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Diagramming Circuits S1-3-14 Construct electric circuits using schematic diagrams. Include: series, parallel.  

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Presentation on theme: "Diagramming Circuits S1-3-14 Construct electric circuits using schematic diagrams. Include: series, parallel.  "— Presentation transcript:

1 Diagramming Circuits S Construct electric circuits using schematic diagrams. Include: series, parallel.

2 The Parts of an Electric Circuit…
For current electricity to occur, we must have a circuit - a pathway for electricity to flow. 1. Energy Source: Place where the current comes from Battery, generator, turbine, wall outlets, etc. 2. Electrical Load: Anything that converts electrical energy into another form of energy.  Resistors, light bulbs 3. Control Device: - Switches, thermostats, etc. 4. Connectors: Wires

3 Circuits… A circuit usually forms a “loop” from the Energy source through wires and back to the power source or to the ground A circuit can be: Closed - A circuit that is operating, the pathway is complete. Open - A circuit that is not operating, the pathway is not complete.

4 Types of Circuits… There are two main types of circuits: 1. Series – Only one pathway for electrons to flow.

5 Types of Circuits… 2. Parallel – Two or more pathways for electrons to flow.

6 Rules for Drawing Circuit Diagrams…
Electrons flow from negative to positive. The switch should be the first thing that the electrons go through. Ammeters (current) – are wired in series. Voltmeters (pot. difference) – are wired in parallel. Voltage Rise = Voltage of the cell, Voltage Drop = Voltage across a load

7 Circuit Schematic Diagrams…
Scientists and electricians have developed a standard method of drawing circuits using what are called Schematic symbols. The following are the major symbols you will encounter:

8 Circuits in Series… Electrons have only one path to flow (like a race track). If there is a break in the circuit, electrons will not flow. Build and Draw the following circuit: 1 switch, 2 bulbs in series, 1 cell. Now use a multimeter to measure the voltage rise, voltage drop, and the current of the circuit. Then draw the placement of the multimeter above. VRise = VDrop = I =

9 Circuits in Parallel… Electrons have more than one path to flow (like city streets). If there is a break in the circuit, electrons will continue to flow. Build and Draw the following circuit: 1 switch, 2 bulbs in parallel, 1 cell. Now use a multimeter to measure the voltage rise, voltage drop, and the current of the circuit. Then draw the placement of the multimeter above. VRise = VDrop = I =

10 Cells in Series & Parallel…
We can wire our cells in different ways. Cells in Series: Cells wired in series gives an increased voltage. Batteries are made of different cells wired together in series.

11 Cells in Series & Parallel…
Cells in Parallel: Cells in parallel do not increase voltage. Cells in parallel last much longer because voltage is divided between the two (or more) cells.

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