4.Main Content
All Experiments
All Experiments
Listed below are all the experiments for this topic.
- A model hot-wire ammeter
- A model moving-iron meter
- A model of Millikan’s experiment
- A transistor as a current amplifier
- Bicycle dynamo and oscilloscope
- Charging by electrostatic induction
- Circuits from circuit diagrams
- Circuit with extra resistance
- Clearing smoke
- Comparing rms value and peak value of AC
- Conduction in a gas
- Conduction of liquids
- Conductivity of germanium
- Copper plating various metal objects
- Crossed wires - electrical fault-finding
- Currents and conductors
- Deflecting an electron beam
- Demonstration electroscope
- Electric charge using capacitors
- Electric fields
- Electrolysis of copper sulfate solution
- Electrolysis of water
- Electrolysis of water and the concept of charge
- Experiments with a Van de Graaff generator
- Experiments with switches
- Flowing fluids can become charged
- Forces due to electric charges
- Forces in an electrostatic field
- From galvanometer to ammeter
- From galvanometer to voltmeter
- Further electrostatic experiments
- Gold leaf electroscope
- Heating effect of a current
- How fuses work
- Internal resistance of a potato cell
- Internal resistance of a shoe box cell
- Introduction to copper plating
- Investigating series and parallel circuits
- Investigating the current around a circuit
- Investigating the resistance of wires
- Ions in a flame
- I/V characteristic of a carbon resistor
- I/V characteristic of a filament lamp
- I/V characteristic of a semiconductor diode
- Lamp brightness comparison
- Lamps in parallel
- Lead tree
- Learning to use voltmeters
- Making an electric arc work from the mains
- Measuring resistance with a voltmeter and an ammeter
- Modelling a resistive survey
- Model of ions in motion
- Model of train track signalling
- Moving charges are an electric current
- Ohm's law
- Ohm's law with alternating current
- Ohm's law without a voltmeter
- Potential difference and e.m.f.
- Problem circuit
- Relationship between volts and amps for electrolytes
- Series and branching circuits
- Showing that a spark can pass through air
- Simple electric circuits
- Slow AC with a capacitor
- Slow AC with a capacitor and an inductor
- Slow AC with a low frequency generator and a voltmeter
- Slow AC with a low frequency generator and oscilloscope
- Slow AC with an ohmic resistor
- Switching on a lamp
- Temperature change and resistance
- Testing fuses
- The current-through-glass demonstration
- The effect of heating common salt and paraffin-wax
- The effect of temperature on a thermistor
- The effect of temperature on conductivity
- The electric compass needle
- The voltmeter as a cell (battery) counter
- The water circuit: modelling current and potential difference
- The waveform of AC on a demonstration oscilloscope
- Use of a voltmeter
- Using a CRO as a voltmeter
- Using a CRO to measure short time intervals
- Using a CRO to show acoustic waveforms
- Using a CRO to show an AC waveform
- Using a CRO to show different waveforms
- Using a CRO to show rectification by a diode
- Using ammeters
- Voltage/current relationship for a gas
- Water circuit
- Wet paper demonstration of electrolysis
Updated 11 Apr 2006
End of Section Back to top