Tuesday, May 5, 2020

Ap Biology Cells Have Kinetic Energy Essay Sample free essay sample

Cells have kinetic energy. This causes the molecules of the cell to travel about and knock into each other. Diffusion is one consequence of this molecular motion. Diffusion is the random motion of molecules from an country of higher concentration to countries of lower concentration. Osmosis is a particular sort of diffusion where H2O moves through a selectively permeable membrane ( a membrane that merely allows certain molecules to spread though ) . Diffusion or osmosis occurs until dynamic equilibrium has been reached. This is the point where the concentrations in both countries are equal and no net motion will happen from one country to another. If two solutions have the same solute concentration. the solutions are said to be isosmotic. If the solutions differ in concentration. the country with the higher solute concentration is hypertonic and the country with the lower solute concentration is hypotonic. Since a hypotonic solution contains a higher degree of solute. We will write a custom essay sample on Ap Biology: Cells Have Kinetic Energy Essay Sample or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page it has a high solute potency and low H2O potency. This is because H2O potency and solute potency are inversely relative. A hypotonic solution would hold a high H2O potency and a low solute potency. An isosmotic solution would hold equal solute and H2O potencies. Water potency ( Y ) is composed of two chief things. a physical force per unit area constituent. force per unit area potency ( yp ) . and the effects of solutes. solute potency ( Y ) . A expression to demo this relationship is y = yp + Y. Water will ever travel from countries of high H2O potency to countries of low H2O potency. The force of H2O in a cell against its plasma membrane causes the cell to hold turgor force per unit area. which helps keep the form of the cell. When H2O moves out of a cell. the cell will free turgor force per unit area along with H2O potency. Turgor force per unit area of a works cell is normally attained while in a hypotonic solution. The loss of H2O and turgor force per unit area while a cell is in a hypertonic solution is called plasmolysis. Hypothesis: During these experiments. it will be proven that diffusion and osmosis occur between solutions of different concentrations until dynamic equilibrium is reached. impacting the cell by doing plasmolysis or increased turgor force per unit area during the procedure. Materials: Lab 1A – To get down Lab 1A. first collect the coveted equipment. The stuffs needed are dialysis tubing. Iodine Potassium Iodide ( IKI ) solution. 15 % glucose/ 1 % starch solution. glucose Testape or Lugol’s solution. distilled H2O. and a 250-mL beaker. Lab 1B – For Lab 1B you will necessitate to roll up six presoaked dialysis tubing strips. distilled H2O ; 0. 2M. 0. 4M. 0. 6M. 0. 8M. and a 1. 0M sucrose solution ; six 250-mL beakers or cups. and a graduated table. Lab 1C – Lab 1C these points are needed: a murphy. knife. murphy nucleus bore bits. six different solutions. and a graduated table. Lab 1D – During Lab 1D. merely paper. pencil. and a reckoner will be needed to do the computations. Lab 1E – N Lab 1E these points are needed: a microscope slide. cover faux pas. onion cells. light microscope. and a 15 % NaCl solution. Procedures: Lab 1A – After garnering the stuffs. pour glucose/starch solution into dialysis tube and shut the bag. Test the solution for presence of glucose. Test the beaker of distilled H2O and IKI for presence of glucose. Put the dialysis bag into the beaker and allow stand for 30 proceedingss. When clip is up test both the bag and the beaker for presence of glucose. Record all informations in tabular array. Lab 1B – Obtain the six strips of dialysis tube and make full each with a solution of a different molar concentration. Mass each bag. Put each bag into a beaker of distilled H2O and Lashkar-e-Taiba stand for half and hr. After 30 proceedingss is up. take each bag and find its mass. Record all informations in its appropriate tabular array. Lab 1C – utilizing the murphy nucleus bore bit. obtain 24 cylindrical pieces of murphy. four for each cup. Determine the mass of the four cylinders. Immerse four cylinders into each of the six beakers or cups. Let stand nightlong. Aft er clip is up. take the nucleuss from the sucrose solutions and mass them. Record all informations in its appropriate tabular array. Lab 1D – Using the paper. pencil. and reckoner collected. find solute potencies of the solutions and reply the inquiries asked to better understand this peculiar portion of the lab. Lab 1E – Using the stuffs gathers. fix a wet saddle horse slide of the cuticle of an onion. Pull what you see of the onion cell under the microscope. Add several beads of the NaCl solution to the slide. Now draw the visual aspect of the cell. Datas: Lab 1A – Table 1. 1 | Contents | Initial Color| Final Color| Initial Presence of Glucose| FinalPresence of Glucose| Bag| 15 % Glucose/ 1 % Starch Solution| clear| Dark blue| +| +| Beaker| H2O+IKI| Orange to brown| Orange to brown| _| +| Lab 1A Questions 1 ) Glucose is go forthing the bag and Iodine-Potassium-Iodide is come ining the bag. The alteration in colour of the contents of the bag and the presence of glucose in the bag turn out this. 2 ) In the consequences. the IKI moved from the beaker to the bag. this caused the alteration in the colour of the bag. The IKI moved into the bag to do the concentrations outside the bag equal to inside the bag. The glucose solution moved out of the bag doing glucose nowadays in the beaker. The glucose moved to do the solute concentration indoors and out of the bag equal. 3 ) If the initial and concluding per centum concentration of glucose and IKI for in the bag and the beaker were given. they would demo the differences and turn out the motion of these substances to make dynamic equilibrium. 4 ) Based on my observations. the smallest substance was the IKI molecule. so the glucose molecules. H2O molecules. membrane pore. and so the amylum molecules being the largest. 5 ) If the experiment start ed with glucose and IKI inside the bag and amylum in the beaker. the glucose and IKI would travel out of the bag to do the concentrations equal. but the amylum could non travel into the bag because its molecules are excessively large to go through through the semipermeable membrane. Lab 1B – Table 1. 2 Dialysis Bag Results Contentss in dialysis bag| Initial mass| Final mass| Mass difference| Percent alteration in mass| a ) distilled water| 26. 5g| 26. 6g| 0. 1g| 0. 4 % | B ) 0. 2M| 28. 1g| 29. 3g| 1. 2g| 4. 3 % | degree Celsius ) 0. 4M| 27. 3g| 30. 1g| 2. 8g| 10. 3 % |vitamin D ) 0. 6M| 28. 3g| 32. 3g| 4. 0g| 14. 1 % |vitamin E ) 0. 8M| 25. 9g| 30. 7g| 4. 8g| 18. 5 % |degree Fahrenheit ) 1. 0M| 26. 7g| 32. 9g| 6. 2g| 23. 2 % |Table 1. 3 Dialysis Bag Results: Class Datas| Group 1| Group 2| Group 3| Group 4| Total| Class Average|Distilled Water| 0. 4 % | 1. 16 % | 0. 79 % | 1. 54 % | 3. 89 % | 1. 0 % | 0. 2M| 4. 3 % | 5. 99 % | 6. 44 % | 5. 94 % | 22. 67 % | 5. 67 % |0. 4M| 10. 3 % | 10. 49 % | 10. 33 % | 8. 45 % | 39. 57 % | 9. 89 % |0. 6M| 14. 1 % | 14. 86 % | 16. 04 % | 15. 1 % | 60. 1 % | 15. 03 % |0. 8M| 18. 5 % | 19. 80 % | 17. 97 % | 20. 0 % | 76. 27 % | 19. 07 % |1. 0M| 23. 2 % | 18. 77 % | 23. 55 % | 21. 9 % | 87. 42 % | 21. 86 % | Lab 1B Questions:1 ) The molar concentration of the saccharose in the bag determines the sum of H2O that either moves into or out of the bag. which changes the mass. For illustration. when the bag contained a 0. 2M solution. H2O entered the bag to do the concentrations inside and outside of the bag more equal. As this happened. the mass rose 1. 2g 2 ) If each of the bags were placed into a 0. 4M solution alternatively of distilled H2O. the multitudes of the bags would hold changed in different ways. The mass of the bags filled with distilled H2O and 0. 2M saccharose would hold gone down because H2O would hold left the bag. The mass of the 0. 4M bag would hold stayed the same because the concentrations are now equal. The multitudes of the 0. 6. 0. 8. and 1. 0M bags would hold increased because H2O would hold moved into the bag to equalise the concentrations. 3 ) In the information collected. the per centum alteration in mass was calculated to demo how greatly the mass increased or dec reased. The difference in mass is non plenty to travel by because the initial multitudes of the dialysis bags were non all the same. 4 ) If a dialysis bag’s initial mass was 20g and it’s concluding mass was 18g. the per centum alteration in mass is 20 % . 5 ) The sucrose solution in the beaker would hold been hypotonic to the distilled H2O in the bag. Lab 1C Table 1. 4 Contentss of Beaker| Initial Mass| Final Mass| Difference in Mass| % Change in Mass| Initial Temp. | Final Temp. | Distilled Water| 1. 5g| 2. 0g| 0. 5g| 33 % | 20Â °C| 20Â °C| 0. 2M| 1. 5g| 1. 6g| 0. 1g| 7 % | 21Â °C| 20Â °C| 0. 4M| 1. 5g| 1. 6g| 0. 1g| 7 % | 20Â °C| 20Â °C|0. 6M| 1. 5g| 1. 5g| 0. 0g| 0 % | 21Â °C| 20Â °C|0. 8M| 1. 5g| 1. 2g| -0. 3g| -20 % | 21Â °C| 20Â °C|1. 0M| 1. 5g| 1. 4g| -0. 1g| -7 % | 20Â °C| 20Â °C|Lab 1C Table 1. 5 Class ConsequencesPercentage Change in Mass of Potato Cores||| Group 1| Group 2| Group 3| Group 4| Total| Class Average| Distilled Water| 33 % | 35. 29 % | 25 % | 31. 25 % | 124. 54 % | 31. 14 % | 0. 2M| 7 % | 29. 41 % | 25 % | 13. 33 % | 74. 74 % | 18. 69 % |0. 4M| 7 % | 11. 11 % | -12. 5 % | -12. 5 % | -6. 89 % | -1. 7 % |0. 6M| 0 % | -15. 79 % | -18. 75 % | -20 % | -54. 54 % | -13. 64 % |0. 8M| -20 % | -15. 79 % | -18. 75 % | -25 % | -79. 54 % | -19. 89 % | 1. 0M| -7 % | 0 % | -18. 75 % | -20 % | -45. 75 % | -11. 44 % || | | | | | | | Lab 1 D Questions:1 ) The H2O potency of the murphy nucleus after desiccating will diminish because the H2O within the murphy would vaporize and therefore lower the H2O potency. 2 ) The solute concentration of the works cell is hypertonic because the solute concentration is higher than the H2O concentration. Because of this. H2O will spread into the cell to make dynamic equilibrium. 3 ) The force per unit area potency of the system is equal to 0. 4 ) The H2O potency is greater in the dialysis bag. 5 ) Water will spread out of the bag since the H2O potency is higher in the bag and H2O moves from countries of higher H2O potency to countries of lower H2O potency. 6 ) Zucchini nucleuss placed in sucrose solutions at 27Â °C resulted in the undermentioned per centum alterations after 24 hours: Percentage Change in Mass | Sucrose Molarity| 20 % | Distilled Water|10 % | 0. 2M|-3 % | 0. 4M|-17 % | 0. 6M|-25 % | 0. 8M|-30 % | 1. 0M| 8 ) ys=-iCRTys=- ( 1 ) ( 0. 35 ) ( 0. 0831 ) ( 295 )ys=-8. 580075y=0+ysy=0+ ( -8. 580075 )y=-8. 5800759 ) Adding solute to a solution increases solute potency because the solute concentration additions. 10 ) The distilled H2O would hold a higher concentration of H2O molecules and would besides hold a higher H2O potency. The ruddy blood cells would increase in size because H2O is traveling from the country of higher H2O potency ( the distilled H2O ) to the country of lower H2O potency ( the ruddy blood cells ) until dynamic equilibrium is reached. Lab 1E Questions 1 ) After fixing a wet saddle horse slide. I have observed the onion cells under magnification and they appear to be little. empty boxes pushed closely together. 2 ) By adding two or three beads of NaCl the cells should hold shrunk. but no alteration took topographic point. 3 ) The cells maintained the same form. 4 ) Plasmolysis is the lose of H2O and turgor force per unit area in a cell. 5 ) The onion cells should hold plasmolyzed because the country environing them had a lower H2O potency and H2O should hold moved out of the cells. 6 ) Grasses that live on the sides of roads that have been salted in the winter terminal to dies because the H2O is drained from the cells as it moves out of the grass cells into the hypertonic NaCl country around it. Lab 1D Plasmolysis of Cells – Drawings of onion cells 100XOnion Cells in Distilled Water*Picture Of onion cells in saline non available.Mistake Analysis:Lab 1A – The informations collected in this lab experiment did non look to incorporate any incompatibilities. so hence no human mistake is detected. Lab 1B – In this lab experiment. the information seems to be compliant with the informations collected by the other lab groups. so no human mistake was thought to hold happened. Lab 1C – There was some disagreement in this experiment in the 1. 0M solution’s per centum alteration in mass of murphy nucleuss. The information decreases systematically until the 1. 0M solution. so human mistake is thought to be a factor in this. Some errors that could hold taken topographic point are misreckonings in initial and concluding multitudes or jobs with the molar concentration of the solution itself. Lab 1D – In this portion of the lab. lone computations were made. so no human mistake likely occurred during this clip. Lab 1E – In portion 1E. after adding the NaCl solution to the onion cells. the cells should hold reduced in size. but no reaction took topographic point. This may hold occurred in portion because the onion itself was already dried out and dehydrated. or while the onion was being looked at through the microscope. the heat from it may hold caused the cells to loose H2O. Decision: During the experiment conducted in Lab 1A. the consequences and informations collected make it possible to reason that glucose and Iodine Potassium Iodide can go through through a selectively permeable membrane and will if the concentrations on either side are non equal. In Lab 1B. it can be concluded that saccharose can non go through over a selectively permeable membrane. but alternatively H2O molecules will travel across the membrane to the country of lower H2O potency to make dynamic equilibrium. Lab 1C provided information that helps to reason that murphies do incorporate sucrose molecules. This can be stated because the nucleuss took in H2O while they were emerged in the distilled H2O. This means they had a lower H2O potency and higher solute potency than the distilled H2O. The solute potency is equal to about a 0. 6M solution of sucrose harmonizing to the informations collected. During Lab 1D computations were made and inquiries were answered to assist give a better apprehensi on of H2O and solute potency. If the onion cell experiment in portion 1E of the lab would hold produced right consequences. decisions could hold been made. It is thought that the onion cells would hold plasmolyzed due to the add-on of NaCl to the cells. This shows how the onion cells had high H2O potency and moved to the country outside the cell with lower H2O potency. Then. after adding H2O back to the cells. H2O would hold moved back into the cells increasing turgor force per unit area. The H2O potency played an tremendous function in each portion of this lab. Since H2O moves countries of high H2O potency to countries of low H2O potency. reactions took topographic point in each portion ensuing in different decisions being derived from them. Water potency was a cardinal component in each portion of the experiment. In works and animate being cells. loss or addition of H2O can hold different effects. In a works cell. it is ideal to hold an isosmotic solution. If the solution is hypertonic. the cell will shrink fro m deficiency of H2O consumption. Inversely. if the solution is hypotonic the cell could take in excessively much H2O and the cell will lyse and interrupt unfastened. For a works cell. the ideal solution is a hypotonic solution because the cell takes in H2O increasing turgor force per unit area which keeps the cells tightly packed and maintain their form. If the solution is hypertonic. the cell will plasmolyze and died from deficiency of H2O. In an isosmotic solution. the works cell does non hold adequate turgor force per unit area to maintain is form.

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