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Thursday, 26 February 2015

2.9.1 - Laboratory Activity : Coagulation of Latex


Laboratory Activity 2.9.1:
Coagulation of Latex
Aim: To study the coagulation process of latex.
Problem statement: What is the chemical properties of ethanol?
Hypothesis: The presence of acid causes latex to coagulate.
Variable:
» Fixed variable : Amount of latex and the time for coagulation
» Manipulated variable : Addition of acid or alkali
» Responding variable : Coagulation of latex

Material:
» Latex
» Ethanoic acid
» Ammonia solution
» Red and blue litmus paper

Apparatus:
» Glass stirring rod
» Beaker
» Dropper
Procedure:

1. 100cm3 of latex is poured into three different beakers and label them respectively A, B and C.
2. 2cm3 of ethanoic acid is dropped into the beaker A using a dropper.
3. Ammonia solution is added into beaker B until the mixture became alkaline. The alkaline solution is tested with red litmus paper.
4. Beaker C is left behind as a control experiment.
Obervation:

Beaker Observation
A – latex + ethanoic acid Latex coagulates
B – latex + ammonia solution Latex does not coagulate
C – control experiment Latex coagulates after 1 day
Discussion:

Latex consists of groups of rubber particles dispersed in water, which can only be seen through a microscope.

Each group of rubber particles is surrounded by a negative charge membranes protein.

The negative particles membrane will repel other negative particles which eventually will prevent all the particles to coagulate.

When acid is added to latex, the positively charged ions H+ from acid will neutralise the negative charged membrane protein of rubber particle.

The neutralise rubber particles will collide to cause the membrane to break. Rubber particle is released, combine with each other and cause them to coagulate.
Conclusion:

Acid will coagulate latex meanwhile alkali will prevent coagulation of latex.


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