Salome Ekai Sir Benard Osoro 18th May 2022 INVESTIGATING HOW TEMPERATURE AFFECTS THE RATE OF DIFFUSION. Define the problem How does temperature affects the rate of diffusion? Diffusion is the movement of particles from high concentration areas to low concentration areas, or the mixing of particles. (Johnson, 2017).Both of these phenomena rely on the mobility of atoms and are thus sensitive to the temperature effects stated before. The process of diffusion accelerates as the temperature rises, and the quicker molecules spread out or mix with other molecules more quickly. Hypothesis If the temperature is high then the diffusion will happen faster because the kinetic energy of the molecules will increase. This is because when the temperature is increased the the molecules will gain more kinetic energy and they will move and mix more quickly. Variables Independent variable (X axis ) Temperature Dependent variable (y axis) Time taken for water to be coloured. Control variable1 The beakers Control variable 2 Amount of potassium permanganate crystals used. Apparatus/ materials. 1. water( hot & cold) 2. Six beakers 250 ml 3. Potassium permanganate crystals 4. Stop watch 5. Thermometer 6. Labels 7. Spatula Procedure 1.Collect water samples from warm, cold, and room temperature. 2.Take temperatures of each water sample and record them on the data table. 3. Label your beakers 1 warm water, 2 chilly water, and 3 room temperature water. 4.In beaker 1, measure out 50 mL of warm water. 5.In a beaker, measure out 50 mL cooled water. 2 6.In a beaker, measure out 50 mL of room temperature water. 3. 7.put the potassium permanganate in each of the beakers and start the stopwatch. 8.Repeat step 1 to 7 for at least 3 trials so that to get sufficient data. Safety measures 1.Avoid contact with the potassium manganate because it can severely irritate and burn the skin and eyes woth the possible eye damage. 2.Wear the right attire like lab coat ,gloves when conducting the experiment. 3.Be careful when handling the apparatus Data collection:raw data Diffusion Rates of Different Water Temperatures Beakers/samples Temperature Time of Time of Time of Average diffusion diffusion diffusion (Seconds) (seconds) (seconds) Hot water 78.4 265 292 480 Chilled water/ice 9.4 561 732 546 Room temperature water 28.8 313 594 612 Processed data Beakers/samples Temperature Time of Time of Time of Average diffusion diffusion diffusion (Seconds) (seconds) (seconds) Hot water 78.4 265 292 480 5 mins Chilled water/ice 9.4 561 732 546 29 mins Room temperature water 28.8 313 594 612 8 Graph: Diffusion Rates of Different Water Temperatures Evaluating the hypothesis . mins If the temperature is high then the diffusion will happen faster because the kinetic of will increase.I support this hypothesis because of the graph which I used to find my investigation. The graph shows how temperatures when increased it takes less time to diffuse. Analysing Our findings revealed a wide range of diffusion rates. It took 5 minutes to determine the diffusion rate in cooled water. It took 8 minutes to determine the diffusion rate in room temperature water. Finally, at 29 minutes, the diffusion rate for cooled water took the longest. The findings revealed that as the temperature was raised, the diffusion rate reduced. The patterns revealed that room temperature water required the most time to disperse. Some examples of human blunders include placing the potassium permanganate into a beaker of water rather than a glass tube. Other variables that may have influenced the results were if the water temperature changed during the experiment and whether the warm water was closer to room temperature at the conclusion of the trial. Conclusion If the temperature is high then the diffusion will happen faster because the kinetic of will increase. I learned that the diffusion rate for hotter substances is faster and in cold water is slower.For example in real life it will help when dipping the tea bags in hot water will diffuse the teabag in it.
