Difference between revisions of "3-ELE-04"
From MrReid.org Wiki
(→Specification References) |
(→Safety/Hazards) |
||
| Line 46: | Line 46: | ||
===Safety/Hazards=== | ===Safety/Hazards=== | ||
| − | * [[Media:RA1001_-_Physics_- | + | * [[Media:RA1001_-_Physics_-_High_voltagesv2.doc|High voltages]] |
| + | * Tweesers should be used to handle copper sulphate and potassium permanganate crystals | ||
| + | * The teacher should pour out the potassium permangante solution into beakers as the container is heavy - | ||
===Notes=== | ===Notes=== | ||
==Electricity Outline== | ==Electricity Outline== | ||
[[Electricity]] | [[Electricity]] | ||
Revision as of 13:08, 16 February 2010
Contents
Outcomes
- Pupils can use the equation: Q = I × t
- Pupils can identify the direction of movement of charge in a wire, charge in an electrolyte and the direction of flow of conventional current
- Pupils understand the effect of changing the voltage on the current
- Pupils know that the voltage is a measure of the energy per unit charge
Specification References
2.16 understand that current is the rate of flow of charge
2.17 recall and use the relationship between charge, current and time : charge = current × time
2.18 recall that electric current in solid metallic conductors is a flow of negatively charged electrons
2.19 recall that:
- voltage is the energy transferred per unit charge passed
- the volt is a joule per coulomb.
Starter
- Demonstrate potassium permanganate in amonia on filter paper, resting on a slide in an electric field. Alternatively view the movement of ions.
Main Body of Lesson
Class Practical: Electrolysis
- Use this worksheet to plan an experiment to investigate the variables that affect the rate of completely coating a 10p coin with copper - we are concentrating on how voltage affects the rate.
- The pupils make a detailed prediction as to which terminal the 10p should be placed and what the other variables should be set at in order to achieve the quickest coating.
- The pupils observe the coin being coated. After a fixed time interval, maybe 4 minutes, the pupils remove the coin, dry it and reweigh it to find the mass of copper transferred. This is done for a range of voltages. The resulting data shows how increasing the voltage (and therefore the current) affects the mass of copper added; therefore the movement of copper ions.
- In conclusion, the pupils should link increasing the 'voltage' to an increase in current when all other variables are kept constant. Furthermore, they should start to link voltage to the work done (energy) to coat the coin. Indeed if the voltage is increased then the ions are given more energy, move faster and the coin is coated more rapidly.
Plenary
- Class act as charges in a circuit. Which way would they move if they were i) positive ii) negative? What happens in a solid and a liquid?
Homework
- To read pages 176-180 in Complete Physics and to write an analogy for current, voltage and resistance in a series circuit.
Additional Information
Resources Required
- Movement of ions demo with potassium permanganate and amonia.
- Class practical electrolysis kits and 10pence pieces, accurate mass balance
Textbook References
- Complete Physics Pages 174-175.
Website References
Skills Addressed
Safety/Hazards
- High voltages
- Tweesers should be used to handle copper sulphate and potassium permanganate crystals
- The teacher should pour out the potassium permangante solution into beakers as the container is heavy -
