Difference between revisions of "Electrical Cell"
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An '''electrical cell''' is the part of a circuit that makes the electricity flow. | An '''electrical cell''' is the part of a circuit that makes the electricity flow. | ||
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: Singular [[Noun]]: '''Electrical Cell''' | : Singular [[Noun]]: '''Electrical Cell''' | ||
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==Key Stage 3== | ==Key Stage 3== | ||
===Meaning=== | ===Meaning=== | ||
− | An electrical cell is an electrical device that has a chemical energy store which provides a push for | + | An '''electrical cell''' is an electrical device that has a [[Chemical Potential Energy Store|chemical potential energy store]] which provides a push for [[electron]]s to flow around a [[circuit]]. |
+ | |||
+ | ===About Electrical Cells=== | ||
+ | : An '''electrical cell''' stores energy. | ||
+ | : Inside an '''electrical cell''' there are chemicals that react with each other. | ||
+ | : An '''electrical cell''' pushes the electricity along the wires when there is a complete circuit. | ||
+ | |||
+ | {| class="wikitable" | ||
+ | |- | ||
+ | |[[File:ElectricalCell.png|center|200px]] | ||
+ | |[[File:CellSymbol.png|center|200px]] | ||
+ | |- | ||
+ | |An '''electrical cell'''. | ||
+ | |The symbol for an '''electrical cell'''. | ||
+ | |} | ||
+ | |||
+ | ==Key Stage 4== | ||
+ | ===Meaning=== | ||
+ | [[File:CellSymbol.png|right|300px|thumb|The [[Circuit Symbol|circuit symbol]] for an '''electrical cell'''.]] | ||
+ | An '''electrical cell''' is a device capable of storing [[Chemical Potential Energy Store|store chemical potential energy]] which can be transferred by [[electricity|electrically]] to [[Electrical Component|components]] in a [[circuit]]. | ||
+ | |||
+ | ===About Electrical Cells=== | ||
+ | : An '''electrical cell''' is a source of [[Direct Current|direct current]]. | ||
+ | : '''Electrical cells''' contain a store of [[chemical]]s which can [[Chemical Reaction|react]] to produce a [[Potential Difference|potential difference]]. | ||
+ | : In an '''electrical cell''' a [[Displacement Reaction|displacement reaction]] occurs between different [[metal]]s. The greater the difference between [[reactivity]] of the [[metal]]s the greater the [[Potential Difference|potential difference]] provided by the '''cell'''. | ||
+ | : The [[Chemical Reaction|reaction]] only takes place when there is a complete [[circuit]]. If the [[circuit]] is broken the [[Chemical Reaction|reaction]] will stop. | ||
+ | : Once all of the [[reactant]]s have been used, the '''electrical cell''' will stop providing a [[Potential Difference|potential difference]]. | ||
+ | |||
+ | ==Beyond the Curriculum== | ||
+ | {{#ev:youtube|https://www.youtube.com/watch?v=9OVtk6G2TnQ}} |
Latest revision as of 16:55, 20 April 2019
Contents
Key Stage 1
Meaning
An electrical cell is something we use to power things that we don't plug in.
Key Stage 2
Meaning
An electrical cell is the part of a circuit that makes the electricity flow.
About Electrical Cells
- An electrical cell stores energy.
- Inside an electrical cell there are chemicals that react with each other.
- An electrical cell pushes the electricity along the wires when there is a complete circuit.
An electrical cell. | The symbol for an electrical cell. |
Note for Teachers
Key Stage 3
Meaning
An electrical cell is an electrical device that has a chemical potential energy store which provides a push for electrons to flow around a circuit.
About Electrical Cells
- An electrical cell stores energy.
- Inside an electrical cell there are chemicals that react with each other.
- An electrical cell pushes the electricity along the wires when there is a complete circuit.
An electrical cell. | The symbol for an electrical cell. |
Key Stage 4
Meaning
The circuit symbol for an electrical cell.
An electrical cell is a device capable of storing store chemical potential energy which can be transferred by electrically to components in a circuit.
About Electrical Cells
- An electrical cell is a source of direct current.
- Electrical cells contain a store of chemicals which can react to produce a potential difference.
- In an electrical cell a displacement reaction occurs between different metals. The greater the difference between reactivity of the metals the greater the potential difference provided by the cell.
- The reaction only takes place when there is a complete circuit. If the circuit is broken the reaction will stop.
- Once all of the reactants have been used, the electrical cell will stop providing a potential difference.