Chemistry investigation Essay

Aim I am going to carry come forward an investigation quantity rod the reckon of chemical answer surround by hydrochloric cutting and atomic number 12. The independent variable leave be the molar of the hydrochloric astringent I entrust be diluting it with piddle to win over the assiduousness. The dependent variable could be one of four things Temperature change, Mass loss, ball up produced using a burette or fumble produced using a catalyst spray. The dependent variable of the primary essay will be decided once I accommodate performed four preliminary experiments for each one with the varied dependent variables. The results of these preliminaries will help me determine which factor is the most(prenominal) accu arrange to standard.Background Information As I am plan to investigate the come out of response by changing the niggardliness of the dosage I should take into consideration how the answer is affected by concentration.If there is more of a inter nality in a system, there is a greater chance that molecules will collide and speed up the swan of the controvertion. If there is less of some(prenominal)thing, there will be fewer collisions and the reaction will probably happen at a slower speed.As you increase the concentration of the acid, there ar more acid particles in the same volume. Therefore there is a greater chance of acid particles colliding, and reacting, with particles on the surface atomic number 18a of the magnesium ribbon.Here is an example of how the prise of reaction will increase if the concentration gets higherimage00.pngWith this in approximation it is clear to elate that as I decrease the concent score of the acid by exculpate uping water to it I will be decreasing the consider of reaction. There is a positive correlation between the two variables.The experiment equation that will effectively happen isatomic number 12 + HYDROCHLORIC ACID MAGNESIUM CHLORIDE + HYDROGENMg + 2HCl - MgCl2 + H2Magnesium Magnesium is a light, silvery-white, and fairly spoilt metal. It tarnishes slightly in air, and finely divided magnesium enterily ignites upon estrus in air and burns with a dazzling white flame. Because effective fires tail occur, great cargon should be taken in manipulation magnesium metal, especially in the finely divided state. Water should non be used on burning magnesium or on magnesium fires.Hydrochloric acid Hydrochloric acid is the aqueous solution of hydrogen chloride fluid (HCl). It is a strong acid, the major component of gastric acid, and of dewy-eyed industrial use. Hydrochloric acid must(prenominal) be handled with appropriate safety precautions because it is a passing corrosive liquid.Hydrogen when mixed with oxygen across a wide range of proportions, hydrogen explodes upon ignition. Hydrogen burns violently in air. It ignites automatically at a temperature of 560. A nonher characteristic of hydrogen fires is that the flames tend to go up rapidly with t he gas in air.Magnesium chloride this is the name for the chemical compounds with the formulas MgCl2 and its diverse hydrates MgCl2 (H2O) x. These salts are typical ionic halides, being highly soluble in water. The hydrated magnesium chloride can be extracted from brine or ocean water. Anhydrous magnesium chloride is the principal precursor to magnesium metal, which is produced on a large ordered series.Preliminary experimentsMethod In this preliminary experiment I choose not to alter anything but to observe how the temperature increased in spite of appearance the cartridge holder of the reaction. I used 10ml of hydrochloric acid and 3cm of magnesium ribbon. I carried out three repeat measurements to gain an idea of what the results would look like if compared.military rating of Preliminary MethodsEach of the experiments above has limitations that strongly influenced the results. This has given me an idea of what pointedness of accuracy each method can be measured to and if the y are suitable to collect data for the primary experiment.Temperature Measuring the temperature is a transparent path of seeing where the rate of reaction begins, peaks and ends. It is a clear denotation material to how the magnesium reacts and at what temperature. There are, however, some inaccuracies to the formation of the set up. just about of the thermal energy detected by the thermometer is sometimes transferred into the glass of the conelike flaskful which led to an inaccurate reading. Furthermore the thermometer is slow to respond to the organise in temperature and overly only gives reading in whole meter so slight elevations in heat are difficult to read and thus inaccurate.Mass Loss Measuring the mass at different points in the experiment provides markers to see how much magnesium and hydrochloric acid has been reacted. The voltaic scale I used was too sensitive to get a general reading this affected the results severely. The mass would sometimes increase during the reaction due to a small piece of debris getting onto the scale or because a gust or air consequentially the results were askew. bungle Produced using a burette This is a very good way of measuring the rate of reaction. The measurements are clear and can be preserve to a decimal place which makes the results very accurate. There are some limitations, however, to using a burette. When the gas is produced it takes time for the hydrogen to travel along through the tube and up into the burette. This extends the time of the reaction slightly because not all the gas has been collected which the magnesium has been dissolved. Furthermore some aggregate of hydrogen have evaded the burette and simply floated to the surface of the water not being accounted for. This is a small inaccuracy but can assuage alter the results.Gas Produced using a gas syringe This is a very accurate piece of equipment. It does not drop out for gas to escape and records the data consistently and with speed. T he only limitations in using a gas syringe are that the reading can only be reading in whole numbers and that the syringe sometimes collects water vapor as well. The water vapour, however, can be eliminating by adding an extra conical flask to the tube which collects the vapour as it is slightly cooler.The gas syringe is the most advanced piece of equipment in each of the preliminary methods and also is the most accurate in recording the data. Therefore to calculate the rate of reaction between magnesium and hydrochloric acid my dependent variable will be the gas produced using a gas syringe.Hypothesis today that I have determined what I am going to measure and how I can now make my prediction over what I think will be the final outcome of the experiment.Rate of reactions are all based on the collision theory. This states that the more collisions in a system, the more likely combinations of molecules will occur. As a result of this the reaction will accelerate, and the rate of th at reaction will increase. The concentration of a substance will raise the number of collisions and thusly speed up the rate of reaction.On this basis I believe that if the molar of the hydrochloric acid is rock-bottom there will be less gas produced and so the rate of reaction will slow. Here is a diagramimage07.pngWe can see in the figure above that if the molar is halved then there are fewer particles in the water so fewer collisions can happen. The gas produced will therefore be reduced and the overall time of the reaction will decrease.VariablesVariable controlledHow it is controlledWhy it is controlledConcentration of MagnesiumBy measuring out a 3cm piece of magnesium each time I take a repeat measurement.I am measuring the concentration of the hydrochloric acid not the magnesium.Concentration of Hydrochloric acidI will dinero with 10ml of hydrochloric acid and replace 2ml of it with water every time I deficiencyiness to reduce the concentration.I want to observe what effec t it will have on the rate of reaction.Water VapourAdding an extra, cooler conical flask to collect the water vapour.I am measuring the gas produced between hydrochloric acid and magnesium water vapour is not a product.TemperatureBy putting the flasks in a thermostatically controlled water bath for 5 minutes before each experiment.I am measuring the concentration and do not want the higher temperature to give the particle more energy to collide.Apparatus500ml conical flasks- To hold back the magnesium and hydrochloric acid reaction and to collect the water vapour.Conical flask bung (with hole for tubing) To allow for gas only to travel through the tubing.Glass tubing- To direct the come down of gas.100 ml gas syringes- To measure the gas produced.Retort stand- To hold the gas syringe.Clamp- This is attached to the retort stand.50 ml measuring cylinder- To measuring the hydrochloric acid accuratelystop-clock- To measure the time of the reaction10ml of Hydrochloric Acid accession varying amounts of water- To measure the concentration of the acidMagnesium ribbon (3cm per experiment) To react with the acid.Ruler and scissors To measure and cut the magnesium ribbon.image08.pngHere is a diagramOther apparatus image10.pngimage09.pngimage11.pngimage02.pngimage03.pngObtaining precise and reliable resultsMy experimental visualize permits me to take very accurate measurement however, the only fault in its design is that the syringe only measures in whole numbers. This should not ticktack as a problem because I will take oodles of reading to compensate. I will then find the mean of elementary set of results so that I can compare them accurately in addition to this I will also take the range of the results which will allow me to observe whether they overlap.The limitations of my other apparatus are common. Although my stop can measure to a 10th of a second my reaction time will be a lot slower then this. The regulation and scissors should also be taken into cons ideration, measuring and cutting the magnesium could cause some variation. The measuring cylinder also has to be estimated to a rough degree when pouring the hydrochloric acid. All of these small inaccuracies can add up to a large error so I need to be very consistent so each result is rounded to the same degree of accuracy.Risk assessment during the practical various measures must be taken to view the experiment is carried out safely. These measures are eternally wear safety goggles (at all times) to ensure no chemicals make contact with eyes. Wear laboratory aprons to ensure there are no spillages onto clothing. Use a bench mat to stop spillages onto bench parry contact of acid on trim it is corrosive. If acid does touch skin it must be immediately washed off. Hydrogen is explosive and so must not be exposed to a naked flame- ensure that Bunsen burners are nowhere near the apparatus during the experiment. Basic science lab Rules i.e. do not run in labs, No food or drink allo wed etc. No concentration of hydrochloric acid greater than 2 molar, anything larger is dangerous.