Friday, November 8, 2019
Biology Practical to Study the Osmosis Effects of Sucrose Essay Example
Biology Practical to Study the Osmosis Effects of Sucrose Essay Example Biology Practical to Study the Osmosis Effects of Sucrose Paper Biology Practical to Study the Osmosis Effects of Sucrose Paper The plant cells used in the experiment are potato and Chinese radish tissues that are used as chips because the results and changes are easy to note and record in this way. As plant cell membranes are differently ramble, different results are expected from the Chinese radish and potato chips in the same conditions; this is one reason for having two types of plant cell and not one. Another reason is that the two types of plant cells results can be compared and the similarities between certain results compared. The results taken during the experiment can be used to work out information that will help further our understanding of how osmosis takes place in different plant cells (potato and radish), what physical and biological change may take place, and link certain factors presented in our results to prove intimation useful to the investigation. Such a point would be to work out at what concentration equilibrium takes place in the chips and how length, mass and concentration affect the results of osmosis (e. G. Hack, Playmates etc. , and how to link physical results such as it a potato chip floats or sinks to the mass of a potato chip and the concentration of the solution it was in, using the results recorded during the experiment, the cell sap sucrose concentration of each chip can be worked out. Overall, the experiment must be planned and osmosis in plants researched so as to predict What should happen in each Of the situations presented in the teeth. The experiment taking place and recorded in the most accurate conditions possible, the most useful results recorded and presented in a helpful way. The results of the experiment should then be analyses and explained in terms of osmosis and why each result happened discussed and linked to other situations of osmosis. The final section fifths investigation should look back on the experiments, criticizing and improving sources of error and finally furthering research by going more into detail on the subject and expanding the research now that the basics of the subject have been covered. Background Scientific Information Equilibrium- There are two types of equilibrium. Dynamic equilibrium is when tuft opposing actions occur at the same rate, in the case of osmosis this is water moving in and out of a cell at the same rate. Static equilibrium is when there is no action taking place; this will not take place during this experiment. Osmosis- This is the movement of water molecules from an area of high water potential (a dilute solution) to an area of low water potential (a concentration). This occurs across a semi permeable membrane until equilibrium is achieved. Concentration- When a substance dissolves in water, its molecules attract some of the water molecules and stop them moving freely, This reduces the concentration of the water molecules as less water molecules are free. Water Potential- This is a measure feather a solution is likely to gain or lose water molecules from another solution A dilute solution is said to have a higher water potential than a concentrated solution as it has more free water molecules. Water will flow from the dilute to the concentrated across a semi permeable membrane. Distilled water has the highest avatar potential, if any aqueous elution was placed across a semi permeable membrane to the distilled water, the distilled water molecules would flow to it. Hypersonic Solution- This solution contains a higher concentration of solute compared to another solution (e. G. The cells cytoplasm). When a cell is placed in hypersonic solution water will diffuse out of the cell. Hypotonic Solutions- This solution contains a low concentration of solute hypotonic solution water will diffuse into the cell. * Voids. On. Ca/vesting/science/baobab/Cells/minimum. HTML Isotonic Solutions- This solution contains the same concentration of solute as another solution (e. G. The cells cytoplasm). When a cell is placed in an isotonic solution, the water diffuses into and out of the cell at the same rate. Osmosis in Plants Typical Plant cell (no chloroplasts): Unlike osmosis taking place in animal cells, the cell wall does not prevent the uptake or loss of soluble molecules; is the plasma/cell membrane which acts as a barrier or semi permeable membrane. The cytoplasm Of a plant cell and the cell sap in its vacuole contain sugars, salts and proteins that reduce the amount of free water cells. While the cell wall is fully permeable, the cell membrane is arterially permeable. This presents four cases of osmosis. After osmosis in a plant cell, four situations may result due to osmosis taking place in the cell. These depend on the concentration of the solution the plant cell has been placed in, and the water potential of the plant cell. Cell membranes are completely permeable to water therefore the water potential the cell is exposed to can have a dramatic effect on the cell. Reoccurred Apparatus: Below is a list of apparatus used to conduct the experiment and take down accurate results: xx Test Tubes 6 for Potato chips, 6 for Chinese radish. Each 2 test tubes ill have one of the prepared sugar/water solutions inside. 2 chips (CM and CM) from the same plant sample (potato or Chinese radish) will be placed in each test tube. xx Labels To label test tubes with different contents (solutions * chips). Test Tube Rack To safely hold the test tubes. Ruler To measure the length the chips are required to be cut to. Clean White Tile To ensure cutting of the chips is safe and that no moisture or dirt is accumulated from another cutting surface, Clean Scalpel To cut the chips to their required lengths accurately and easily in conjunction vivid the ruler _ Top pan balance To accurately state the mass of each chip. Watch To make sure each set of chips remain in their solutions for the same time. xx 10. Mi Syringe TO prepare the solutions needed for the experiment (I for H2O and I for 1. Molar sucrose solution), there are 2 to ensure the H2O and sucrose solution do not mix inside the syringe to affect the sucrose concentration of the solutions and hence give inaccurate results. 1. 0 molar Sucrose Solution Needed to prepare the solutions. H2O (distilled water) Needed to prepare the solutions. Potato Chips All cut from the same potato to give more accurate results the chips still need to be cut to accurate sizes) and wrapped in foil to preserve unchanged until experiment (moisture, dirt, etc ). Chinese Radish Chips All cut from the same Chinese radish to give more accurate results (the chips still need to be cut to accurate sizes). Forceps to handle chips without leaving dirt or moisture. Sieve to remove chips after osmosis from test tubes. Method: Below are the instructions used to conduct the experiment and collect results using the apparatus mentioned. 1. Label Test tubes by concentration (2 of each) and place in test tube rack. 2. The first step is to make the solutions in which the chips will be placed. Dodo this the correct ratios of distilled water and 1. Molar sucrose solution need to be worked out (in each test tube there is ml of solution): Conversationalists Waters . 0 Molar Sucrose Solicitousness Sirloins SMS 0. 2 molarities SMS 0. 4 molarities iron 0. 6 molarities iron 0. 8 molar3m112m11smI 1. 0 When the correct ratios have been worked out, the required amounts of sucrose solution and H2O must be taken from the H2O and Sucrose Solution (using different syringes) and placed in the test tubes labeled with the erect concentration (each concentration should be put in two of the test tubes as one is for the Chinese radish and one for the potato). 3. The Potato and Chinese radish chips are supplied cut roughly as rectangular prisms: cut each chip to CM (at right angles) vertically on tile measuring using ruler and cutting using scalpel. (When using scalpel always cut away from body and making sure no body parts are in the scalpels way). cut each Scm chip into CM and CM segments (at right angles) on tile measuring using ruler and cutting using scalpel. 4. Weigh each chip using top pan balance (making sure you know which chip has hat mass) and record its initial weight in a table against the concentration of the solution it is to be placed in (in grams). Place one CM and one CM chip of either the potato or the Chinese radish into the solution you said it would be in the table with tweezers noting down the time. This should be repeated for all the chips with intervals of I minute (as this gives you time to note the changes and observations). leave in for as long as possible (at least 40 minutes). 6. After 40 minutes check if the chips floated or sank tip test tube holding first set of chips into sieve over sink. Place chips on white tile, measure and record their final lengths and record other observations. Weigh each chip and record its final mass. Repeat for rest of chips at 1 minute intervals from time taken out (NOTE RESULTS). 7. CLEAR UP! Diagram of experimental set up: Collecting Results: In each case osmosis will occur. Some of the potato and radish tissue Will gain water by osmosis, While Others Will lose water, unless equilibrium has occurred, these will lead to changes in length and mass that can be recorded against the initial lengths and masses accurately. This Will allow further analysis f osmosis in plant cells and factors such as the cell sap sucrose concentration to be worked out. To make sure that the results recorded are accurate, several precautions must be taken: The chips must be cut from the same plant tissue (potato and Chinese radish) order to have the least variation in growing and handling conditions that could have affected the plant tissue such as a different concentration of salts in the ground during growth that could affect results and cause big differences between the results of one chip and another if they came from different samples of potato or Chinese radish. The chips must be cut as accurately as possible to the same size, although this measurement is still inaccurate as length is not as useful as the much more accurate measurement Of volume that could not be used in this experiment. The solutions must be prepared accurately, making sure there are no air bubbles in the syringes and that they are filled to exactly the mark required at eye level so the volume of solution inside each syringe is accurate. The syringes must also be kept in their correct beakers in order to ensure that the w. 0 solutions within the beakers are not mixed within the syringes causing inaccurate preparation of the solutions. The test tubes used must be clean and moisture free as well as all the other apparatus used in contact vivid the chips in order to ensure an accurate environment which will not affect the experiment. The apparatus not in contact with the chips must be clean, yet some of these instruments must have some moisture on them (e. G. Syringes). The experiment should also be conducted at room temperature and preferably not in humid conditions that could affect the chips. The measuring instruments must also be accurate and clean and moisture free o as to give accurate results. Safety precautions must also be taken so no damage will occur. Although this experiment is a sate one, several precautions must still be taken: The experiment must be set up away from any hazards that may knock it over and ruin it and be set up stable for the same reason and so none of the solution will spill, the test tube rack does this. The cutting must be done away from the body as the scalpels blade is very sharp and no Obstructions should be put in its path in case the user slips, this could be very hazardous. The scalpel should be put in a safe place. If a person goes cut themselves the blood should be hygienically removed and not be in contact with another person. The worktop and area should be kept clean and tidy with nothing on it except the apparatus used in the experiment in order to reduce the chance of an accident taking place or the apparatus getting knocked over (someone tripping over a bag). This also creates a better working environment. Recording the Results: If all the safety and accuracy precautions are taken, an accurate set of results should be given, yet the results still need to be recorded. The following results must be taken: Variables Independent Variables: This is the variable that is chosen by the researcher, the concentrations of the solutions were chosen by the person who did the experiment. The independent variable changes the result Of the dependent variable. In the case fifths experiment, the independent variable is the concentration of the solutions (measured in molarities). The Independent variable is the range of solutions. Dependent Variables: This is the variable that is affected by the independent variable and changes accordingly, In this experiment, the dependent variables changed according to the sucrose concentration in the solutions. These were: a. The final length b. The final mass c. The observations Non-Variables: These are the figures that if not kept the same would produce unfair results, These would be: a_The initial length b. The amount Of solution in each test tube Observations: Hopefully, the observations taken Will prove linked and dependent upon the independent variable. These will change with the mass and length results that are also dependent variables, yet change could be minimal and not be seen at every change in solution. The Observations are: a. Elf the chips would float or sink b. Ranking the chips from stiffs floppy Below is an example of how the results should be recorded from a previous osmosis experiment: Molarities foliation Lengthens aftercare analytical Massing Mischance in Float or Stiff or Glucose (CM)Osmosis (CM)Length (G) (G)mass Sink Happy 02 or skink 0. 2 Floats 0. 4Floats 0. 6Oath 0. Float; 1 Oath The change in mass must be recorded as a percentage as the initial mass for each chip is different, in order to make the results more comparable, the same rule should be applied to the change in length. To calculate the % change in mass/length we use this formula: Change in Length/Mass Original Length/ Mass Conclusion In both the case of 2 CM and CM chips, as the concentration of the solution went up, the growth in length became more negative. This does not mean that less change took place, but that the chip that the positive increase in the chips at O Mica gradually got lower, (with the exception of a few inaccurate readings), until it became a loss in length. For both the CM and CM chips the loss in length happened after 08 Mica, yet the concentrations used to conduct the experiment were not enough to give us a more accurate concentration at Which the concentrations became negative although the line Of best fit Of both he CM and CM chips would suggest it was a little after 0. Mecum. When the change in length is shown as a percentage, the CM chip had a bigger change between its 0. 0 molar and 1. 0 molar results than the CM chip. CM chip 10% 4 5% = 15% change in length CM chip = 3. 333%4 change Yet these results are not very helpful as the changes in length are not accurate and do not give us an accurate measurement such as volume, that would give us more than the length of one side. The change in length expressed as a percentage is also not helpful as it does not help show the difference between how much water the cell sap vacuole of a CM hip can hold compared to that of a CM chip. In the results, the change in length in centimeters of both the CM and CM chips between the 0. Mecum and 1. Mecum are close: CM chip = 2. CM 1. CM = 0. CM change CM chip = 3. LLC 2. CM = 0. CM change. If the results were more accurate, the CM chips change in centimeters would be larger than the CM chips because its cell sap vacuole should hold more water in the same concentration. Fifth volume of the chips was taken instead of the length and the experiment was conducted accurately, this would be the case. For the length results I am not going to link them to the mass results or observations as they are not accurate, yet a change is still obvious as shown by the graph. This is proof that osmosis did take place and that at a 0. Mecum the potato chips only take in water because they have lower water potentials than the H2O they have been placed in. As the concentration of the solutions rises, the results show that the chips gain less length until they lose water and become flaccid; this happens when the solution the chips are in are more concentrated than the solution of the cell sap vacuole of the potato tissue. The mass results will analyses the results more accurately.
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