Pharmaceutical Analytical Chemistry 1 PDF
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October 6 University, Faculty of Pharmacy
Dr. Mahmoud A. Tantawy
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These lecture notes provide an introduction to pharmaceutical analytical chemistry. The lecture covers important concepts such as SI units, significant figures, and the mole. The notes feature numerous examples and questions related to these topics.
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Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) Uncertainty of measurements Significant figures Mole Dr. Mahmoud A. Tantawy Assoc.Prof. of Analytical Chemistry...
Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) Uncertainty of measurements Significant figures Mole Dr. Mahmoud A. Tantawy Assoc.Prof. of Analytical Chemistry Faculty of Pharmacy Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) 1- What is the international system of units (SI units)? What are the SI derived units? International system of units: (SI Units) - It has seven base quantities & base units from which all other quantities can be derived: Quantity Unit Symbol Length Meter m Mass Kilogram kg Time Second s Temperature Kelvin K Amount of substance mole mol Electric current ampere A Luminous intensity candela cd Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) Derived SI units :- Quantity Symb. Expression SI unit Area A Length2 m2 Volume V Length3 m3 Density D Mass/volume kg.m-3 Velocity v Distance / time m.s-1 Acceleration A Velocity/ time m.s-2 Force F Mass x kg.m.s-2(newton N) acceleration pressure P Force/area kg.m-1.s-2(pascal pa) Energy E Force x kg.m2.s-2(joule J) distance Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) 2-What are the SI prefixes? Multiple Prefix Symbol 106 mega M 103 kilo k 102 hecto h 101 deka da 10-1 deci d 10-2 centi c 10-3 milli m 10-6 micro µ 10-9 nano n 10-15 femto f Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) 3-Some common non-SI units: 1- Volume in litre (L) 1mL (cm3) = 10-6 m3 1 L = 1000 mL = 1000 cm3 = 1000 x (10-2m)3= 10-3 m3 2- Temperature in centigrade (oC) ToK = toC + 273 toC = ToK- 273 3- Pressure in atmosphere (atm) 1 atm = 101.325 K.pascal 4- Energy in calories (cal) 1 cal = 4.148 J Pharmaceutical Analytical Chemistry 1 Units and measurements (SI units) 4-Example on Units and Measurement Example 1: A substance has a mass = 250 g and its volume = 1500 mL. Calculate the density in g/cm3 & SI units. Soln D=mass / volume = 250 g / 1500 mL = 0.166 g/mL = 0.166 g/cm3 -In SI units: Mass :250 g = 250 x 10-3 = 0.25 kg Volume 1500 cm3 = 1500 x 10-6 = 0.0015 m3 Therefore D = 0.25 / 0.0015 = 166.66 kg / m3 Pharmaceutical Analytical Chemistry 1 Uncertainty of measurements - No physical quantity can be measured with perfect certainty. - There are always errors (uncertainty) in any measurement. - Each measurement should be reported with some certain digits plus one uncertain digit. 40.51, 40.52, 40.53 Pharmaceutical Analytical Chemistry 1 Uncertainty of measurements Uncertainty depends on accuracy and precision of the measuring device and person using it. Accuracy - It is the measure of exactness of an analytical method or the closeness of agreement between the measured value and the value that is accepted either as a conventional , true value or an accepted reference value. - For example, if you used a balance to find the mass of a known standard 100.00 g mass, and you got a reading of 78.55 g, your measurement would not be accurate. Pharmaceutical Analytical Chemistry 1 Uncertainty of measurements Precision - Precision refers to how close together a group of measurements. - Precision is sometimes referred to as repeatability or reproducibility. Pharmaceutical Analytical Chemistry 1 Uncertainty of measurements N.B. One important distinction between accuracy and precision is that: - Accuracy could be determined from one measurement. - Precision needs multiple measurements. Pharmaceutical Analytical Chemistry 1 Significant figures Significant Figures - The number of significant figures is the number of figures (numbers) that are known with some degree of reliability. - The number 13.2 is said to have 3 significant figures. The number 13.20 is said to have 4 significant figures. Pharmaceutical Analytical Chemistry 1 Significant figures Rules for Significant Digits: 1 All non-zero digits are considered significant. - e.g. 91 has two significant digits (9 and 1), while 123.45 has five significant digits (1, 2, 3, 4 and 5). 2 Zeros; there are three classes of zeros: a. Leading zeros: - Not count as significant figures. - E.g. In the number 0.0034, there are only two significant figures. b. Captive zeros: - Are zeros between nonzero digits. - Count as significant figures. - E.g. 1.007 has 4 significant figures. Pharmaceutical Analytical Chemistry 1 Significant figures c. Trailing zeros: - are zeros at the right end. - They are significant only if the number contains a decimal point. - E.g. The number 100 has only one significant figure. - 1.00 has three significant figures. Pharmaceutical Analytical Chemistry 1 Significant figures Rules for rounding off numbers: (1) If the digit to be dropped is greater than 5, the last retained digit is increased by one. - e.g. 12.6 is rounded to 13. (2)If the digit to be dropped is less than 5, the last remaining digit is left as it is. - e.g. 12.4 is rounded to 12. (3) If the digit to be dropped is 5, and if any digit following it is not zero, the last remaining digit is increased by one. - e.g. 12.51 is rounded to 13. (4) If the digit to be dropped is 5 and is followed only by zeroes, the last remaining digit is increased by one if it is odd, but left as it is if even. - e.g. For example, 11.5 is rounded to 12, 12.5 is rounded to 12. Pharmaceutical Analytical Chemistry 1 Significant figures Questions 1-How many significant figures are there in each of the following values: Answer a- 6.07 x10-2 a-3 b- 0.003840 b-4 2-Round off each of the following numbers to specified significant figures: Answer a- 0.00034159 to three digits A-0.000342 b-103.351 x 102 to four digits b-103.4 x 102 c-17.9915 to five digits c-17.992 d-3.365 x 105 to three digits d-3.36 x 105 e- 4.348 to two digits e- 4.3 Pharmaceutical Analytical Chemistry 1 The Mole and molar mass The Mole - Is the quantity of a given substance that contains as many molecules or formula units as the number of atoms in exactly 12 g carbon. e.g. number of ethanol molecules in 1 mole ethanol = number of carbon atoms in 12 g carbon (which is called Avogadro's number NA). NA = 6.022 X 1023 - A mole of a substance contains Avogadro's number (6.022 X 1023) of molecules (or formula units). - E.g. a mole of O atoms contains 6.022 X 1023 O atoms. A mole of O2 molecules contains 6.022 X1023 molecules, that is 2 X 6.022 X 1023 O atoms. Pharmaceutical Analytical Chemistry 1 The Mole and molar mass - The molar mass of a substance is the mass of one mole of the substance. - Carbon has molar mass of 12 g / mol. - For all substances, the molar mass (formula weight or molecular weight) in grams (g) is numerically equal to the weight in atomic mass units (amu). - E.g. ethanol has molecular weight of 46.1 amu (or g) and a molar mass of 46.1 g / mol. Pharmaceutical Analytical Chemistry 1 The Mole and molar mass To Calculate the Number of moles (n): - n = N / NA n= number of moles. N= number of molecules, ions or atoms. NA= Avagadro’s number (6.022 x 1023) - Or n = m / M.wt n= number of moles. m= mass in grams. M.wt= molecular weight. Example 1: How many grams of Cu are there in 2.55 mole of Cu? Solution: 1 mole Cu = 63.5 g Cu , so 2.55 mole Cu contains 162 g Cu Pharmaceutical Analytical Chemistry 1 The Mole and molar mass Example 2: What number of moles of aluminum is present in 125 g of Al ? Solution: 1 mole Al = 27.0 g Al ….. Mole = 125 g = 4.63 mole Example 3: How many carbon atoms are there in a 1.0 carat diamond? Diamond is pure carbon and one carat is exactly 0.2 g. Solution: 1 mole C = 12.01 g C …. Mole = 0.2 g 0.01665 mole 1 mole C = 6.022 X 1023 atoms C 0.01665 mole = ……….. Atoms 1.003 X 1022 atoms C