Sodium Thiosulphate and Hydrochloric Acid

Sodium Thiosulphate and Hydrochloric AcidAim To investigate how the regularize of answer between Sodium Thiosulphate and Hydrochloric acid is affected by changing the constriction.BackgroundTHE chemical reception when Sodium Thiosulphate reacts with hydrochloric acid sulphur is produced. The sulphur forms in very small particles and causes the resolution to cloud over and turn a yellow colour. This causes the cross to slicing and eventually disappear. Sodium Thiosulphate + Hydrochloric acid Sulphur + Sodium Chloride + Sulphur Dioxide + Water NA2S2O3 + 2HCL S + 2NaCl + SO2 + H2O (aq) + (aq) (s) + (aq) + (g) + (l) PREDICTION As the concentration of Sodium Thiosulphate increases the length of period for cross to disappear lessens (inverse). This is because the increase of concentration of Sodium Thiosulphate leave increase the rate of reaction between Hydrochloric acid and sodium Thiosulphate particles. SCIENTIFIC REASONS FOR PREDICTION the results from feeler experiments s upport the prediction made. From the results you can see that there is a directly proportional relationship between the concentration and the rate of reaction. If you increase the concentration thence the rate of reaction will also increase.METHOD 1. Set up apparatus as in preliminary experiment. 2. Record the temperature of the room. 3. Add the first of the concentrations of sodium Thiosulphate to the flask. As you get 10cm3 of HCL and start the stopwatch 4. Watch the solution as it clouds over. Once the cross has disappeared stop the clock. 5. Record the time in a results circuit card 6. Repeat the above steps for the other concentration of sodium Thiosulphate. Repeat the experiment 3 times for each of the concentrations. 7. Record all results in a table and work out the rate by dividing 1 by the average time for each.This extract was taken from the link belowThis experiment is exam how the rate of reaction is affected when concentration is changed. The theory is said that incr easing the concentration can increase the rate of reaction by increasing the rate of molecular collisions. The phenomenon behind all of this is the collision theory and how it plays a big role in this investigation. The higher the concentration the less time/faster it will take for the system to turn into equilibrium, and if concentration id decreased, time taken for the solution to go cloudy increases.Hypothesis The higher the concentration the faster the rate of reaction will be and the time taken to reach equilibrium will decrease. A more diluted concentration will have a longish rate of reaction and a longer time to reach equilibrium.ApparatusMethod Gathered all the apparatus needed for the experiment. Using a metric weight unit balance we measure out 8g of Sodium thiosulphate, that we added too 200cm of piddle. We mixed the solution until all the crystals were dissolved. Then you pour 50 cm, 40 cm, 30 cm, 20 cm, and 10 cm of the solution into five identical conical flasks. T hen you add water to the other conical flasks so that the total volume in each flask in 50 cm. Make sure to label the flasks so you know which matchless has so much concentration. Once thats done, you must now take a beaker and add 35 cm of concentrated Hydrochloric acid to 65 cm of water to adopt a diluted solution. Now take a piece of paper and draw a black cross on it, and then place one of the flasks on the paper (do one flask at a time). Using a measuring cylinder measure out 5 cm of the hydrochloric solution, and add this to the flask. Immediately stir the flask and start the stop watch. One person should do this part. As soon as you cant see the cross whatever more stop the stopwatch, and record the results in a table. Repeat this with all the flasks. ResultsConcentration (cm)Time (s)Rate of reaction (s)5024.90.0440 + water320.031330 + water42.20.023720 + water74.070.013510 + water202.80.0049The rate of reaction is measured by dividing 1 by the time taken for the reaction to take place.Number of moles of sulphur used n= m/M n= 8/32 = 0.25 molsDiscussionYou can see from the graph that as concentration increases, the time taken for the solution to go cloudy decreases. So the stronger the concentration the faster the rate of reaction is. As the concentration of sodium Thiosulphate decrease the time taken for the cross to disappear increases, this is an inverse relationship.When equilibrium was reached the solutions turned a yellow color, the stronger the concentration was the higher the turbidity was. When equilibrium was reached SO2 gas and water were released. The more concentrated solution has more molecules, which more collision will occur. So therefore the rate of reaction should depend on how frequently the molecules collide, so more molecules have greater collisions and the reaction happens faster as more products are made in a shorter time. All related to the collision theory.What we see what happened was exactly what we expected from the exper iment. Our predictions were accurate.EvaluationThe method we used was fairly accurate, our results werent perfect but they were good enough for us to see what happens during the experiment. So overall the results proved the hypothesis and I was able to draw graphs with a line of best fit. In our experiment we keep the HCL a constant, and also keeping the volume of the solution was important to get more accurate results. The results were fairly reliable under our conditions. They could be a bit off from bad measuring, unclean equipment and the timing. ConclusionWhen the concentration of Sodium thiosulphate was increased the rate of reaction increased and the time taken to reach equilibrium decreased, so therefore the rate of reaction is directly proportional to the concentration.Bibliographyazete.com/view/48253 6 September 2009 woodrow.org/teachers/ci/1986/exp19.html 9 September 2009