My Philosophy My Teaching Philosophy - 893 Words

My Teaching Philosophy Since Koreans started to learn English, thousands of people have struggled to master the language. Parents currently invest a lot of money and their children spend enormous amounts of time studying English as government suggests new language policies. However, proper verification and investigation of those policies have not been done yet and the outlet is really not promising (Suh, 2007). Most Korean students study English for tests. The purpose of English is so focused on tests that the situation makes the language classroom very uncomfortable and tense. This situation may also be caused by public schools? preferred method of teaching the grammar-translation method (GTM). Students are given lists of vocabulary terns and are also encouraged to learn grammatical rules, as teachers provide translation activities for their classes instead of practical oral proficiency practice (Richards and Rodgers, 2001). With the pressure of tests and teacher-centered lectures, many students lose inte rest in learning the English language or become stressed out about it. Most of all, some teachers and educators forgot to figure out why students learn the language. I want to use a more inspirational approach to teaching because motivations will affect such things as anxiety, or attitude or willingness to try new learning strategies (Hedge, 2000). Being a professional teacher includes providing good direction and advice to students on how to learn a language. GoodShow MoreRelatedMy Philosophy Of Teaching Philosophy911 Words   |  4 PagesTeaching Philosophy When I think about my teaching philosophy, I think of a quote by Nikos Kazantzakis, Greek writer and philosopher. Kazantzakis states, â€Å"True teachers are those who use themselves as bridges over which they invite their students to cross; then, having facilitated their crossing, joyfully collapse, encouraging them to create their own.† In my classroom, I will provide an environment that shows I am a â€Å"true teacher.† Philosophy of Discipline I believe that children learn best andRead MoreTeaching Philosophy : My Philosophy1100 Words   |  5 PagesTeaching Philosophy: Lauren Gross EDUC 120 Learn to Teach, Learn to Learn. / Use the past to teach the future ( That is my philosophy) Theory helps teachers think about what we experience and furthermore to teach and learn about how we, as educators, learn. Teachers should be supportive and cooperative, teachers should play the role of a friend, but also stealthily act in the role of advisor or guide for students. Teachers should live by existing educational theories, but also be able to createRead MoreMy Philosophy : Teaching Philosophy1071 Words   |  5 PagesAfter reading Professor Varis teaching philosophy it is quite evident he takes great consideration for his students and their learning opportunities. As I reflect on and review my understanding and my learning philosophy I am given the chance to reflect on past classes and possibly what could have been different on my behalf and the professor’s behalf. Also at this time I relish the opportunity to contimplate what my values, principles, achievement skills and also my expectations for this class areRead MoreMy Philosophy Of Teaching Philosophy1888 Wor ds   |  8 PagesTeaching Philosophy My philosophy of education is founded on the core principle that all children should have equal access to a quality education that will prepare them for higher education and to be contributing members of society. Schools were founded on the primary principle of teaching values to students as well as educating them academically. While values have been removed from the curriculum, I still believe much of what we do as teachers is instilling values in our students. As educators,Read MoreMy Educational Philosophy : My Philosophy Of Teaching Philosophy952 Words   |  4 PagesMy Teaching Philosophy Wk. 13 By, Julie Bernard EDPC603 My objective as a teacher is to make a difference in the lives of the student I teach. Similarly, through teaching I will provide students with the necessary tools to become critical thinkers. As critical thinkers, my students will be able to make reasoned judgements that are logical and well thought out. My students will not just passively accept arguments and conclusions; my students will be equipped to questionRead MoreMy Teaching Philosophy : My Personal Philosophy Of Teaching932 Words   |  4 Pages This is my personal philosophy of teaching. This is my belief about teaching and learning and how I will put my beliefs into classroom practices. First and foremost, the purpose of education is to educate students so that they can be ready for the real world. It should prepare students for life, work, and citizenship. To do this, education should teach one to think creatively and productively. In addition to preparing students for the real world, all students should be able to read and comprehendRead MoreMy Teaching Philosophy1217 Words   |  5 Pagesis at the elementary school level. My current goal is to either teach the 4th or 5th grade level. Moreover, throughout the semester I have read about or seen different philosophies through the observations I have done throughout the semester. While reading chapter 6 in the class text I thought to myself, as an educator what will be teaching philosophy that best suited my beliefs. Moreover, in chapter 6 there was a test where one would figure out their philosophy according to the test result. For meRead MoreMy Philosophy Of Teaching853 Words   |  4 Pages My role, as an educator, is to guide, engage, motivate and inspire students to learn so that they can realize their full potential and achieve their educational or personal goals. As a mathematics instructor my goal is to guide my students to learn to communicate mathematically, value mathematics and its usefulness, understand the material presented, able to recall and apply the concepts. Furthermore, I hope to deepen students understanding in the subject and become confident in their mathematicalRead MoreMy Philosophy Of Teaching For Teaching932 Words   |  4 PagesWhen I was learning about teaching in college classes my philosophy of education was different than when I actually started doing my student teaching. As soon as a teacher enters the classroom, it should be his/her second home. Teaching is a field of occupation where teacher needs have these two personality traits: patience and flexibility. Not all teachers are same thus each has their unique way of teaching students. My philosophy for teaching is very simple and fair. I would like to incorporateRead MoreMy Teaching Philosophy : My Philosophy Of Education1086 Words   |  5 PagesAs I continue to progress through my teaching journey, I have had the opportunity to do a lot of self-evaluation and dig deeper into what makes a great teacher. Since then there has always been a quote that has stuck with me, stated by Seymour Simon, an award winning children’s science author. â€Å"Im more interested in arousing enthusiasm in kids than in teaching the facts. The facts may change, but that enthusiasm for exploring the world will remain with them the rest of their lives.† I truly believe

I Have Learned Through Teaching - 1477 Words

One of the many things that I have learned through teaching young people is that time goes by a lot faster. In reflecting from my field teaching lessons, I realized that there were many things that I was pleased with, but I also realized that there were many things I know I need to work on. Watching a video of you teach a class is the absolute best way to self-evaluate yourself. We are most critical of ourselves when we can see our work played back to us. This experience has not only been helpful in my teaching methods, but it has helped me to establish a more professional and authoritative essence in the classroom. Before students had even seen the writing assignment, students picked up a half sheet of paper when they walked through the†¦show more content†¦When I began the lesson plan on verbals I had students write freely about a significant incident in their lives in which you were taught a meaningful lesson. Students had complete freedom to write on a topic that had hap pened to them, or someone they knew. When students are given the opportunity to write about their lives, that is when we empower students with their own words. The students were able to choose what incident they wanted to write about from their lived experiences. After my minilesson on verbals I wanted students to incorporate these into their own writing to add action and precise details about their significant incident. During this lesson plan I wanted to keep in mind the one ELL student at field placement. I had gotten to know her very well through interviewing her, and knew from previous conversations that she really struggled to understand grammar. When students were working individually on their writing assignment, I made sure to visit this one student in particular to be sure that she understood the concept fully. This student works very hard, and I know she is doing twice the amount of work as every other student due to the language barrier. Through giving this student extra time to process the new information I was able to then check for understanding when students were working independently. This

Role of Women free essay sample

Although women occupied an entirely different position in society compared to men, they too held a certain sphere of influence and power; they simply exerted it in ways that were distinct from mens strategies. By observing the many female characters in The Odyssey, for example; Penelope, Circe, and Calypso, we are able to understand that back then women were inferior to men yet they had power in that they were able to draw men in so quickly and easily (for example sirens, they sing so beautifully that men get drawn in from lust for these things with such beautifull voices, but the irens are killers and they kill any man on a ship that passes), also they are portrayed as being very wise in The Odyssey, Athenas appositive most of the time is bright- eyed Athena which is portraying that as the godess of wisdom, even in disguise, as mentor etc. she still has her bright sparkling eyes which portray her as a very wise woman. This is the same with Penelope as she is portrayed as wise throughout most of The Odyssey. By examining the character of Penelope, the wife of Odysseus, one can see Just how women exerted their power and influence in The Odyssey and to what ends. Penelope uses clever cunning and sexual charm to toy with mens emotions and to meet her own needs while she is waiting for her husband to return from battle. On one hand, she represents motherly characteristics mothers in The Odyssey are seen as the givers of pity and sorrow rather than true supporters of their sons and husbands in terms of military or personal quests. Mothers as seen throughout The Odyssey are women in need of support and guidance as they are weak and fragile, without a steady male hand to guide them, these women apppear to be lost and inconsolable. but she also has some of the traits associated with the seductresses een in The Odyssey, such as Circe and Clytemnestra. Following the role of a mother fgure, Penelope mourns her lost love, seemingly oblivious (at first) to the attentions of the suitors. One major role of women in The Odyssey is their roles as seductresses. When Odysseus crew arrives on Circes island, they are attracted to Circes house because of the alluring voice of the beautiful but monstrous goddess. Homer describes her as singing in a sweet voice as she went up and down a great design on a loom, immortal such as goddesses have, delicate and lovely and glorious in their work. (Book 10, Line 221) Odysseus men respond to this by calling onto her and entering her house. The mens desire for Circe allows the goddess to exploit their weaknesses, trick them, and magically turn them into swine. Odysseus, only, with the help of a protective drug and advice provided by Hermes, goes to rescue his men from Circes island. He follows Hermes exact instructions and when the goddess attempts to strike him with her sword, he lunges at her. Odysseus draws his sword and says, Swear me a great oath that there is no other evil hurt you devise against me. (Book 10 Line 344) Homer has Odysseus draw his sword at this moment; erhaps he aims to show how a womans appeal and sexuality is a threat to male dominance. Such interactions between men and women add a ce rtain dynamic to the epic and make it more interesting and easier for the reader to identify with the story. Although, Odysseus is very sly and resourceful, many times even he finds himself lost when he is in these types of situations with seductive women. Odysseus was so infatuated with Circe that he remained on her island for a year, completely forgetting about going home until his men convinced him to leave. One other moment when we see the importance of gender in The Odyssey is during Odysseus seven-year stay with Calypso on her island. When Odysseus relays the story of Calypso, he changes the story slightly to give the perception that he was held prisoner and lamented the entire time he was there. However, Homer gives us some insight when he says; the nymph was no longer pleasing to him. (Book 5, Line 153) which implies that at some point Odysseus did enjoy himself with the goddess on the island. Calypso offered him immortality and a life of ease. When Odysseus was exhausted with this lifestyle and longed for his wife and homecoming, Calypso tried o use her wiles to convince him to stay with her. She compares herself to Odysseus wife Penelope saying, l think I can claim that I am not her inferior either in build or stature, since it is not likely that mortal women can challenge the goddesses for build and beauty. (Book 5, Line 211) When Odysseus still longs to return home, Calypso forces him to stay on the island. This is against the ideals of Homeric Greek women. Calypso diplays a dominant and manipulative side, which is another threat against male dominance. Calypsos ability to impede Odysseus voyage for seven years, ignifies the belief that powerful women can create danger. In this situation, Homer tells us, if a woman does not accept her place as an impuissant, she is likely to slow down or prevent a man from reaching his goals. The Homeric Greek men consider women valuable but only to satisfy their physical needs. Zeus eventually sends Hermes as a messenger to command Calypso to allow Odysseus to return home. Calypso complains that the gods are allowed to take mortal lovers while someone always interferes with the affairs of the goddesses. Calypso complains about this double standard but eventually meets Zeus request. This is an excellent example of the male biased Homeric Greek society. This epic is dependant on the role of women. It is difficult to completely Judge the beliefs about gender roles in Greek culture based solely on The Odyssey. At times, the roles and actions of women in this poem show the male chauvinist view, that they are objects of beauty and have to succumb to manipulation and trickery to accomplish a goal. There are other times when a womans strength and intelligence come through. Homer uses this interplay to make the epic more interesting and develops an underlying theme of a battle of the sexes.

The Collision Theory Essay Example

The Collision Theory Paper To help me explain the collision I am going to use information from Chemistry Made Clear by Gallagher and Ingram.In order for a reaction to occur the particles must meet and the collision must occur with enough energy. In the reaction I am investigating, the making of magnesium sulphate, the magnesium atoms and hydrogen ions must collide with enough energy to successfully react.Below are some diagrams to help show this:The word equation for this reaction is below:The symbol equation for this is below:If there are many successful collisions i.e. the reaction goes quickly then a lot of hydrogen will be produced i.e. the rate of reaction is fast.However if there isnt enough energy to carry out the reaction then the hydrogen ion will bounce off and nothing will happen.Acid TheoryWhen an acid dissolves in water the acid molecule splits up and hydrogen ions and anions are formed. Their quantity is different depending on the acid. If all the molecules of the acid split up completely then th e acid will have a very acidic pH number. We know all acids contain hydrogen, but strong acids have a high concentration of hydrogen ions (H+) per dm3.H2SO4 2H+ + SO42-Due to the fact the hydrogen ions are in a solution then, as the particulate theory matter tells us, the ions will be moving randomly throughout the solution. Some will hit the metal. If the ions that hit the metal have enough energy then a chemical reaction will occur and the metal will lose electrons which become metal cations. These bond with the hydrogen ions and become hydrogen atoms. These atoms bond in pair to form molecules which effervesce and escape as gas.Rates of ReactionThere are three factors that influence the speed of which magnesium reacts with sulphuric acid.I will look at each of these in detail.* The concentration of sulphuric acid.If the concentration of sulphuric acid is increased then the speed of the reaction will be increased. This is because with an increase in concentration then there will b e more hydrogen ions present. If there are more hydrogen ions then therefore the chances of a collision will be increased, and therefore the reaction will be faster.* The surface area of the magnesium.If a large block of magnesium is reacted with sulphuric acid then only a small amount of magnesium is actually exposed to the hydrogen ions. If the block of magnesium is broken up into small pieces then a larger area will be exposed. This increases the chances of collisions, and the more collisions they is the faster the rate of reaction.* The temperature of sulphuric acid.As mentioned earlier, particles need enough energy in the collision to react. This energy, also know as activation energy can be increased by increasing the temperature. So if the temperature of sulphuric acid is increased, then any collisions that occur will have the activation energy. This means the reaction will be faster.Now for this course work I am required to investigate just one of these factors. I can forget about investigating the temperature of the sulphuric acid as to investigate it in detail may be a safety issue as heating an acid is unwise. It would also be difficult to investigate the surface area of magnesium as to do so I would need five different forms of magnesium and my school only stocks three of these.So the easiest factor for me to investigate would be changing the concentration of sulphuric acid. This is quite easy as the actual experiment is quite straightforward and I can make my own dilutions of sulphuric acid.VariablesThe independent variable is what I am going to investigate; I will do so by changing the concentration of the acid.The dependant variable is what I will be measuring, that is the time taken for all the magnesium to dissolve.The controlled variables is what are going to stay the same to keep the investigation fair; i.e. the temperature of the acid, the temperature of the water, the total volume of acid solution, constant swirling and the size of the mag nesium ribbon.PredictionMy hypothesis is that the higher the concentration of sulphuric acid the faster the rate of reaction with the magnesium ribbon.I have predicted this because:All acids contain hydrogen, and hydrogen dissociates when it dissolves in water to produce ions. Sulphuric acid is one of the acids that dissociates completely to form a strong acid. Sulphuric acid will be very acidic on the pH scale and have a high concentration of hydrogen atoms as all its molecules will dissociate.Its word equation is:H2SO4 (aq) 2H+ (aq) + SO42-(aq)As long as there is enough activation energy then a chemical reaction will take place between magnesium and sulphuric acid and magnesium sulphate and hydrogen will be produced.The more successful collisions there are, the faster the rate of reaction.So if the concentration of sulphuric acid is increased and as long as there is enough activation energy then the rate of reaction will be faster.Apparatus:2 burette holders2 retort stands2 waste beakers1 stop clock1 30cm ruler1 pair scissors1 small plastic filter funnel1 piece sand paper1 pair safety goggles1 white tileChemicalsSulphuric acid 100g/dm310cm length magnesium ribbonWash bottle of distilled waterMethod- Firstly I shall sand the piece of magnesium down to remove the oxide,- Then I shall accurately divide my piece of magnesium into 10 1cm strips using scissors and a ruler.- I shall then zero two burettes, one with water and the other with sulphuric acid.- I shall then accurately add 25cm3 of sulphuric acid into my conical flask.- To this I shall add a single 1cm strip of magnesium starting the stop clock as soon as it enters the flask.- I shall listen and watch until the magnesium completely disappears then I shall stop the clock and record the time.- I shall then repeat this using the same volume of sulphuric acid making sure to zero the burettes.- I will then repeat the above from the third point until now using the values in my table.- By dividing the two times I recorded for a piece of magnesium to dissolve by two I can find out the average time taken for each different concentration.- By inverting my times as fractions (i.e. a time of 20 second which is 20 will become 11 20)I can find out a decimal number which represents Rate ofReactions-1.SafetyDuring this experiment I shall wear safety goggles as Sulphuric acid is corrosive and can burn skin, and, as some may be taken up with the hydrogen ions as they escape as a gas (i.e. acid spray) it is only sensible to wear safety goggles.Strategy for dealing with resultsI shall display my results in a table like the one below:Volume of Sulphuric Acidcm3Volume of Water cm3Concentration of Sulphuric acid g per dm3Time1sTime2sAverage Times(Rounded)Rate of Reaction s-1Rate of Reaction x 1000s-125025100=1002517.2814.54161 =0.06251662.523223100=922518.7817.78181 =0.05551855.518718100=722529.6928.84291 =0.034482934.4816916100=642540.8439.90401 =0.0254025101510100=40251121131131 =0.0088491138.85I will graphically demonstrate these results in a graph which I believe will look similar (if the times have been recorded accurately) to the one below:I have predicted the positive correlation in the graph above as I believe that the rate of reaction is directly proportional to the concentration. I believe that as the concentration of acid doubles the rate should also roughly double. I believe this as when the concentration doubles there are double the number of hydrogen ions present, so there are double the number of ions to collide with. This would mean the reaction should occur in half the time, so the rate at which the reaction took place doubles.I will make sure that the results I take are as accurate as they can be by using burettes instead of measuring cylinders as they are more accurate and have a control on how much liquid is poured.I will make sure I read the meniscus at eye level as to make my reading more accurate. I will also use a white tile and put it behind the meniscus to help me see it clearer.I will sand the magnesium as this will remove the oxide layer which forms and help the reaction to run smoother.I will make sure to start the stop clock at the exact moment the magnesium drops into the sulphuric acid as the reaction will tart then. As well as this I will stop the clock as soon as the magnesium has completely dissolved as this is when the reaction is over.Each different concentration shall have results taken twice to not only find an average time but to see if there has been an error. If an error has occurred I shall repeat the experiment a third time to find out which of my two previous times is incorrect.Also I shall have to make sure the controlled variables I mentioned earlier are kept the same throughout, i.e.The temperature of both liquid shall have to be kept the same, as will the total volume of the acid solution. I will have to make sure that all the pieces of magnesium ribbon are as close to one centimetre as I can possibly make them . The hardest variable I will have to keep the same shall be the constant swirling as it will be hard to keep it the same speed as the time before. All of the above have to be followed to make this experiment a fair test.Obtaining EvidenceMy Table of ResultsVolume of Sulphuric Acidcm3Volume of Water cm3Concentration of Sulphuric acid g per dm3Time1sTime2sAverage Times(Rounded)Rate of Reaction s-1Rate of Reaction x 1000s-125025100=1002517.2814.54161 =0.06251662.523223100=922518.7817.78181 =0.05551855.518718100=722529.6928.84291 =0.034482934.4816916100=642540.8439.90401 =0.0254025101510100=40251121131131 =0.0088491138.85The above is my filled in table of results. All the times are my original times and as they seem quite consistent I felt no need to have to repeat an experiment.I calculated the concentration by using the following calculation:Volume of sulphuric acid x100=ConcentrationVolume of water and acid i.e. 25I calculated average time by using the following formula:Time1 + Time 2 = Average Time2I calculated Rate of Reaction by inverting the Average Time in Fraction and then I calculated its value as a decimal.As you can see from my graph they appear to be quite accurate, but I shall go into more detail in the interpreting section.InterpretingI have drawn a graph to show the rate of reaction against the concentration of the solution. This graph is at the end of the interpreting section.From the table you can see quite clearly that as the concentration of the solution decreases, the time take for the reaction to take place increases. This is what I predicted in my hypothesis.ConclusionI conclude that the rate of this reaction is directly proportional to the concentration of the acid which can be seen clearly from my graph. At a concentration of 40% the rate of reaction was 8.85s-1. The rate then quite steadily increased until, at a concentration of 100% the rate of reaction was 62.5s-1. These results strongly backup my conclusion. So, to increase the rate of reaction, the concentration of acid must be increased.My original prediction was:The higher the concentration of sulphuric acid the faster the rate of reaction with the magnesium ribbon.And I believed, if I drew a graph, it would look like this:I can now say that my original prediction was correct and my actual graph strongly matches the graph I made to show how I believe my results would look, i.e. there would be a strong trend showing that the rate of reaction is directly proportional to the concentration of the solution used.Scientific KnowledgeMagnesium is high up the reactivity series (a list showing how reactive the elements are) and as it is higher up than Hydrogen it means magnesium is more reactive and can displace hydrogen in order to gain stability (a full outer shell of electrons). By placing a piece of magnesium in a aqueous solution of sulphuric acid, the magnesium displaces the hydrogen, which escapes as a gas .Meanwhile, the magnesium is forming into magnesium catio ns which bond with the sulphuric anions and together they form a salt. The hydrogen ions, move randomly throughout the solution, some of which, if there is enough energy collide and successfully react with the magnesium.When the magnesium atoms loose atoms they become cations.This is known as an oxidation reaction as hydrogen ions take the place of the displaced electrons and join together to form molecules.As electrons are gained the below is a reduction reaction. The hydrogen molecules can escape as a gas which can be viewed and heard escaping from the solution.The full equation of the experiment isThis experiment is an example of a redox reaction, due to the fact oxidation and reduction both taking place.The magnesium is the reducing agent as it gives away its electrons quite easily.The hydrogen ions are the oxidising agents in this experiment as they remove the electrons. Should the number of hydrogen ions increase, then more electrons can be removed and the reaction can occur f aster. This can be observed when I used a 100% concentration of sulphuric acid, as there were a large number of hydrogen ions which increased the number of collisions with magnesium where electrons were lost, which increased the rate of reaction.So, to conclude my experiment:If the concentration of the solution is increased, and there is more sulphuric acid present then the rate of reaction with the piece of magnesium is increased.EvaluatingMy resultsOn my graph there is on point that is clearly off the line and two that are just barely on it. The one point that was off was my measurement for the rate of reaction taken for the solution with the concentration of 40gmd-3. It is this point however that I believe is anomalous, as the others are just on the line of best fit.The point recorded for a concentration of 40gmd-3 has a rate of reaction faster than the expected trend. There are several reasons for this. The first is that possible I made a mistake in the measuring and added too m uch acid to the solution which would have given me a result that was too fast. There is also the chance I swirled the solution faster than I had with the other volumes, which would also explain a result off the trend line. Also there is the possibility too little magnesium was added; either I sanded the strip too much, and removed magnesium as well as the oxide layer, or I cut this particular piece too small, but either way it would explain a fast rate of reaction, or through no fault of my own this piece of magnesium was thinner than the rest, i.e. a fault of the supplier.The last possibilities I can think of lie with the stop clock; either I stopped the stop clock too soon as perhaps the effervescence had dropped in noise level and the reaction was continuing when I thought it was over, or I started the experiment too late, while I attempted to drop the magnesium in, start swirling and start the clock all at once.I will now evaluate the two points that are just on the line. To me they are not anomalous, but they do stand out so I will evaluate what could have gone wrong. For the point with a concentration of 92gmd-3 the above possibilities that I have for the point at concentration at 40gmd-3 apply.However for the point at a concentration of 64gmd-3 there must be other reasons as it has a rate of reaction lower than the expected trend. It is possible that I didnt swirl the solution as fast as I had done for the other concentrations. Also it is possible I made a mistake in the measuring of the magnesium and added a piece that was too big which would have meant the reaction would have gone on for longer. Its also possible that I may have made a mistake in the volume of acid and added too little or I could have added too much water. Both of which could have given to a slower rate of reaction than expected. Then there is also the possibility that I may have not sanded the magnesium enough which could have left some of the oxide layer on, which would have slowed my reaction down. Finally it is possible that I stopped the clock too late.Analysis of ApparatusMeasuring ApparatusBurettes I still think using the Burettes were a good choice as I could very accurately control the amount of acid and water I was adding.Ruler- I felt this was a good choice as it enabled me to accurately measure out a 1cm strip of magnesium. However in combination with the scissors it was quite difficult to mark the length I needed to cut on the magnesium.Stop Clock- The stop clock I felt was awkward, as I felt an extra pair of hands were needed to start the clock while I put the magnesium into the conical flask and began swirling. Unfortunately I cannot think of another piece of apparatus I could have used in its place, so it was and is still the best choice open to me.Other ApparatusConical Flask- I feel a wider necked conical flask may have been better, as the piece of magnesium had a tendency to get stuck in the neck of the conical flask.Scissors- I dont really f ell these were adequate in conjunction with a ruler to measure the strips of magnesium off with as I had to scratch the 1cm lengths on the piece of magnesium with these and then remove the ruler to cut the magnesium.What would I do differently?If I had to repeat this experiment there are several things I would do differently.First of all I would use a magnetic stirring device instead of swirling the solution by hand which would remove the possibility of error.Second of all, in conjunction with the magnetic stirrer I would use a beaker as there would be no need to worry about the acid spilling over the side with the magnetic stirrer. This would also mean the piece of magnesium couldnt get stuck as the beaker has a very wide neck.Finally, I would have used some fresh, powered magnesium. This would mean there would be no oxide layer to worry about. Also I would by able to measure it accurately with a scale which could eliminate error that I could have got from having to use a ruler and scissors.Advice to the Medicine CompanyI would advise the company to conduct some large scale tests to find which concentration of sulphuric acid would be safe, as to speed up their reactions I am sure they would use other factors which would increase the rate of reaction; which with a high concentration of acid could cause an unstable reaction.An idea for the distribution of magnesium sulphate would be in the form of wipes which are easy to transport. The magnesium sulphate could be soaked into the wipes which would also prevent any magnesium sulphate being lost in the process because if any remained, it would be absorbed when more material is added.