Faculty of Science

Model (No 12)

Course Specification : كيمياء تحليلية وتطبيقية

2007 - 2008

 
Farabi Quality Management of Education and Learning - 22/12/2024
University :Mansoura University
Faculty :Faculty of Science
Department :Chemistry Department
1- Course data :-
Code: 20417
Course title: كيمياء تحليلية وتطبيقية
Year/Level: رابعة الكيمياء
Program Title:
  • All Academic programmes
Specialization:
Teaching Hours: Theoretical: 4Tutorial: 2Practical:
2- Course aims :-
  1. Introduce the basic information of spectra of organic compounds.
  2. Introduce the principles of analysis of organic and inorganic compounds.
  3. Study the methods of analysis of ores and how to purify it.
  4. Study the physical and chemical properties of organic compounds by several techniques.
  5. Introduce the principles of X-ray, NMR, IR, and MS spectrometry.
3- Course Learning Outcomes :-
4- Course contents :-
NoTopicsWeek
1Spectrochemical analysis: Survey of spectrochemical methods
2• Instrumentation-application
3• Atomic spectroscopy atomic fluorescence and x-ray fluorescence spectroscopy applications
4Applied spectroscopy: • IR spectroscopy-theory-units for hooks low-relation between wave number and the following factors: bond energy, bond length, electronegativity, s-character, ring sizes, conjugation, conformational analysis, mechanical coupling-vibration modes in polyatomic molecules, stretching vib, bending vib.
5• UV and visible spectroscopy-theory-absorption law-chromophores and auxochrome-bathochromic effect - hypochromic effect hypochromic effect-Woodward rules of conjugated dienes, ?,?-unsaturated ketones, aromatic carbonyl compounds and polyenes-resonance in excited state, resonance in ground state, ketones and aldehydes-effect of pH-hydrogen bond, steric inhibition of conjugation-solvent correlation.
6• NMR spectroscopy-theory-chemical shift-spin-spin coupling-integration - factors affecting chemical shift-inductive effect, anizotropic effect, Van der Wall effect, resonance, solvents, temperature, concentration, hydrogen bond
7• MS spectrometry-theory and instruments-fragmentation rules (9 rules)
8• Examples -structure elucidation using 4 spectra, IR, UV, NMR & MS.
9Ore analysis and allied materials: Concentration of ores-sampling-choice of method
10• Solution of the sample-preconcentration of traces
11• Selective methods for the analysis of some elements-examples for complete analysis of some ores
12• Processes, instruments and automated analysis
13Applied inorganic chemistry: Raw materials- basic laws of chemical technology
14• Basic types of processes- manufacture of inorganic chemical products
15• Metal extraction - fuel cells.

5- Teaching and learning methods :-
SMethod
Lectures using board
Home works
reports and discussion groups

6- Teaching and learning methods of disables :-
    No data found.

7- Student assessment :-
A. Timing
NoMethodWeek
114
214
34,8,12
410
B. Degree
NoMethodDegree
1Mid_term examination0
2Final_term examination90
3Oral examination 10
4Practical examination 0
5Semester work0
6Other types of asessment0
Total100%

8- List of books and references
SItemType
1Spectrochemical analysis
2Applied of absorption spectroscopy
3Applied inorganic chemistry
4Ore analysis
5Application of absorption spectroscopy of organic compounds, Jhon R. Dyer, 1987.
6Analytical chemistry. An Introduction. Douglas A. Skoog, 1994.
7Treatise on analytical chemistry. Analytical chemistry of inorganic and organic compounds. I. M. Kolthoff, 1978.
8http://www.elsevier.com

9- Matrix of knowledge and skills of the course
SContentStudy week
Spectrochemical analysis: Survey of spectrochemical methods
• Instrumentation-application
• Atomic spectroscopy atomic fluorescence and x-ray fluorescence spectroscopy applications
Applied spectroscopy: • IR spectroscopy-theory-units for hooks low-relation between wave number and the following factors: bond energy, bond length, electronegativity, s-character, ring sizes, conjugation, conformational analysis, mechanical coupling-vibration modes in polyatomic molecules, stretching vib, bending vib.
• UV and visible spectroscopy-theory-absorption law-chromophores and auxochrome-bathochromic effect - hypochromic effect hypochromic effect-Woodward rules of conjugated dienes, ?,?-unsaturated ketones, aromatic carbonyl compounds and polyenes-resonance in excited state, resonance in ground state, ketones and aldehydes-effect of pH-hydrogen bond, steric inhibition of conjugation-solvent correlation.
• NMR spectroscopy-theory-chemical shift-spin-spin coupling-integration - factors affecting chemical shift-inductive effect, anizotropic effect, Van der Wall effect, resonance, solvents, temperature, concentration, hydrogen bond
• MS spectrometry-theory and instruments-fragmentation rules (9 rules)
• Examples -structure elucidation using 4 spectra, IR, UV, NMR & MS.
Ore analysis and allied materials: Concentration of ores-sampling-choice of method
• Solution of the sample-preconcentration of traces
• Selective methods for the analysis of some elements-examples for complete analysis of some ores
• Processes, instruments and automated analysis
Applied inorganic chemistry: Raw materials- basic laws of chemical technology
• Basic types of processes- manufacture of inorganic chemical products
• Metal extraction - fuel cells.

Course Coordinator(s): -
  1. Shaban Elsaid Ghazy Ali
Head of department: -
Abd Elazeez Elsaid Elsaid Foda