Concentration of sulfuric acid

absorption of due southic bitingAbstractMy re depend question, as the topic states, is How would the slow-wittedness of siemensic dot shanghai the sum up of enthalpy bumble produced when it reacts with agitate? The tenability that I want to do this test is to elevate whether the collision conjecture in Chapter6.2 of the Chemistry textual matter1 is true about the concentration testament affect the mark of a answer. And I also did a nonher extend experiment about whether the temperature testament affect the rate of a reaction. After a lot of calculations, and analysis of the experiments data I got, my conclusion is the collision theory is not real suitable on this pull up stakesicular experiment.IntroductionIn Chapter 6 of IB chemistry textbook about Kinetics, the ingredients that get out affect the rate of a reaction argon Concentration, pressure, temperature, surface area and catalyst. I want to choose one of these factors and prove if it leave actually af fect the reaction rate and I choose the concentration.Then I started to think about the experiment that rear end show whether the concentration of the reactants lead affect the reaction rate. Because my schools laboratory is actually limited, so I throne only do the experiments that are easy to operate and exit not use precise sophisticated apparatus. So, after serious consideration, I decided to use the iron react with sulfuric panelling, the formula is elaborated belowFe + H2SO4 FeSO4 + H2The reason that I choose to do this experiment is that this experiment can generate suck and the tools to do this experiment are easy to obtain. In Chapter 6 of the Chemistry textbook, one of the techniques for measuring rate is a array of an evolved shove along. Because the rate that the gas generated can represent the rate of the whole reaction, so I just involve to barroom how fast does the hydrogen gas evolve.Development of the ExperimentThis experiment is not as simplex as it l ooks like. The first way I use is let iron react with opposite concentration sulfuric back breaker, and use a takewatch to legal community the time for each different reaction to finish. unless after I give a try of this method, I found out that for a reaction to completely stop will take hours or more, which means this way wastes too much time, so this method is not very practical.The second way that came out of my mind is let the hydrogen gas been evolved to fill a balloon, and see how much time it will take to let the balloon to explode. provided as everyone knows, Hydrogen gas can burn, so when the balloon explodes, it whitethorn also set finish up the hydrogen gas, so this method is way too dangerous to operate.The final method I real is close to perfect (I think), and it is better to be shown by a photographIn the left part of this photo, the iron and sulfuric red-hot will generate hydrogen gas the hydrogen gas will go into the beaker in the middle of this photo with the rubber electron resistance. Because the beaker in the middle has been filled with water, the hydrogen gas go into the beaker will begin to push the water out of the beaker. Because there is another trash tube in the beaker (you can see it in the photograph), water will be push into the calibrated flask in the right part of the photo through the glass tube and the rubber tube. I just need to measure the time for a certain mensuration of water that has been push into the graduated flask, and compare the time taken of every different reaction, I will know whether the concentration will affect the rate of the reaction.Although this method is perfect for me, I still made a flaw when I was assembling the apparatus togetherAs the photograph preceding(prenominal) shows, this is the beaker used to let the reaction took place. The mistake I made is The glass tube is too deep. Because the glass tube is so deep that the talk of the glass tube is totally immersed by the sulfuric venomous, thus the hydrogen gas evolved cannot go through the glass tube, as a result, the hydrogen gas push the sulfuric acid into the glass tubeLuckily, this mistake is not very hard to correct, I just need to pull the glass tube out a little bit, as the photograph shows belowExperimental ProcedureMaterial and instruments exquisite iron pulverise, very concentrated sulfuric acid, gas collecting bottle, conical flask, balance, stop watch, grad cylinder, glass tubes and soft rubber tubes.Because the sulfuric acid I got is very concentrated (98%), so the first matter I need to do is preparing sulfuric acid which has different concentration.Use the grad cylinder to measure certain amount of 98% sulfuric acid.Use the grad cylinder to measure certain amount of water. attach the sulfuric acid very slowly into the water and use a glass stirs guard whisking the mixture. I have buy uped these procedures for nine times because I raised the concentration of sulfuric acid by 10% each tim e, finally I got 9 solutions have different concentration 10%, 20%, 30%, 40%, 50%, 60%,70%, 80% and 90%.Use the balance to measure exactly 5g of iron powder. summarize the iron powder into the beaker on the left of the photograph.Add the 10% sulfuric acid into the beaker on the left of the photograph.The hydrogen gas will press the water in the bottle into the grad cylinder and use the stop watch to measure the time taken for the hydrogen gas to press out certain volume of water.Add the 5g of iron powder and 20% sulfuric acid into the left beaker hence repeat measure 6 and 7.Add the 5g of iron powder and 30% sulfuric acid into the left beaker then repeat step 6 and 7.Add the 5g of iron powder and 40% sulfuric acid into the left beaker, then repeat step 6 and 7.Add the 5g of iron powder and 50% sulfuric acid into the left beaker then repeat step 6 and 7.Add the 5g of iron powder and 60% sulfuric acid into the left beaker then repeat step 6 and 7.Add the 5g of iron powder and 70% sul furic acid into the left beaker then repeat step 6 and 7.Add the 5g of iron powder and 80% sulfuric acid into the left beaker then repeat step 6 and 7.Add the 5g of iron powder and 90% sulfuric acid into the left beaker then repeat step 6 and 7.Add the 5g of iron powder and 98% sulfuric acid into the left beaker then repeat step 6 and 7.Data and AnalysisFrom the table above, we can see a very strange trend When the concentration of sulfuric acid increase from 10% to 60%, the time is decreasing, in other words, the rate of the reaction keeps speeding up but when the concentration of sulfuric acid reaches 70%, theres no reaction between iron and sulfuric acid at all At first, I cannot even believe what I saw, so I repeat the reaction between iron and 70% sulfuric acid for several times but eventually lead to the same result nought happened. Then I search this strange thing among a lot of books and websites, and this is called passivation2.Definition of passivation Passivation is the process of qualification a material passive in relation to another material forward to using the materials together. For example, prior to storing hydrogen peroxide in an aluminium container, the container can be passivated by rinsing it with a shorten solution of nitric acid and peroxide alternating with deionized water. The nitric acid and peroxide oxidizes and dissolves all impurities on the inner surface of the container, and the deionized water rinses away the acid and oxidized impurities. Another typical passivation process of killing stainless steel tanks involves cleaning with sodium hydroxide and citric acid followed by nitric acid (up to 20% at 120 F) and a complete water rinse. This process will restore the acquire remove metal particles, dirt, and welding-generated compounds (e.g. oxides).In the context of eroding, passivation is the spontaneous formation of a hard non-reactive surface icon that inhibits further corrosion. This bottom is usually an oxide or nitr ide that is a few atoms thick.Mechanisms of passivation Under normal conditions of pH and oxygen concentration, passivation is seen in such materials as aluminum, iron, zinc, magnesium, copper, stainless steel, titanium, and silicon.Ordinary steel can form a passivating layer in alkali environments, as rebar does in concrete. The conditions necessary for passivation are recorded in Roubaix diagrams.Some corrosion inhibitors help the formation of a passivation layer on the surface of the metals to which they are applied.Passivation of specific materials Aluminum may be protected from oxidisation by anodizing and/or valorizing (sometimes called Anodizing), or any of an assortment of similar processes. In addition, stacked passivation techniques are often used for protecting aluminum. For example, chromating is often used as a sealant to a previously-anodized surface, to increase resistance to salt-water exposure of aluminum parts by nearly a factor of 2 versus simply relying on anod izing.Ferrous materials, including steel, may be somewhat protected by promoting oxidation (rust) and then converting the oxidation to a metalophosphate by using phosphoric acid and further protected by surface coating. As the uncoated surface is water-soluble a preferred method is to form manganese or zinc compounds by a process commonly known as Parkerizing or phosphate conversion. Older, less-effective but chemically-similar electrochemical conversion coatings included bluing, also known as black oxide.Nickel can be used for handling elemental fluorine, thanks to a passivation layer of nickel fluoride.After we translate the above explanation of passivation, the reason why iron does not react with concentrated sulfuric acid is pretty clear Because concentrated sulfuric acid is extremely oxidizing, so as long the sulfuric touches the surface of iron, it will form an oxidized layer on the iron and this layer will stop iron and sulfuric acid being touch, thus there is no reaction w ould occur.An Extend of the studyIt seems that this experiment could be end here, but theres another idea came out of my mind Since concentration cannot always affect the rate of the reaction, what about the other factors? Will other factors be suitable on this very particular case? Then I decided to do another experiment to see whether the temperature will affect the rate of this reaction.ProcedureUse the balance to measure 5 gram iron powder.Add the iron powder into a clean test tube.Add some 98% sulfuric acid into the same test tube.Use an alcohol burner to heat the test tube and observe what will happen. non everything goes like we expected, and this experiment is not an exception.As you can see, in the photograph on page 15, theres a lot of gas evolved from the test tube, but I can definitely tell you that this gas is not hydrogen gas, there are two evidence I can found to prove that this is not hydrogen gasWe all know that hydrogen gas can burn, right? But when I put the mou th of the test tube very closely to the fire, I bevel square see any combustion.We all know that hydrogen gas doesnt have any odor, but when this gas evolved, I can smell a very strong pungent and smelly odor.This evidence can prove this gas is not hydrogen gas, but this evidence also leads to another question What gas is it?I search on the internet and I found an equation that may be relevant to this experiment2Fe+6H2SO4(Hot, concentrated)=Fe2(SO4)3+3SO2+6H2OI also found out the reason for why would the experiment react like the equation above in a Chinese website, here is the translation When the temperature is rise, the oxidized layer on the iron will be destroyed and prevent this layer regenerate. Thus, the concentrated sulfuric acid can react with the iron. Also, the rising temperature cause the sulfuric acid be more oxidizing than when its cold, so this directly cause the oxidation number of iron to increase, and this is the reason that when iron react with hot, concentrated sulfuric acid will generate sulfur dioxide(Which is the pungent and smelly odor I mentioned in the second evidence on page 16). purposeThe Collision Theory in Chapter 6.2 of the Chemistry textbook, which states The rate at which particles collide is increased by change magnitude the concentration of the reactants, is not suitable on every reaction. In this case, increase the concentration of sulfuric acid can only increase the reaction rate in a certain range.Increase the temperature of the reactants will not always leads to the increase of reaction rate instead, increase the temperature may leads to a totally different reaction. In this case, raise the temperature will cause the iron and sulfuric acid to react and generate sulfur dioxide, rather than hydrogen gas.Some limitation of the experimentAfter I know iron will not react with 70% sulfuric acid, I decided to do more experiments to obtain the complete Reaction-Stop Concentration, which must be in the range of 60%-70%, but b ecause the experiments tools I have are very limited, so I cannot raise the concentration by1% at a time as I wanted, which leaves a little bit flaw to this experiment.Normally students should do experiments in the schools laboratory, but because of some reason, the lab cant give us the opportunity to do the experiment, so I have to buy the tools and materials and do the experiments at home, so this cause a lot of inconveniences to my experiments.Bibliography and ReferencesDamji, Sadru and Green, John, indite place unknown, IBID Chemistry Book 2nd edition.Budinski, Kenneth G. (1988), written at Englewood Cliffs, forward-looking Jersey, Surface Engineering for Wear Resistance, Prentice Hall.Brimi, Marjorie A. (1965), written at New York, New York, Electrofinishing, American Elsevier Publishing Company, Inc.