To investigate how the resistance of a wire is affected by the length of the wire.
What is resistance?
Resistance is a force which opposes the flow of an electric current around a circuit so that energy is required to push the charged particles around the circuit. The circuit itself can resist the flow of particles if the wires are either very thin or very long.
e.g. The filament across an electric light bulb.
How is it measured?
The resistance of a length of wire is calculated by measuring the current present in the circuit (in series) and the voltage across the wire (in parallel). These measurements are then applied to this formula:
Gradient = resistance
V = I x R
The other ways of writing Ohm's Law are:
R = V/I or I = V/R
It is also relevant to know of Ohm's Law, which states that the current through a metallic conductor (e.g.
wire) at a constant temperature is proportional to the potential difference (voltage).
The longer the wire, the higher the resistance. This is because the longer the wire, the more times the free electrons will collide with other free electrons, the particles making up the metal, and any impurities in the metal. Therefore, more energy is going to be lost in these collisions (as heat).
Furthermore, doubling the length of the wire will result in double the resistance. This is because by doubling the length of the wire one is also doubling the collisions that will occur, thus doubling the amount of energy lost in these collisions.
Independent variable - length of wire. I'll do six different readings, varying the length in each reading.
Dependent variable - what you'll measure. I'll measure the resistance in each reading.