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Acid Base Titration

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Titlle: Evaluation of Gas Law Constant.
Objective: To experimentally determine the value of the universal gas constant , R.
Theory / Background :
The ideal gas law equation is expressed as PV=nRT and is used in most problems dealing with changes situations involving gases. This law can be used to approximate the behaviour of various gases under many situations with a few limitations. The term PV = nRT is also called the compression factor and is a measure of the ideality of the gas. An ideal gas will always equal 1 when plugged into this equation. The greater it deviates from the number 1, the more it will behave like a real gas rather than an ideal. A few things should always be kept in mind when working with this equation are: * Pressure is directly proportional to number of molecule and temperature. (Since P is on the opposite side of the equation to n and T) * Pressure, however, is indirectly proportional to volume. (Since P is on the same side of the equation with V) In this experiment, we will be using this law to evaluate R, the gas law constant. If R is to be determined in this experiment, the other parameters of P, V, n and T must also be available in this experiment.
From this experiment known amount of Magnesium used and the stoichimometry of reaction the number of moles of hydrogen can be calculated.
Mg(s) + 2 HCl MgCl2 + H2
Hydrogen collected in the eudiometer tube. So, the gas pressure in the tube after the reaction ceased is the sum of the hydrogen gas pressure and vapour pressure of water. The pressure of hydrogen given as
PH2 = Patm - PH2O
Patm : Atmospheric pressure
PH2O : vapour pressure of water

Procedure: 1. Approximately 0.03 to 0.06g of Mg ribbon weighed. 2. A burette filled with 0.5M HCl. The Mg ribbon coiled into the burette from the open end and the burette inverted

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