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Electricity Sections 2 and 3. Electric Energy Cells/Batteries - Cell - device that produces an electrical current by converting chemical energy into electrical.

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Presentation on theme: "Electricity Sections 2 and 3. Electric Energy Cells/Batteries - Cell - device that produces an electrical current by converting chemical energy into electrical."— Presentation transcript:

1 Electricity Sections 2 and 3

2 Electric Energy Cells/Batteries - Cell - device that produces an electrical current by converting chemical energy into electrical energy - Battery – is made of several cells

3 Parts of a Cell Electrolyte – mixture of chemicals that conduct a current Chemical reactions in the electrolyte convert chemical energy into electrical energy – Electrodes – part of the cell through which charges enter or exit Two different electrodes made of different conducting material

4 Electrolyte Electrode

5 Potential Difference The current between the two electrodes exists because of the chemical reaction in the electrolyte causing the electrodes to become charged differently This electric current that is produced causes energy. The energy is the POTENTIAL DIFFERENCE (Volts,V)

6 Potential Difference The greater the potential difference, the greater the current.

7 Electric Current The RATE at which charges flow through a material. ❖ Unit is Ampere (A) ➢ The number of amps describes the amount of charge flowing past a given point. ❖ Symbol in an equation is I

8 page 167- Fig. 1

9 Voltage Another word for potential difference – difference in energy per unit charge as it moves between two points in the path of a current Expressed in Volts (V) Symbol in an equation is V

10 Resistance Opposition to the flow of electric charge –Holds the charge back from flowing – –Expressed in Ohms ( Ω ) –Symbol in an equation is R – –The more resistance – the less flow/lower the current

11 Resistance The amount of resistance depends on material, thickness, length, and temperature If more than one path for current is available, the current will flow through the path that has the least resistance.

12 Tying it all together Ohm’s Law I = V/R Current = Voltage Resistance Amphers (A) = Volts (V) ohms (Ω)

13 Circuits Circuit = complete, closed path through which electric charges flow PARTS –load: device that uses electrical energy to do work –Light bulbs, appliances, motors »Causes electrical energy to change into a different type of energy such as light or kinetic energy –Wires –Energy source A switch is sometimes used

14 Types of Circuits - Series Circuit where all parts are connected in a single loop Follow one path All of the loads share the same current The more loads you add, the more resistance is created, therefore, lowering the amount of current

15

16 Series Circuit Uses: - Automatic door at the grocery store

17 Parallel Circuits Circuit in which different loads are located on separate branches Charges can follow more than one path Loads do not have/share the same current –Each load uses the same as what the voltage is If one of the loads goes out, the rest will still work unlike a series circuit because the current will find a different branch to travel

18

19 Circuit Diagram Symbols

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