The Relationship Between Reaction Rate and Concentration I am going to investigate how varying the concentration of Sodium thiosulphate solution affects the rate of reaction with Hydrochloric Acid. The equation for the reaction is: [IMAGE]Sodium thiosulphate + Hydrochloric Acid Sodium Chloride + Water + Sulphur + Sulphur dioxide [IMAGE]Na2S2O3(aq) + 2HCl(aq) 2NaCl(aq) + H2O(l) + S(s) + SO2(aq) This reaction has a definite end (when the
concentration of sodium thiosulfate and the time take for the cross to be no longer visible on the white tile through the solution. From graph 1 it could be seen that the concentration of sodium thiosulfate and the time taken for the reaction to be completed are inversely proportional, as when the concentration of sodium thiosulfate increases, the time taken decreases and the graph levels out as it approached the x-axis. Graph 2 supports this by showing that the concentration of sodium thiosulfate and the rate
The Rate of Reaction Between Sodium Thiosulphate and Hydrochloric Acid Theory: Sodium thiosulphate and hydrochloric acid, react together to produce sulphur as one of the products Na2S2O3 (aq) + 2HCl (aq) Sodium Thiosulphate + Hydrochloric acid à 2NaCl (aq) + H2O (l) + S (s) + SO2 (g) Sodium Chloride + Water + Sulphur + Sulphur Dioxide Sulphur is a yellow precipitate, so the solution will turn an opaque yellow colour while the reaction is occurring. The reaction will continue
Investigating How Changing the Concentration of Hydrochloric Acid Affects the Rate of Reaction with Sodium Thiosulphate Solution Aim I aim to investigate how changing the concentration of Hydrochloric acid affects the rate of reaction with Sodium Thiosulphate solution. [IMAGE]Sodium + Hydrochloric Sodium + Water + Sulphur + Sulphur Thiosulphate Acid Chloride Dioxide (aq) (aq) (aq) (l) (g) (s)
The Effect of Concentration on the Rate of Reaction Planning AIM To look at the change in concentration on the rate of reaction BACKGROUND THEORY The rate of reaction tells us how quickly a chemical reaction happens. We can work it out after doing an experiment. We can measure how much reactant is used up in a certain time or how quickly products are formed. We then work out what 1/time taken is and that gives us the rate. The rate of the reaction can be affected by a number
How changing the concentration changes the rate of reaction. Introduction We are going to look at the following factors during this investigation: 1 Why altering rate could be an advantage 2 Good ideas to control the rate of reactions 3 Briefly mention the factors that can change the rate of reaction such as: - Temperature Surface Area Catalyst Concentration I am going to find out if changing the concentration of nitric acid in water and see if it has any effect on
Sodium Thiosulphate & Acid Planning To ensure that this experiment is safe, I have taken some precautions. I wore goggles at all times, made sure not to spill any chemicals such as the acid onto skin or clothes, and to be aware of glass. I have used various different apparatus, including two measuring cylinders, one 25ml, and the other 50ml. I used a 150ml chronicle flask and a stopwatch. Here is a few diagrams of these apparatus. What I Will Vary, Not Change To Keep A Fair Test &
How the Concentration of Sodium Thiosulphate Affects the Rate of Reaction with Hydrochloric Acid Plan We will set up a conical flask on top a cross. We will vary the concentration of Sodium Thiosulphate by putting different amounts of Sodium Thiosulphate and water bye keeping the same total volume of 50cm³. We will then add 5cm³ of hydrochloric acid. We will time how long it takes for the cross to completely disappear from site after the reaction has completely finished. Constants
How Temperature Affects the Reaction between Sodium Thiosulphate and Hydrochloric Acid Aim I am going to investigate the reaction between sodium thiosulphate and hydrochloric acid. The main aim is to find out how temperature affects the reaction; if it speeds it up, slows it down or changes it in any way. I will test the effects of temperature by timing how long it takes for a black cross to become non-visible underneath a beaker containing the reactants. I will consider what effect the
How concentration affects the rate of reaction between Hydrochloric Acid and Sodium Thiosulphate Chemistry Coursework How Concentration Affects a Reaction Aim: The aim of this experiment is to find out how concentration affects the rate of reaction between Hydrochloric Acid and Sodium Thiosulphate. Introduction: This experiment will be carried out by drawing a cross on a piece of paper and mixing hydrochloric acid and sodium thiosulphate together to see if the cross disappears. The concentration
The Effect of Acid on Sodium Thiosulphate Aim: My Aim is to see how concentration of acid will affect the time it takes for Sodium Thiosulphate to become cloudy and make a cross below it to disappear. Method: Apparatus Hydrochloric Acid Sodium Thiosulphate Distilled Water 250cm ³ Beaker- I need a beaker big enough to see the cross and although the 100cm³ would be perfect volume wise I would prefer to use a bigger one so I can fit the cross under it and also be able to pour
The Rate Of A Reaction Between Hydrochloric Acid And Sodium Thiosulphate Aim: I am going to investigate the effect of changing the concentration of Sodium Thiosulphate on the rate of the reaction between Hydrochloric Acid and Sodium Thiosulphate. Prediction: I predict that as the concentration of the Sodium Thiosulphate doubles, the rate of the reaction will double. I believe that when the most concentrated solution is used the reaction would be at its fastest. Collision Theory: In
The Reaction Between Hydrochloric Acid and Sodium Thiosulphate Introduction ============ I am investigating how different concentrations of thiosulphate and distilled water in ratio to 10cm³ of hydrochloric acid affect the rate of reaction. I will also investigate if there will be a change in temperature after the reaction has occurred. I will know when the reaction is taking place as the solution turns from clear to opaque. The reaction that takes place is as follows: - Sodium
The Effect of Sodium Thiosulphate Solution on the Rate of its Reaction with Hydrochloric Acid Aim I shall investigate how the concentration of Sodium thiosulphate solution affects the rate of its reaction with hydrochloric acid. I shall add water to the sodium thiosulphate solution to weaken the concentration so I can see how concentration can affect the rate of reaction. I shall add water as that is the only way I can find out how concentration affects the rate of reaction as I cannot
The Effects of Concentration on Reaction Rate with Sodium Thiosulphate ---------------------------------------------------------------------- Planning ======== In this experiment I shall be varying the volume of sodium thiosulphate, hydrochloric acid and water, and measuring the reaction rate. When I increase the amount of sodium thiosulphate with less water, I think the time for the cross to disappear would be faster than there would be with little sodium thiosulphate and more water
investigate the factors that affect the rate at which Sodium Thiosulfate (Na2S2O3) reacts with Hydrochloric Acid (HCl). When sodium thiosulfate is mixed with hydrochloric acid, a reaction takes place, leading to a precipitate of sulphur being formed. This turns the solution cloudy. I shall use this clouding to investigate a factor that affects the rate of reaction, the factor being temperature. To do this, I shall react Sodium Thiosulfate with Hydrochloric Acid at a range of temperatures, between
------------------------- Aim To investigate the best salt compound to use for a cold pack. Hypothesis: If the sodium thiosulfate is endothermic and stays the same way, then that compound would be the best to use for a cold pack because it stays cooler for longer. Independent Variable: The independent variable is the salts that was used in the experiment, sodium thiosulfate and citric acid. This is because the scientist is changing the the different salts every trial. Controlled Variable: The
illustrate the idea of chemical kinetics. Hydrogen peroxide can be used, as well as iodate, persulfate, and chlorate. The variation of hydrogen peroxide uses the following reagents: hydrogen peroxide, potassium iodide, hydrochloric acid, starch and thiosulfate. The basic reaction for this variation is as followed: H2O2 + 3 I- + 2 H+ → I3- + 2 H2O. The reactants are hydrogen peroxide, hydrogen ions the ions of hydrogen come from the hydrochloric acid), and iodine ions (the iodine ions come from the potassium
The two substances are a hypochlorite ion from bleach and a thiosulfate ion used in a solution to develop film. Using continuous variations, the experimenter will prepare different mixtures using the two reactants that will have the same total volume and total number of moles of reactants. Since the reaction will be exothermic, the mixture with the most heat energy will be the one that fully reacts both the hypochlorite and the thiosulfate ions, determining the enthalpy change. This
Record the volume of the sodium thiosulfate solution used in the titration, and repeat the procedure in a duplicate titration. Using the Volumetric Pipette: 1. Compress the safety bulb, hold it firmly against the end of the pipette. Then release the bulb and allow it to draw the liquid into