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UNIVERSITI PENDIDIKAN SULTAN IDRIS
TKU 3023
INFORMATION TECHNOLOGY AND COMMUNICATION
IN CHEMISTRY
ASSIGNMENT : SIMULATION
TITLE : EFFECT OF CONCENTRATION ON THE RATE
OF REACTION
NAME MATRIC NUMBER NOOR ZATILAKHMA BT DANI D20081032322
NUR SAHIDA BT MAT HUSIN D20081032326
GROUP : B ( THURSDAY- 1P.M-4P.M)
LECTURER’S NAME : MISS ASMAYATI BINTI YAHAYA
DATE OF SUBMITTED : 8 th OCTOBER 2009
EFFECT OF CONCENTRATION ON THE RATE OF REACTION
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The reaction rate or rate of reaction for a reactant or product in a particular
reaction is intuitively defined as how fast a reaction takes place. For example, the
oxidation of iron under the atmosphere is a slow reaction which can take many years, but
the combustion of butane in a fire is a reaction that takes place in fractions of a second.
Chemical kinetics is also the part of physical chemistry that studies reaction rates. Rate of
reaction can be calculated by using the formula as below:
Rate of reaction = Quantity change of reactants/products
Total time for the reaction
The rate of a reaction is the speed at which a reaction happens. If a reaction has a
low rate, that means the molecules combine at a slower speed than a reaction with a high
rate. Means that the reaction occurs at a slower speed and the time taken for reaction to
complete is long. But if the reaction has a high rate, that means the molecules combine at
a higher speed and the time taken for the reaction to complete is shorter than the reaction
with the low rate of reaction.
Concentration of reactant is one of the factors that can affect the rate of reaction.Concentration is the measure of how much of a given substance there is mixed with
another substance. This can apply to any sort of chemical mixture, but most frequently
the concept is limited to homogeneous solutions, where it refers to the amount of solute
in the solvent. Reaction rate increases with concentration because the increasing numbers
of reactant molecule that will be react with another reactant. As the number of reactant
molecule increase, the frequency of collision between the reactant molecule also will be
increase. As a result, the frequency of effective collision also will be increase. Effective
collision is the collision that can cause the reaction to occur and the new product will be
produce. So, if the reactant with high concentration is used, the rate of reaction will high.
ENGAGE
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The power of salt
SALT FISH
1. What the effect of using high concentration of salt solution compare using water
solution on the time taken for the fish to dry ?
2. How the concentration of solution can affect the rate of reaction ?
EMPOWER
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1. Students plan an experiment to observe the effect of concentration of reactant on the
rate of reaction.
2. The students are given the following apparatus:
Measuring cylinder
Stopwatch
Beaker
Sodium thiosulphate ( 0.5M, 1.0M, 2.0M )
Sulphuric acid (1.0M )
3. Students have to construct a hypothesis before doing the experiment.
4. Students should know the effect of concentration on the rate of reaction.
5. Students have to determine the variables involves.
6. The procedures of conducting the experiment are discussed.
7. The time taken for the X mark on the bottom of beaker to disappear is recorded.
8. Log on to the website and observe the animation to answer the question :
http://freezeray.com/flashFiles/RatesOfReactionConc.swf
* Note: click on any bottles to view the reaction in terms of particle collisions. The
program can be reset by clicking on the stopper
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Result :
The apparatus for this experiment
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The reaction between H2SO4 and 0.5M Na2S2O3
The reaction between H2SO4 and 1.0M Na2S2O3
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The reaction between H2SO4 and 2.0M Na2S2O3
Question:
1. Predict which concentration will cause
a) Highest the rate of reaction.
b) Lowest the rate of reaction.
2. Give the reason for your answer in a and b.
3. How the concentration can affect the rate of reaction?
Answer :
1.a) 2.0 Mb) 0.5 M
2. a) Time taken for reactant to react completely is the shortest
b) Time taken for reactant to react completely is the longest
3. By using the high concentration solution of reactant, the rate of reaction will
increase due to time taken for the reaction to complete. The number of reactant
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molecule that exists in the process also high and increase the number of collision that
occurs per time. It will result the increasing number of effective collision that occurs
per time. So, the time taken for reaction to complete will decrease cause the rate of
reaction to increase. But, by using the low concentration of reactant, the result that
will be obtained is apposite with the result of using high concentration of reactant.
ENHANCE
In the process of latex vulcanization, we need to use formic acid in suitable
concentration. Which is the most suitable concentration of latex solution for molecules
of formic acids to react with molecules of latex more faster? What happen to the
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solution of latex when we add the formic acid into latex solution with different
concentration?
Answer:
The modest concentration of formic acid is with pH=4 because this pH is the most
suitable acid used for vulcanization of latex. For example, two solution of latex is
prepared which both of the latex has different concentration of latex. In solution A thelatex concentration is 20% while in solution B the latex concentration is 5%. When we
add the same amount of formic acid that is 5 ml into both of the solution, we can see
latex vulcanization in the solution A occur more faster compare to the solution B. This is
because the high concentration of solution A caused the molecules of formic acids to
react with molecules of latex more faster. So, when the concentration increase, the rate
of reaction also increase. Thus, the rate of reaction in solution A is faster. However the
latex vulcanization in this solution is imbalance because when the suitable concentration
of acid added into latex solution, not all the acids react with latex solution. That’s why
the latex vulcanization is imbalance.
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