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Thursday, March 7, 2019

Ohm’s Law Investigation Essay

Hypothesis Because I am using slovenly person electrify as a resistor, when I ontogeny the length of the wire the protection should take to the woods how resistors in series work. This means that when I maturation the length of wire (or add a piece in a series circuit) the electric resistance should increase too. Due to the increase in the reckon of atoms and ions between the two terminals it takes the electrons longer to get from one(a) side to the other. For employment if I triplex the length of the wire the resistance get out double and the veritable leave halve. My graph at the end should look something like thisThe length of wire and resistance should be directly proportionate to severally other. Equipment -2 1. 5V cells -Metre ruler -Copper wire -Voltmeter -Ammeter -Wiring -Crocodile clips Method First I decided upon the typecast of wire I was going to use (copper), I made current it was the same thickness each time I took readings because as aforementioned, if the swing come on sectional area is non kept unbroken, it will definitely strickle the resistance and and so make my results inaccurate. Then I totald it to 100cm by laying it a blow a metre ruler, because this way I freighter be accurate to the millimetre.I then hooked the 2 cells up to the copper wire stretched across the metre ruler using my wires and crocodile clips. I connected the two terminals on the metre ruler 40cm apart. For this experimentation I will take readings for p. d (potential difference) and the resistance using an ammeter and a voltmeter at outperforms ranging from 40cm to 100cm I will take measurements in 5cm intervals (i. e. take measurements from 40cm, 45 cm and so on so forth). I made sure that the voltmeter and ammeter were fall up in PARALLEL not series as this would constipation them. Below is a diagram of my apparatus and how I set it upAnd the (simple) schematic of the circuit In this experiment I will sustentation all things constant (apart from the length of wire). I will lionize do all my measurements in one day in a laconic space of time in the same room away from the windows (out of the sun) so the temperature does not change noticeably while I am carrying out the experiment, as this would affect my results and make them inaccurate. Also, when charge turn tails through the wire and on that point is resistance, it generates heat in the wire. I will keep the power on the wire for the least amount of time and take my readings quickly so the temperature does not affect my results.In addition to this I will in like manner wait a minute after each reading so that the wire coolheadeds to room temperature again and my results are accurate. In theory the graph-line should be straight if it isnt then it indicates that there is another variable. The other constant is the cross sectional area of my wire this is fairly easy to keep constant just use the same piece of wire. I pull in to keep this the same becau se cross sectional area of wire is proportional to the resistance if I do not keep it the same it will also make my results inaccurate.I will take readings from each distance 3 generation and take the medium of those, so I bed greatly decrease the chances of getting an anomalous result. Results Here is the results table followed by a graph representing each of the 3 p. d, Current and then resistance. distance of Wire (cm) Potential Difference (V) Current (A) protection (? ).And finally, to calculate the resistance I used the ohms law formula of R=V/I. Analysis My experiment was very successful and the results I got proved to be quite accurate and precise. Therefore my graphs and result tables provide me with a understructure to understand just why length affects the resistance. My prediction was that when I increase the length of wire the resistance should increase too my prediction is back up by my results and appears to be correct. The graphs and tables prove that the lo nger the copper wire, the higher the resistance.Resistance is also linked to charge flow, if I change the charge flow it will have an affect on the equation I = Q/t. If the current is changed then this will have an affect on the resistance. So with the uphold of the formulae I=Q/t and R=V/I, I now inhabit that if I increase the charge flow, the current increases and the resistance decreases. Consequently if I double the length of wire the equation I = Q / t will be halved (due to the time increasing) causing the current to be halved and the resistance to be doubled.I can see one anomalous result in the Current graph, which is at a length of 80cm it appears to be at a slightly lower current than it should be in relation to the others. military rank Using my results and my graphs I can clearly tell that my experiment was successful, I can tell this because, generally, none of my results have any inconsistent results and my graphs scan straight lines. Even after repeating my exper iment many times my graphs still remained just as precise and the graph showing the average results of the experiment is a perfect straight line.The fact that I got the uniform results each time I did the experiment suggests that is was successful and also reliable, thus I must have carried out the experiment well. The way in which I conducted the experiment was good because I made sure that the potential difference supplied to the wire was equal each time, the cross sectional area of the wire remained the same, and also that the wire cooled down between each result. The use of mm instead of cm made sure that the length was exact and not longer or shorter. Therefore my results were successful and reliable for us to work from.However this did not mean that the way in which I did the experiment couldnt have been improved. Having to secure the wire so as to measure the length meant that it was difficult to attach the crocodile clips to exactly the end of the wire. I could not be sure that as I left the wire to cool it was not at a different temperature each time I begun again this could have affected my results if it had been vastly different. In my experiment, I could also have investigated a number of other things, such as the tack of cross sectional area or temperature on the resistance.If I had looked at the effect that the cross sectional area had on resistance I would probably discover that as the wire doubled in cross sectional area the resistance would halve. This would be due to there macrocosm twice as many electrons the current would travel a cover quicker and thus decrease the resistance. If I looked at how temperature affected resistance I would probably find that as the temperature of the wire increases, the particles within sire to vibrate much more because they have some extra energy, then it is much harder for the electrons to move through and thus the resistance will rise.So instead of just investigating how length affected the resistanc e of a piece of wire I could also have investigated the affect of temperature or cross sectional area on the piece of wire tour Burclaff Page 1 of 10 Show preview only The to a higher place preview is unformatted text This student written piece of work is one of many that can be found in our GCSE Electricity and magnetism section.

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