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HU Credits:
4
Degree/Cycle:
1st degree (Bachelor)
Responsible Department:
chemistry
Semester:
2nd Semester
Teaching Languages:
Hebrew
Campus:
E. Safra
Course/Module Coordinator:
Prof. Ovadia Lev
Coordinator Office Hours:
By appointment
Teaching Staff:
Prof Ovadia Lev
Mr. Barak Menagen
Course/Module description:
The course gives basic knowledge in analytical chemistry, and covers wet and instrumental analytical chemistry techniques.
The aim of the course is to present to the students the needed knowledge for conducting quantitative analyses.
Course/Module aims:
See Learning Outcomes.
Learning outcomes - On successful completion of this module, students should be able to:
Use analytical equipment for quantitative determinations.
Quantitatively analyze the measuring results by an analytical equipment.
Independently and intelligently evaluate the best analysis method.
Develop new analytical techniques.
Attendance requirements(%):
80%
Teaching arrangement and method of instruction:
Lecture and exercise
Course/Module Content:
1. Short introduction to statistics and data analysis: average, standard deviation, random (stochastic) and systematic errors, normal distribution, accumulation of errors, significant figures, calibration curves.
2. Different concentrations.
3. Weak and strong acids and bases, conjugated acids and bases.
4. Equilibrium.
5. Voltammetry: first principle, reaction types, equivalent point and end point.
6. Acid-base reactions between strong acids and bases, pH calculations, calculation of titration curves.
7. Acid-base reactions between weak acid and strong base (and vice versa), calculation of titration curves, buffers and pH calculations in buffers.
8. Polyprotic acids and bases, their reactions, titration curved, ionic fraction and ionization level.
9. Precipitation titrations, solubility product, solubility and concentrations, calculations of titration curves.
10. Oxidation-Reduction, electrochemical cells (galvanic and electrolytic), Nernst equation, half-cell and full-cell voltage calculations, voltage - equilibrium constant relation, redox titrations.
11. Electrodes (reference and measurement), potentiometric methods, glass electrode, pH measurement, potentiometric titration, end-point determination.
12. I-V in cells, over-voltage, voltage vs. time in a cell, Faraday laws, Electrogravimetry.
13. Introduction to spectroscopy.
14. Beer-Lambert law and deviations.
15. Analytical methods in electronic spectroscopy.
Required Reading:
Slides of course presentation, and every basic analytical chemistry book published after the year 2000.
Additional Reading Material:
Course/Module evaluation:
End of year written/oral examination 100 %
Presentation 0 %
Participation in Tutorials 0 %
Project work 0 %
Assignments 0 %
Reports 0 %
Research project 0 %
Quizzes 0 %
Other 0 %
Additional information:
80% homework assignment submission is obligatory.
The final grade is composed of weighted averaging with the homework assignments submitted during the semester.
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