CHE515 - Lesson Plan_Sept 2012 - Jan2013
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LESSON PLAN CHE 515 INSTRUMENTAL CHEMISTRY FOR ENGINEERS FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA 1.0 COURSE INFORMATION COURSE NAME : INSTRUMENTAL CHEMISTRY FOR ENGINEERS COURSE CODE : CHE515 PROGRAM : EH220, EH221 SEMESTER : 3/4 CREDIT HOURS : 3.0 CONTACT HOURS : 5.0 COURSE STATUS : CORE (PASSING GRADE: C) PRE-REQUISITE : Nil 2.0 SYNOPSIS This is an advanced chemistry course. The topics covered concern the use of modern analytical methods in elucidating chemical compounds. 3.0 OBJECTIVES Upon completion of this course, students should be able to: 1. Identify the most appropriate analytical method for structural determination and environmental heavy metal pollution assessment. 2. Analyze spectra and determine the functionality and structure of an unknown substance. 3. Perform experiments to achieve a predetermined goal. 4.0 METHODS OF INSTRUCTION Lecture and Laboratory Lecture : 2 hours/week Laboratory : 3 hours/week 5.0 LESSON PLAN Week Chapter/Content Activities 1 – 2 Chapter 1:UV and Visible Spectroscopy 1.1 Excitation and Absorption Laws: HOMO and LUMO 1.2 Solvent Effects 1.3 Chromophores, Conjugation, Shifting 1.4 Electronic Transitions 1.5 Interpreting Spectra 1.6 Beer-Lambert Law Read the recommended text and reference books Practice at the end of the chapter Discussion 3 – 4 Chapter 2: Infrared Spectroscopy 2.1 FTIR Components (Interferometer) Read the recommended
Transcript of CHE515 - Lesson Plan_Sept 2012 - Jan2013
LESSON PLAN CHE 515 INSTRUMENTAL
CHEMISTRY FOR ENGINEERSFACULTY OF CHEMICAL ENGINEERING
UNIVERSITI TEKNOLOGI MARA
1.0 COURSE INFORMATION
COURSE NAME : INSTRUMENTAL CHEMISTRY FORENGINEERS
COURSE CODE : CHE515PROGRAM : EH220, EH221 SEMESTER : 3/4CREDIT HOURS : 3.0CONTACT HOURS : 5.0COURSE STATUS : CORE (PASSING GRADE: C)PRE-REQUISITE : Nil
2.0 SYNOPSISThis is an advanced chemistry course. The topics covered concern the use of modern analytical methods in elucidating chemical compounds.
3.0 OBJECTIVESUpon completion of this course, students should be able to:1. Identify the most appropriate analytical method for structural determination and
environmental heavy metal pollution assessment.2. Analyze spectra and determine the functionality and structure of an unknown substance.3. Perform experiments to achieve a predetermined goal.
4.0 METHODS OF INSTRUCTIONLecture and LaboratoryLecture : 2 hours/weekLaboratory : 3 hours/week
5.0 LESSON PLAN
Week Chapter/Content Activities
1 – 2
Chapter 1:UV and Visible Spectroscopy1.1 Excitation and Absorption Laws: HOMO and LUMO 1.2 Solvent Effects1.3 Chromophores, Conjugation, Shifting1.4 Electronic Transitions1.5 Interpreting Spectra1.6 Beer-Lambert Law
Read the recommended text and reference books
Practice at the end of the chapter
Discussion
3 – 4
Chapter 2: Infrared Spectroscopy2.1 FTIR Components (Interferometer)2.2 Molecular Vibrations and Absorption Frequencies2.3 Type of Samples2.4 Interpreting Spectra 2.5 Hyphenated Methods Involving IR2.6 Applications2.7 Analysis (Quantitative and qualitative)
Read the recommended text and reference books
Practice at the end of the chapter
Discussion
5 – 6 Chapter 3: Mass Spectroscopy3.1 Ions Productions (Readily volatile and Poorly Volatile)3.2 Relative Atomic Mass (RAM)3.3 Structural Information
Read the recommended text and reference
LESSON PLAN CHE 515 INSTRUMENTAL
CHEMISTRY FOR ENGINEERSFACULTY OF CHEMICAL ENGINEERING
UNIVERSITI TEKNOLOGI MARA
3.4 Ion Analysis3.5 Liquid Chromatography-Mass Spectrometry, and GC-MS
books Practice at the end
of the chapter Discussion
Test 1
7 – 9
Chapter 4: Atomic Spectroscopy4.1 Atomization Methods4.2 Atomic Absorption Spectroscopy (AAS)4.3 Atomic Emission Spectroscopy (ICP)4.4 Atomic Fluorescence Spectroscopy (AFS)
Read the recommended text and reference books
Practice at the end of the chapter
Discussion
10 – 12
Chapter 5: Nuclear Magnetic Resonance5.1 Nuclear Spin and Resonance5.2 Chemical Shift 5.3 Factors Affecting Chemical Shifts5.4 1H-NMR (Splitting, Coupling, Integration of 1H-NMR
Absorption)5.5 13C-NMR
Read the recommended text and reference books
Practice at the end of the chapter
Discussion
13 – 14
Chapter 6: Chromatography6.1 Chromatographic Techniques6.2 Theory of Column Efficiency in Chromatography6.3 Thin Layer Chromatography6.4 Gas Chromatography6.5 Liquid Chromatography
Read the recommended text and reference books
Practice at the end of the chapter
Discussion
Test 2
3-12
Laboratory Work*1. Identification of organic compounds using UV-Vis and IR
spectroscopy.2. ICP determination of metal in waste water.3. AAS determination of calcium in commercial supplement
tablets.4. NMR analysis of a constitutional isomer.5. Determination of organic compound using HPLC
* Not limited to the above list but subjected to the equipment availability
Hands on experiment in the Instrumentation
Laboratory
6.0 ASSESSMENTTests and Assignments : 30%Final Examination : 50%Lab Report : 20%
7.0 TEXTBOOKS Williams, D.H. and Fleming, I., 2007. Spectroscopic Methods in Organic Chemistry. 6th ed. London: McGraw-Hill
Atkins, P. and de Paula, J., 2009. Physical Chemistry. 9th ed. Oxford: Oxford University Press.
LESSON PLAN CHE 515 INSTRUMENTAL
CHEMISTRY FOR ENGINEERSFACULTY OF CHEMICAL ENGINEERING
UNIVERSITI TEKNOLOGI MARA
8.0 REFERENCESYan, B., 2000. Analytical Methods in Combinatorial Chemistry. 1st ed. CRC.
Christian G. D., Analytical Chemistry, 6th Edition, John Wiley & Sons, 2009. Skoog D. A., West D. M., Holler F. J., Crouch S.R., Fundamentals of Analytical Chemistry, 8 th
Edition, Thomson Learning Inc, 2004..
9.0 ADDITIONAL INFORMATIONAttendance is compulsory. Students who fail to comply 80% of the attendance will be barred from taking the final exam. Absence from lecture, tutorial, test, presentation, etc must be supported by relevant documents.
10.0 OTHER INFORMATION/DETAILS
PREPARED BY : APPROVED BY :
SIGNATURE:
NAME: DR KAMARIAH NOOR ISMAILPOSITION: SENIOR LECTURER
DATE: 01 MAR 2013
SIGNATURE :
NAME :
POSITION :
DATE:
COURSE OUTLINECHE 515 INSTRUMENTAL CHEMISTRY
FOR ENGINEERS
FACULTY OF CHEMICAL ENGINEERINGUNIVERSITI TEKNOLOGI MARA
SEMESTER: SEPT 2012 – JAN 2013
PAGE : 4/5
Week
Chapter/Content Course Outcome Course Learning Outcomes Instructional Method
Assessment
1-2 Chapter 1: UV and Visible Spectroscopy1. Excitation and Absorption
Laws:HOMO and LUMO 2. Solvent Effects3. Chromophores, Conjugation,
Shifting4. Electronic Transitions5. Interpreting Spectra6. Beer-Lambert Law
Ability to interpret UV and Visible Spectra to elucidate the functional activity of chemical compounds
The student should be able to: Describe UV and Visible spectroscopy Analyse spectra Identify chromophores
Lectures Tutorials Laboratory
Assignment Quiz Test Examination
3-4 2.8 Infrared Spectroscopy2.9 FTIR Components
(Interferometer)2.10 Molecular Vibrations and
Absorption Frequencies2.11 Type of Samples2.12 Interpreting Spectra 2.13 Hyphenated Methods
Involving IR2.14 Applications Analysis (Quantitative and qualitative)
Ability to interpret IR Spectra The student should be able to: Describe IR spectroscopy Analyse spectra
Lectures Tutorials Laboratory
Assignment Quiz Test Examination
5-6 3.6 Mass Spectroscopy3.7 Ions Productions (Readily
volatile and Poorly Volatile)3.8 RAM3.9 Structural Information3.10 Ion Analysis3.11 Liquid Chromatography-
Mass Spectrometry, and GC-MS
3.1
Ability to interpret Mass Spectra The student should be able to: Describe Mass spectroscopy Analyse spectra
Lectures Tutorials Laboratory
Assignment Quiz Test Examination
7-9 4.0 Atomic Spectroscopic Methods4.1 Atomization Methods
4.2 Atomic Absorption Spectroscopy (AAS)
4.3 Atomic Emission Spectroscopy (ICP)
Ability to interpret AA, Emission, Fluorescence and ICP-AE Spectra
The student should be able to: Describe AA spectroscopy Describe Emission spectroscopy Describe Fluorescence spectroscopy
Lectures Tutorials Laboratory
Assignment Quiz Test Examination
COURSE OUTLINECHE 515 INSTRUMENTAL CHEMISTRY
FOR ENGINEERS
FACULTY OF CHEMICAL ENGINEERINGUNIVERSITI TEKNOLOGI MARA
SEMESTER: SEPT 2012 – JAN 2013
PAGE : 5/5
4.4 Atomic Fluorescence Spectroscopy (AFS)
4.1
Describe ICP-AE spectroscopy Analyse spectra
10-12
5.0 Nuclear Magnetic Resonance5.1 Nuclear Spin and
Resonance5.2 Chemical Shift 5.3 Factors Affecting Chemical
Shifts 5.4 1H-NMR (Splitting, Coupling,
Integration of 1H-NMR Absorption)
5.5 13C-NMR5.1.1
Ability to interpret 1H and 13C NMR Spectra
The student should be able to : Describe NMR spectroscopy Analyse spectra
Lectures Tutorials Laboratory
Assignment Quiz Test Examination
13-14
6.0 Chromatography6.6 Chromatographic Techniques6.7 Theory of Column Efficiency
in Chromatography6.8 Thin Layer Chromatography6.9 Gas Chromatography6.10 Liquid Chromatography
5.1
Ability to interpret Thin Layer, Gas and Liquid chromatographs
The student should be able to : Describe Thin Layer chromatography Describe Gas chromatography Describe Liquid chromatography Analyse spectra
Lectures Tutorials Laboratory
Assignment Quiz Test Examination
1-14 Laboratory Work*6. Identification of organic compounds
using UV-Vis and IR spectroscopy.7. ICP determination of metal in waste
water.8. AAS determination of calcium in
commercial supplement tablets.9. NMR analysis of a constitutional
isomer.10. Determination of organic compound
using HPLC
* Laboratory works are not limited to the above lists, but subjected to the equipment availability
Ability to perform experiments independently and as a member of a group
The student should be able to : Develop comprehensive
experimental procedures independently
Write comprehensive and clear reports
Explain their results in a critical and constructive manner
Apply knowledge gained in the theory component of this course practically
Laboratory Experiments
Laboratory Reports
