Monday, September 30, 2019
Osmosis in Different Concentrations
I am going to investigate osmosis when potato is placed in differentà concentrations of sucrose. I am aiming to witness osmosis in 5à different concentrations of sucrose. I will use 5 varying concentrations so that I have a wider spread to compare the results,à and check that I donââ¬â¢t have any anomalies Prediction Osmosisà is the process of diffusion of water molecules from a weakerà solution into a stronger solution, through a semià permeable membrane.The tiny pores in the membrane of the potatoes will allow the waterà molecules to go in and out of the potato cell, depending on theà concentration gradient between the potato and the sucrose solution. Ifà theà water concentrationà is lower in the potato than in the sucroseà solution, then water will pass from the sucrose solution into theà potato, and it will gain weight.If there is a higher concentration ofà water in the potato, then the water will go out of the potato and intoà the sucr ose solution, as osmosis is the movement of water moleculesà from a region of high concentration to a region of low concentration,à through a semi permeable membrane. So, I predict that the higher theà concentration of sucrose, the lower the weight of the potato as waterà from the potato diffuses into the sucrose solution. Predicted graph of results: [IMAGE] Apparatus * 6 test tubes * 6 different concentrations of sucrose solutions * Potato Potato cutter/core * Digital measuring scales * Measuring cylinders * Knife * Test tube racks * Tissue paper Method I will need 1 piece of potato in each tube. As there are 15 tubes Ià will have to calculate how many pieces I will need altogether. I thinkà this would be a suitable calculation: 1Ãâ"15=15. So, I will pierce outà some pieces of a potato using a core, and then cut 15 slices with aà knife. Then I will measure 10ml of each of the 6 sucrose solutionsà using a measuring cylinder. I will be given these differe ntà concentrated solutions in the general laboratory.I will label theà tubes 1 to 15 and fill each one with 10ml of the solution. Tube 1-3 will have a concentration of 0 Tube 4-6 will have a concentration of 0. 4 Tube 7-9 will have a concentration of 0. 8 Tube 10-12 will have a concentration of 1. 2 Tube 13-15 will have a concentration of 1. 4 I will measure each slice on the measuring scales to identify eachà potato slice with its weight before and after immersion in theà sucrose. Having measured each slice on the scale and recorded itsà weight, I will then place the slices in the test tube containing theà solution for 24 hours.Then I will empty the solution from the testà tube by pouring it in the sink and remove the potatoes by hand andà place them one by one on the scale. For accuracy, I will make sureà that I wipe off any excess solution on the scale before placing eachà new slice on it. I will record the weight after placing them in theà soluti on for 24 hours. This process will be repeated for tubes 1 to 15à and the results will be noted in a table and then plotted on a lineà graph. I will make this a fair test by only varying the concentration ofà sucrose and the size of the potato slices, but keeping everything elseà the same.The same potato must be used for the whole experiment orà otherwise, the results would differ as the age and sizes might beà different, which means one potato might have more water in it than theà other. I will use a 10ml measuring cylinder so that I can accuratelyà measure the exact amount of sucrose needed. As the cylinder measuresà different sucrose solutions, it has to be washed out each time I measureà another 10ml of sucrose for the next tube, because it may beà contaminated with the different sucroseââ¬â¢s.All the tubes will be kept forà the same time, in the same place, so that the uncontrollableà temperature would not affect the tubes separately. I will not be able to control: * Temperature ââ¬â because I wonââ¬â¢t be in the laboratory for 24 hours,à and the temperature could change in the night, or morning. *Temperature of solution- because I was not able to obtain a thermometer and I was not in the laboratory for 24 hours so it could change. * Weighing scales ââ¬â because these are digital and therefore, ità produces results by itself. I will be able to control: Concentrations of sucrose ââ¬â they are already measured * Time ââ¬â I will do the experiment, and come back the next day at theà same time, and promptly record the results *weight of the potato- I weighed the potato slices before the experiment. For safety in the laboratory, I will be very careful using the sharpà knife which I will be using to cut the potatoes with. I will make sureà that I have an overall so that my clothes donââ¬â¢t get dirty if theà solutions spills. I will remember not to put potatoes or sucrose in myà mouth as they might have been infected by chemicals in the lab, whichà are poisonous.I will measure the weight of the potato in grams, and the concentration of sucrose in percentage. I am expecting everything to work out well as I have a perfectly goodà method but if I feel that the results may be wrong, I will repeat myà experiment. Preliminary results These are my results: This experiment supports my plan and prediction. The carrot gainsà weight in normal water, and decreases weight in concentrated sugarà solutions. By doing this experiment, I believe that my method is good, and ità will work. I think I should specifically be aware of the scales,à because they alter a lot.However, this was carried out at home, soà the cooking scales may have not been so accurate, as accuracy is notà very important in cooking. Results these are my first results. They proved to be wrong. This mistakeà would have been made my human. I assume that I used two differentà scales, and have got all the weights jumbled up. The weight taken atà the beginning is also not correct, so I may have made a mistake rightà from the start. Concentration of sucrose. | Weight before| Weight after| 0| 1. 28| | 0| 1. 33| | 0| 1. 29| | 0. 4| 1. 29| | 0. 4| 1. 27| | 0. 4| 1. 2| | 0. 8| 1. 31| | 0. 8| 1. 3| | 0. 8| 1. 3| | 1. 2| 1. 29| | 1. 2| 1. 37| | 1. 2| 1. 27| | 1. 6| 1. 26| | 1. 6| 1. 3| | 1. 6| 1. 31| | Conclusion I found out that as the concentration of sucrose increases, the weightà of the potato decreases. In water it gained 1. 26 grams, but in 1 Sucroseà solution, it lost 0. 16 grams. My prediction supports my conclusion. I have calculated the average change in weight to have a simple, clearà idea where the experiment is leading me to. Instead of having a largeà number of weights, I combined them into one by averaging them.I foundà the average by adding the weight gain/loss for each tube and dividedà it by three. To find the percenta ge, I multiplied that decimal by 100. I drew a line graph, and then a line of best fit, which is slopingà downwards, negatively. This proves that the weight is getting lower asà the percentage of the sucrose concentration is getting higher. In my investigation I found a definite relationship between the 2à variables ââ¬â weight and concentration of sucrose. Any increase inà sucrose concentration led to a decrease in weight. The prediction is supported by the evidence of the graph.Althoughà there is one anomaly, all the other results stand out and give aà straight line of best fit ââ¬â exactly as I predicted. The point ofà early plasmolysis is where the concentration of sucrose and potatoà are even. There is no osmosis taking place at that point. As I said inà my plan, if the water concentration is lower in the potato than in theà sucrose solution, then water will pass from the sucrose solution intoà the potato, and it will gain weight. If the re is a higher concentration of water in the potato, then the water will go out ofà the potato and into the sucrose solution.This is because osmosis isà the movement of water molecules from a region of high concentration toà a region of low concentration, through a semi permeable membrane. The up raise of sucrose is the downfall of potato mass. [IMAGE] Osmosis In osmosis, water diffuses through a semi-permeable membrane. This diagram illustrates the concentrated sugar solution, separatedà from dilute sucrose solution by a selectively permeable membrane. Thisà has pores (holes) in it which are very small, and selects what ità wants to let through i. e. small molecules.Water molecules are veryà small. Each one is made of two hydrogen atoms and one oxygen atom. However, sugar molecules are many times larger. In potatoes, the poresà of the membrane only let the water through. There is a higher concentration of sugar molecules on the right-handà side of the mem brane in the diagram, than in the left-hand side. Sugarà molecules would diffuse from the concentrated solution into the diluteà one until they were evenly spread out if there was no membrane, butà they cannot do this as the pores are too small for the sugar to getà through the membrane.Therefore, the small water molecules diffuseà into the concentrated sugar solution, to make it more dilute. This process is called osmosis. It is the diffusion of water moleculesà from a place where they are in a higher concentration, to a placeà where they are in a lower concentration, through a selectivelyà permeable membrane. Potato cells plasmolyse in concentrated solutions. This diagramà illustrates a plant cell[IMAGE] (which is similar to a potato cell) inà a concentrated solution. It will lose water by osmosis. The cytoplasmà and the vacuole will shrink.The cell membrane is semi-permeable and the vacuole contains a sucroseà solution. So when a cell is placed in distilled water (highà concentration) water will move across the semi-permeable membrane intoà the cell (lower water concentration) by osmosis, making the cellà swell. This cell is called ââ¬Ëturgidââ¬â¢. In potato cells, the cells wouldà increase in length, volume and weight because of the extra water inà the potato. If the potato was to be placed in a lower concentration, then theà opposite would happen, because water would move out of the cell intoà the solution.If the solution is very concentrated, then a lot of water will diffuseà out of the cell. The cytoplasm and vacuole will keep shrinking, butà the cell wall will not as it is too stiff. As the cytoplasm shrinksà further and further into the centre of the cell, the cell wall getsà left behind. The cell membrane, surrounding the cytoplasm, tears awayà from the cell wall. If this happens, the cell is said to beà plasmolysed. The potato will therefore, decrease in length, volume andà weight. Plasmolysis is the point where the membrane is totally detached fromà its ell wall, and the potato is killed. Evaluation my experiment shows some accurate results. It concludes the experiment, and proves my prediction. Myà final results were quite reliable; due to the precautions I took to make thisà a fair test. The graph has a straight slope pointing downwards, which is theà clearest way to understand my prediction. All of them are not thatà closely together, neither far away, so a line of best fit joins someà tips of the points, and causes it to go straight down.I have one anomalous result, which falls on 0 on the x axis. Thisà occurred in tube 5, which contained a concentration of 0. 4. Perhaps I did notà carry out that properly. These were the main problems in carrying out the experiment:- * Scales kept moving * Difficult to get out the potato from the core * Potatoes get stuck in tube. * Solution is still left after wiping the potato and the scales * Different scales * couldnââ¬â¢t control the temperature the point of early plasmolysis would not be valid.This is becauseà I have just plotted it on the graph on a line which suits my results. To prove that it is the right point, I would have to do anotherà experiment to find that out. The other evidence is likely to be valid, because as all the evidenceà links to the results. My investigation is fair because I did notà change many things, expect the concentration of sucrose. I think that I have collected quite a lot of evidence to support myà conclusion. The result table is the main source of evidence.I couldà try investigating with more percentages of sucrose concentration, theà size of the potato and have more short intervals between the sucroseââ¬â¢s. This would have a more spread to the results, and therefore, resultsà can be compared and evaluated more thoroughly. They would be veryà accurate as well as reliable. As I have an anoma ly, my evidence may not be extremely correct. Ià would have to do more research to what I have already done (in theà conclusion) on osmosis, and see what actually happens, and see if ità occurs in plant cells all the time.If I were to repeat the experiment, I would use a very accurate scale,à so that results would come out accurately and then I would have a accurateà average. The graph will be fairly accurate. I would also make sureà that the scale and the potato slices are properly wiped. This isà because if they are not wiped, the weight would increase, and will notà be accurate. I could use a syringe or a burette to measure the 10ml ofà sucrose solution, because those two apparatus are very accurate.I would do several more experiments with bigger sizes of potatoes toà obtain more evidence to support my conclusion. I will also do someà research on osmosis, and this will make me certain of my evidence if Ià have many to compare with. I will agree with the majority. Overall, I am very pleased with these results and with the evidence Ià have so far, that osmosis occurs when there is a high concentrationà and a low concentration, both aside a semi-permeable membrane. Theà lower concentrated substance diffuses through the membrane to whereà there is the higher concentrated substance.
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