The Resistance of a Wire
Planning
These are the four factors that can affect the resistance of a wire.
How thick the wire is How long the wire is
Factors that can affect
resistance
The heat of the wire What the wire is made of
Background theory
In metals the molecules are usually single atoms and electrical forces
hold these together. The atoms are packed tightly together in a
regular pattern and electrical forces hold these together. The tight
packing causes outer electrons to get separated from their atoms. This
is the reason why metals are good conductors of electricity as the
electrons are free to carry charge.
When a voltage is applied across a wire, the electrons drift through
the metal. It is an unsteady motion as the electrons continually
collide with the ions. The electrons accelerate, collide with the ions
and stop. However, because there is a voltage going across the wire
they accelerate again until they reach another ion. The movement of
the electrons is a stop-start process. So the ions cause the
resistance of the wire.
For a constant length of wire, if we double the diameter, as shown
below:
The area increases 4 times. This means that the voltage will affect
four times the number of electrons. The current will increase and the
resistance will decrease.
Source - Co-ordinated Science - Chemistry textbook page 50
Prediction
I predict the resistance of the wire will decrease as the
cross-sectional area of the wire increases. I predict that doubling
the area will half the resistance.
Fair testing
Throughout the investigation the following will not change:
* Temperature (room temperature)
* Length of wire
* Material of wire
Number of measurements
I shall measure the resistance of 5 different wires, each of a
different diameter. I will then repeat the reading and find the
average in each case.
Apparatus
I also decided to use a wooden block to keep hold of the wire, because
longer it will take electrons to get to the end of the wire. This is
From this I can tell I can use 3 volts and resistance wire that is
Measuring the Resistivity of a Wire Aim The aim of this experiment is to find out how the area of the cross section of the wire affects the resistance and also to find out the resistivity of the wire having found the resistance over a certain length and using a certain cross sectional area. I will also experiment to see how the length of the wire affects the resistance. Plan The first thing that I will do is to set up the apparatus as shown. below. The.. A, V Except for the experiment where I alter the length, I will keep the length of the wire constant throughout the experiments and only change.
have to be across the wire and not just anywhere in the circuit so it
there will be. So if the length of the wire were to double, so would
V is voltage in volts and I is current in amperes. L:- is the length
50cm for us. The current will be kept on the same level using the same
Factors Affecting the Resistance of a Wire The aim of this experiment is to investigate one factor that affect the resistance of a wire. I will do this by performing an experiment. First I will need to identify the factors that effect resistance. There are a few factors that affect the resistance, it is determined by the properties an object has.
Relationship Between the Resistance and the Length of a Wire Aim: To find the relationship between the resistance of the wire and
Investigating the Effect the Thickness of a Wire has on Its Resistance. Equipment:.. Nickel Wire cut into 10 pieces of 30cm length (Ruler, Pliers). Two crocodile clips Five Pieces of Wire Power Source Variable Resistor Ammeter Volt Meter Method: The.. =
An Investigation into the Relationship Between the Resistance of a Wire and Its Diameter and Length
Investigating the Factors that Affect the Resistance of a Wire. Aim To study the factors that affect the resistance of a wire. Background Information Current and potential differences measure different things. they are related to each other.
Investigating the Relationship Between the Length of a Wire and Its Resistance Aim: To find the relationship between the length of a wire and it’s resistance. Planning: We conducted a preliminary experiment to help us conduct the real experiment. In this preliminary experiment we aimed to find out what thickness and type of wire would be suitable for the experiment, and what range of lengths of wire and range of voltages and currents would be suitable for measuring. We discovered that at too great a voltages and too short a length, the wire became very hot. One time it melted, in a way similar to a fuse, because of the hot temperature, but this was only when we tested a length of 2cm.
of the atoms, so if there are more or larger atoms then there must be