3-ELE-06
Contents
Outcomes
- Pupils can use the equation P=IV to find out how the power of a light bulb changes with V
Specification References
2.6 recall and use the relationship, power = current x voltage, P=IV and apply the relationship to the selection of appropriate fuses
Starter
Define "Power". Pupils to duscuss in pairs the meaning of power and then feedback to the group
Main Body of Lesson
- Circuits recap
Go through the circuit symbol powerpoint quiz. This contains lots of symbols they know and some they don't (and don't actucally need to but it takes the number up to a nice round 20).
There is also an answer version should you need it.
- Power output of a bulb
Intro to practical: Use an ammeter and voltmeter to measure I and V of a bulb while changing V. Will need to show a clear circuit diagram to help them set up. (Could use variable supply power supply with set voltages 2V to 12V instead of a voltmeter. No need then for voltmeter or variable resistor.)
Record values of V and I and note the brightness of the bulb each time. Leave a column to calculate Power = IV each time.
Plot I against V.
What have students noticed about power of the bulb?
Plenary
Conclusion : Power of the bulb is only as written on the side when the voltage across it is that stated on the bulb.
Extension: Could talk about what the area under the V against I graph represents: Power.
Homework
- Pupils to use their electricity meter to identify the amount of energy used per day.
- Pupils to fill in the worksheet to calcuate various values
Additional Information
Resources Required
12V bulbs 2V to 12V variable dc power supply or 12V dc supply and variable resistor. Ammeter Voltmeter (if not using pre-set variable power supply) graph paper
Textbook References
Pages 192-193
Website References
Skills Addressed
Observation and recording of results. Graph plotting.
Safety/Hazards
- Bulbs can get warm.
- Do not supply power supply greater than 12V or bulbs will blow - High voltages.
Notes
Students should be allowed to explore for themselves what happens to the power and brightness of a buld as the voltage changes. Can link conclusion back to ideas of:
- higher voltage = more joules per coulomb converted by bulb to light and heat.
- higher voltage leads to greater current, so power increases.
Extension: Would the power go on increasing as voltage increases? Why?
