens to the _________ when the page is folded over?  … to the circuit?  … to the lightbulb?  … to the current?

5 Safety Precautions  If too many devices (tv, radio, hair dryer, etc) are connected to an outlet, the overall resistance of the circuit is lowered  This increases the current traveling through the circuit, possibly more than a safe level of current.  This is called an overloaded circuit.  Too much current traveling though a wire can cause fires.

6 Safety Precautions  Both of these objects open the circuit by disrupting the complete circle, preventing damage to the rest of the circuit.  FUSE – a ribbon of metal wire that melts when too much current flows through it  If current becomes to high, the fuse melts, and the circuit is open  Can only be used once then must be replaced

7 Safety Precautions  Circuit Breaker opens a circuit with a high current  Uses an electromagnet that responds to current overload by opening the circuit Basically it is magnetic switch that ‘trips’ The circuit breaker acts as a switch.  Can be used multiple times. Must be reset once “tripped”.

8 Circuit Diagrams  Uses symbols to represent parts of a circuit  Shorthand way to describe a real circuit

9 Circuit Symbols: How to Draw Electrical Supply (Battery) On – Off Switch Light Bulb Resistor Remember, the circuit drawing needs to be a COMPLETE path.

10 Circuit Symbols: How to Draw

11 You try to draw some circuits: 1. A circuit with one resistor, one battery, and one switch. 2. A circuit with two resistors, three batteries, and one switch.

12 Circuits: 2 Diff Types  Can either be series or parallel. Series: 1 path Parallel: 2+ Paths

13 Overview: Series v Parallel Circuits SeriesParallel Pathways for electrons and current Only 1 path.Multiple Pathways for current Current (I) Always the same throughoutDifferent at each branch – MUST CALCULATE Voltage (V) VOLTAGE DROP after every resistor/bulb: MUST CALCULATE each separately Each Branch starts with same voltage (Voltage drops to 0v after each branch) Resistance ( Ω ) Add up all to get total resistance Each branch different - MUST CALCULATE each branch separately – Ohm’s Law

14 Let’s Practice: Identify WS…

15 Try some drawings!  1) Series: with 2 resistors (one is 4 ohm, one is 7ohm), a 12V battery, and a 10 ohm light bulb.  2) Parallel: with a 1.5 volt battery and 3 light bulbs (each on its own branch). Light bulbs have a resistance of 2, 4, and 6 ohms.  3) Series: 6v battery, one switch, one 20ohm resistor.  4) Parallel: 12volt battery, 3 light bulbs. 2 light bulbs (2 and 3 ohms) are on one branch, while the 3 rd light bulb (8ohms) is on another branch)

16 Circuits: 2 Diff Types  Can either be series or parallel. Series: 1 path Parallel: 2+ Paths

17 Series circuits  There is only 1 path for current/electrons to travel  If the circuit opens in any way, the whole circuits stops working because current STOPS.

18 Series Circuits  Current only takes one path for electrons  If you remove a light bulb or one burns out—the ENTIRE circuit stops working!  Current stays the same as it flows through every part of the circuit  Resistance (and therefore voltage), will change at different points on a series circuit

19 Current in Series  Current is the same at all points  Electric current always FLOWS from positive (+) to negative (-)  Which is OPPOSITE the flow of electrons.  Use Ohm’s Law to find current using total resistance and voltage

20 Resistance in Series  Add up all resistors to get total resistance  Current MUST go through each resistor in series because there is only one path.

21 Voltage Series  Voltage “drops” after each resistor has been passed.  Calculate voltage drop by calculating voltage at each resistor  V = I*R  V = (current * resistor)

22 Sample Problem #1  Draw a series circuit with a 3 different1.5 V batteries (all together), 2 equal resistors, and a current of 0.5 A. 1. What is the total voltage of the circuit? 3 * 1.5 volts = 4.5 volts 2. What is the total resistance of the circuit? V = IR4.5v / 0.5A = 9ohms 3. What is the resistance of each resistor? 9ohms / 2 equal resistors = 4.5 ohms each

23 Sample Problem #2  What is the total resistance of the circuit?  17ohms + 12ohms + 11ohms = 40 ohms  What is the current for the circuit?  V = IR  60 volts / 40ohms = 1.5amps  What is the voltage drop across each resistor? V 1 = IR V 1 = 1.5a * 17ohm V 1 = 25.5v V 2 = IR V 2 = 1.5a * 11ohm V 2 = 16.5v V 3 = IR V 3 = 1.5a * 12ohm V 3 = 18v

24 Parallel Circuits  Have more than one path for current to flow  Paths are also known as branches  If you remove a resistor, the other branches still work

25 Voltage in Parallel  Voltage is the same across each branch  because each branch is on the same wire  Voltage will drop to 0v after each branch. But we won’t calculate that…

26 Current in Parallel  Current depends on resistance in each branch  The current in each branch will be different if the resistors have different values  It one branch has less resistance, more charge will move through it because that bulb offers less opposition to the movement of current.  The sum of the currents on each of the branches MUST equal the total starting current  EACH BRANCH is calculated using Ohm’s Law

27 Practice problem #3  Draw a parallel circuit with two resistors, one 2 ohm and one 3 ohm (one on each branch) and a 12 V battery. 1. What is the voltage through each resistor? 12 volts 2. What is the current flowing through each branch? V = IR12v/2ohms = 6v12v/3ohm = 4v 3. What is the total current? 6v + 4v = 10v

28 Overview: Series v Parallel Circuits SeriesParallel Pathways for electrons and current Only 1 path.Multiple Pathways for current Current (I) Always the same throughoutDifferent at each branch – MUST CALCULATE Voltage (V) VOLTAGE DROP after every resistor/bulb: MUST CALCULATE each separately Each Branch starts with same voltage (Voltage drops to 0v after each branch) Resistance ( Ω ) Add up all to get total resistance Each branch different - MUST CALCULATE each branch separately – Ohm’s Law

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