How the area of a wire affects the resistance in a circuit Essay

Electricity is conducted through a conductor. Resistance is the word practice sessiond to describe the opposition surrounded by forces. The more free electrons there are, the better the conduction and the worse the underground is. The more atoms vibrate, the more resistance there is. The free electrons are given energy, as a result they move and collide with the touch electrons. This happen through aside the whole telegraph. This is how the electricity is conducted. Resistance is the result of energy loss in word form of heat. How do we measure it? V=I/R V=Voltage I =Current R=Resistance Ohms Law.This law states that the current through a met allic conductor (wire) at a constant temperature is proportional to the potential difference (Voltage). in that respectfore the Voltage and Current is constant. If the resistance accessions the temperature increases, so it stay constant. At higher temperatures the particles move more quickly, increasing the collision of the free electron s. Possible Input Variables telegraph area Wire thickness Wire distance Applied pentadage Material Taught connections Cross- sectional knead Insulated Density of wire coil or not Temperature Preliminary Experiments.Easy to measure? Easy to dislodge Wire area V V Wire thickness X X Wire length V V Applied voltage V V Material X V Taught connections X X Cross-sectional shape X X Insulated X V Density of wire V X Coiled or not V V Temperature V V Applied I or V by a double cell which is deliberate by digital volt and ammeter. I willing find out the Resistance by the formula using R=V/I. Wire area. It is difficult to change the area. A possible solution would be to add wires and twist them together. Coiled or not? It has not got an obvious affect. The Voltage and Current didnt increase or decrease. Temperature.My whim was to set up a water bath to keep the wire at a kindred temperature at every point. I would sample with temperatures from 20? C-100 (room temperature to the bo iling point of water) Wire length. Is very swooning to set up. There is a very large range of results. Chosen Input variable I chose wire area as my variable because it is has a better variety of results. I will birth 8 wires with the same cross sectional area. It would be to expensive using different cross sectional sizes of wire. I will put the wire parallel of latitude to each other an twist them add the send away to increase the area of the wire.My chosen output variable is resistance because that is what I am looking for in the wire. Fair Test In the test I am not going to change anything ( wire length and applied voltage). The only thing I will change is the area of the wire (input variable). I will use the same equipment throughout the foot race, to make sure it is a fair test. If I would use different equipment it may give me different readings. I am using a sanctuary resistor, so that the current is the same and that the wire will not overheat. It would not be a fair test if the wire would heat because it would give my different sets of results at different temperatures.It could also be a safety hazard if the wire overheats. Method Cut eight wires of the same cross sectional area in 35cm length (only 30cm of wire measured because I have to attach crocodile clips on each side The equipment is as following 2 cell Battery Ammeter+ Voltmeter Safety Resistor 8 wires (35cm) 2 crocodile clips My circuit will look as following Let electricity pass through the circuit and note depressed the readings of the ammeter and voltmeter. Add more wires to the circuit and continue as planned Make three sets of results through an hi-fi experiment PredictionI will expect that if the area of the wire increases the resistance will decrease. This raise be proven by background physics of the past. Observation Test Results Nr. of wires This graph shows the voltages I measured Nr. of wires This graph shows the Current I measured Nr. of wires R1 R2 R3 Rave knowledge d omain m2 1/ battleground This graph shows me the resistance and resistance comely I have worked out. It also includes the formulas for the Area and 1/Area My Graphs are on a separate sheet of graph paper. Analysis My graph shows me that if I increase the area the resistance decreases.I have plotted two graphs to give me a wider range of results and averages in different areas (1/Area and Area m2). My Area graph looks like a y =1/X graph X Y 1 1 2 0. 5 3 0. 333 4 0. 25 To reassure this I have plotted an average 1/Area. If it is correct then I should get a straight line. When I plotted the graph I had a straight line. This tells me that the average is proportional to 1/Area i. e. Rave ? 1/Area. The slope is y/x= 10. 5/16= 0. 66 ? /mi I am ignoring the offset on my 1/Area graph This experiment shows me that resistance is definitely affected by the area of the wire.Looking at my background physics it has worked out like resistors on a parallel circuit. When attaching another wire to th e experiment it acts like adding another parallel resistor in a parallel circuit. So if the area of the wire increases the resistance decreases. Also I have learned if the voltage goes down the resistance goes up Evaluation I found this experiment easy to do. I had no anomalies on my graph. This means that the points I have plotted are all in a acceptable arrangement. There were no experimental caused by a faulty connection. There were no safety hazards and the experiment was safe to do.