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Faculty of Science Department of science Time of lectures: Instructor: Office hours: Instrumental Analysis 1 1 التحليل االلي 111111 Prerequisite (s): 111231 2015/2016 Semester: 1st Lecture room (s) : Text books & References: 1) Principles of Instrumental Analysis Fifth Edition, Skoog Holler. Nieman (Harcourt) Text Book 2) Statistics and Chemometrics for analytical chemistry J. N. Miller Other References Course Description: Course outline: Week Topic details 1. Statistics and chemometrics for analytical chemistry 1. Errors in quantitative analysis Chapter 1 Types of error planning and design of experiments. (Experimental Design) 2. Calibration methods in instrumental analysis / Regression and correlation. Chapter 5 2.1 Introduction: instrumental analysis 107 2.2 Calibration graphs in instrumental analysis. 2.3 The product-moment correlation coefficient. 2.4 The line of regression of y on x. 2.5 Errors in the slope and intercept of the regression line. 2.6 Calculation of concentration and its random error. 2.7 Limits of detection. 2.8 The method of standard addition. 2.9 Weighted regression lines. 3. Principles Spectrophotometric methods of analysis Chapter 6: An Introduction to Spectrometric Methods 116 6A General Properties of Electromagnetic Radiation 116 6B Wave Properties of Electromagnetic Radiation 117 6C Quantum-Mechanical Properties of Radiation 128 6D Quantitative Aspects of Spectrochemical Measurements 138 Chapter 7 Components of Optical Instruments 143 General Designs of Optical Instruments Sources of Radiation Wavelength Selectros Sample Containers Radiation Transducers Types of Optical Instruments 143 145 154 166 167 181 7A 7B 7C 7D 7E 7H -2Chapter 8 8A 8B 8C An Introduction to Optical Atomic Spectrometry Optical Atomic Spectra Atomization Methods Sample Introduction Methods 192 192 200 201 Chapter 9 9E Atomic Absorption and Atomic Fluorescence Spectrometry Sample Atomization Techniques Atomic Absorption Instrumentation Interferences in Atomic Absorption Spectroscopy Atomic Absorption Analytical Techniques Atomic Fluoresence Spectroscopy Section III Molecular spectroscopy Chapter 13 An introduction to ultraviolet / visible molecular absorption spectrometry. Chapter 14 Application of ultravioleted / visible molecular absorption spectrometry. Chapter 15 Molecular luminescence spectrometry. Chapter 16 An Introduction to Infrared spectrometry 9A 9B 9C 9D 206 206 213 217 223 225 Section V 4. Separation Methods 673 Chapter 26 674 26A 26B 26C 26D 26E Chapter 27 27A An Introduction to Chromatographic Separations A General Description of Chromatography Migration Rates of Solutes Zone Broadening and Column Efficiency Optimization of Column Performance Summary of Important Relationships for Chromatography Gas Chromatography 701 Principles of Gas-Liquid 675 678 680 687 695 702 27B 27C Chapter 28 28A 28B 28C Chromatography Instruments for Gas-Liquid Chromatography Gas Chromatographic Columns and Stationary Phases High-Performance Liquid Chromatography 725 Scope of HPLC Column Efficiency in Liquid Chromatography Instruments for Liquid Chromatography Applications of HPLC 703 711 726 726 728 Attendance Policies: Be Punctual. Attendance is mandatory. Students are not allowed to miss more than 15% of the lectures, without acceptable real cause. If a student misses more that 15 % of the course lectures, she/he will forfeit the course credits. After this, medical reports may be submitted for evaluation, for a total absence of no more than 20%. If student misses more than 20% of lectures, regardless of the cause, the course will be failed. Grading system: Assessment First Exam Second Exam Activities and Evaluation Final Examination Total Grade 25% 25% 10% 40% 100%