University: Al-Nahrain College: Science Department: chemistry

Transcription

University: Al-Nahrain College: Science Department: chemistry
University: Al-Nahrain
Stage: 2nd
College: Science
Lecturer name: Alaa H. jawd
Department: chemistry
Academic Status:
Course Instructor
E_mail
Title
Course Code
Alaaalqaisi74@yahoo.com
Biochemistry
CHEM 251
Type here course description
Course Description
This course about general bio chemistry
Learning Outcome
Type here course
Textbook
Type here textbook (title,author,edition,publisher,year)
References
Type here the reference (title,author,edition,publisher,year)
Linger 2010
Course Assessment
General Notes
Term
Tests
30
Laboratory
Quizzes
-
8
Assignments Final Exam
2
Type here general notes regarding the course
Course weekly Outline
week
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Topics Covered
The structure of cells
The chemistry of water acidsbases and buffers
carbohydrate
Monosaccharide and the
optical activity
Function of monosaccharide
Amino sugars and sugars
derivatives
Oligosaccharides
Polysaccharides
Glycoprotein and glycolipids
Amino acids and peptides
Ionization reaction of amino
acids
Proteins
Classification of proteins
Denaturation and renaturation
Identification of protein
Instructor Signature:
Lab. Experiment Assignments
40
University: Al-Nahrain
Stage: : Second
College: Science
Lecturer name: Dr. Ahmed Abdulrazaq Ahmed
Course Instructor
E_mail
Title
Course Code
Course Description
Department: Chemistry
Academic Status:
Organic Chemistry
Dr.ahmedsab@yahoo.com
Organic Chemistry
CHEM 231
Organic chemistry is a chemistry sub discipline involving the
scientific study of the structure, properties, and reactions of organic
compounds [(Aromatic compounds and benzene) (Arenes and
derivatives) (polynuclear Aromatic compounds "Naphthalene" )]
and other physical and chemical methods to preparation them and
the mechanism for preparation and reaction for all of types.
Learning Outcome
Structures, Physical properties, Chemical properties, Reactions,
Preparation, Mechanism (for all of types)
Textbook
"Principles of biochemistry", Lehninger, Third edition, worth
publishers New york, 2004
1- Morrison & Boyd- Organic Chemistry
References
2- Organic Chemistry 4th ed - Francis A. Carey
Course Assessment
General Notes
3- Organic Chemistry 4th ed - Paula Bruice
Term
Laboratory Quizzes Assignments Final Exam
Tests
20%
15%
3%
2%
60%
Course weekly Outline
week
Topics Covered
1
Aromaticity, Structure and
stability of benzene
2
Aromatic character and the
Hückel rule
3
Electrophilic aromatic
substitution
4
Mechanism of nitration,
mechanism of sulfonation,
mechanism of halogenation,
mechanism of Friedel-Crafts
alkylation
5
mechanism of Friedel-Crafts
acylation, Theory of reactivety
6
Theory of orientation
7
First Exam
8
Arenes
Structure and Physical
properties
9
Synthesis
10 Reactions
11 Second Exam
12 Polynuclear aromatic
hydrocarbons (Naphthalene)
Structure and Physical
properties
13 Reactions
14
15
Synthesis
Third Exam
Instructor Signature:
Lab. Experiment Assignments
General instructions and Safety for
organic chemistry laboratory
Preparation of Cyclohexene
Preparation of Acetylene
Preparation of Cyclopentanone
Preparation of n-Butyl bromide
Complete the Experiment above
Review for the four experiments above
Preparation of Succinic anhydride
Complete the Experiment above
Preparation of Acetyl salicylic acid
Preparation of Acetanilide
Complete the Experiment above
Preparation of Benzene diazonium
chloride
Complete the Experiment above
Review for the four experiments above
University: Al-Nahrain
College: Science Department: Chemistry Stage: 2nd
Lecturer name: Dr. Hilal Shahab Wahab
Course Instructor
E_mail
Title
Course Code
Course Description
Academic Status: Assistant Professor
Assistant Professor Dr. Hilal Shahab Wahab
hswahab@yahoo.com
Physical Chemistry Chem 241
Chem 241
The course encompasses the principles of thermodynamics for
ideal and real gases including first, second and third laws of
thermodynamics in addition to the fundamental thermodynamics
equations of states.
Learning Outcome
The properties of ideal gases and the essential laws which govern
their behavior. Further, how the equation of states is related in
terms of thermodynamic functions like enthalpy, entropy, Gibbs
energy and internal energy. Moreover, how the properties of real
gases differ from those of the perfect gases and construct an
equation of state that describes their properties.
Textbook
Physical Chemistry/ P.W.Atkins and J. D. Paula / 9th edition /
Oxford university press/ 2010
References
Course Assessment
General Notes
1-Laidler, K.J.; Meiser,J.H. and Sauctuary, B.C./ Physical
chemistry/ 4th edition/ Houghton Mifflin Co. / N.Y. / 2003
2-Physical Chemistry/ P.W.Atkins/ 6th edition / Oxford university
press/ 2001
Term
Tests
15%
Laboratory
Quizzes
15%
5%
Assignments Final Exam
5%
The course introduces some basic ideas about fundamental
thermodynamic processes like spontaneous, reversible, isothermal
and adiabatic which it will be useful to know about before their
applications.
Course weekly Outline
week
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Topics Covered
Gas laws
Gas laws
Dalton’s law
First law of thermodynamics
Work
Internal energy
Enthalpy
Heat capacity
Thermochemistry
Hess law
Standard enthalpies
Real gases
Van der Waals approximation
Second law of thermodynamics
Touton’s rule
Instructor Signature:
60%
Lab. Experiment Assignments
Safety measures
Significant figures
Density
molar volumes
Calorimetric Constant
neutralization heat
heat of solutionExams
University: Al-Nahrain
College: Science
Lecturer name: Dr. Nasreen Raheem Jber
Course Instructor
E_mail
Title
Course Code
Course Description
Department: Chemistyr Stage: Fourth
Academic Status: Assistance Professor
Dr. Nasreen Raheem Jber
Nasreen301174@yahoo.com
Spectroscopic identification of organic compounds.
CHEM 431
Spectroscopy is the study of the interaction of matter and electromagnetic
radiation. A continuum of different types of electromagnetic radiation
constitutes the electromagnetic spectrum. High-energy radiation is associated
with high frequencies, large wavenumbers, and short wavelengths.
Infrared spectroscopy identifies the kinds of functional groups in a
compound.
NMR spectroscopy is used to identify the carbon–hydrogen framework of an
organic compound. When a sample is placed in a magnetic field, protons
aligning with the field are in the lower-energy -spin state; those aligning
against the field are in the higher-energy -spin state The energy difference
between the spin states depends on the strength of the applied magnetic field.
Each set of chemically equivalent protons gives rise to a signal, so the number
of signals in an1H NMR spectrum indicates the number of different kinds of
protons in a compound. The chemical shift is a measure of how far the signal
is from the reference TMS signal. The chemical shift ()is independent of the
operating frequency of the spectrometer.
The number of signals in a NMR spectrum tells how many different kinds of
carbons a compound has. Carbons in electron-dense environments produce
low-frequency signals; carbons close to electron-withdrawing groups produce
high-frequency signals. Chemical shifts for NMR range over about 220 ppm,
compared with about 12 ppm for NMR. NMR signals are not normally split
by neighboring carbons, unless the spectrometer is run in a proton-coupled
mode.
Learning Outcome
Textbook
References
Course Assessment
General Notes
identification of the structure of organic compounds using:
1- UV-Vis spectroscopy
2- Infra-red spectroscopy
3- Proton NMR spectroscopy
4- Carbon NMR spectroscopy
Spectrometric identification of organic compounds; Robert M.
Silverstein, Francis X. Webster, David J. Kiemle, seventh edition,
John Wiley & Sons, Inc., 2005
Modern Spectroscopy, J. Michael Hollas, Fourth Edition, John
Wiley & Sons, Ltd, 2004.
Organic Chemistry, Paula Y. Bruice, Sixth edition, Pearson
Education, Inc., 2011.
Term
Tests
13
Laboratory
Quizzes
25
2
Assignments Final Exam
40
60
Course weekly Outline
week
Topics Covered
Introduction to spectroscopy, types of
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electronic transition, Chromophore
and Auxochromen concept, solvent
effect
Woodward-fieser Rules for calculating
absorption maximum in dienes
Calculating absorption maximum in
polydienes, and ,-unsaturated
carbonyl compounds
Calculating absorption maximum in
benzene and derivatives
Principle of infra-red spectroscopy,
types of fundamental vibrations,
factors influencing vibrational
frequencies, instrumental.
Finger print region, spectral features
of some classes of organic
compounds, hydrocarbons
spectral features of carbonyl
compounds
spectral features of carboxylic
compounds and its derivatives
Mid Exam
spectral features of amines, anilides,
spectral features of nitro, nitriles, thiol
Introduction to nuclear magnetic
resonance, number of signals,
chemical shift, factors influencing
chemical shift, solvent used
Peak area and proton coupling,
splitting of the signals
Chemical shift in 13CNMR
Instructor Signature:
Lab. Experiment Assignments
Determination the physical properties of organic
compounds.
Determination of elements (sodium fussion)
Solubility
Identification of oxygen containing compounds
Identification of nitrogen containing compounds
unknown
unknown
unknown
unknown
unknown
unknown
unknown
unknown
University:AlNahrain
College:Science
Lecturer name:Dr.Ahmed Askar
Course Instructor
Email
Title
Course Code
Course Description
Learning Outcome
Textbook
References
Department:Chemistry
Stage:4th
Academic Status:Assistant Professor
Dr. Ahmed Asker Najaf
drahmedaskar@yahoo.com
Geology
362/Geol 491
This course introduce the basics and fundamentals of Earth
science focusing on all minerals ,crystal system and rock types
.Also geology is an important topic for enable students for better
understanding of the source of chemical elements and raw
materials which are extracted from the earth .
Open a new horizon for the students, and for more acquiring the
new and update studies that related with applied sciences of
various approaches of pure sciences.
Physical Geology
Physical Geology
Norris W.Jones
Charles E. Jones
Sixth Edition-Mc Graw Hill Higher Education-2008
Course Assessment
General Notes
Term
Tests
25
Laboratory
Quizzes
-
7
8
40
Geology and other sciences are major parts of our lives, and many
of the daily decisions we make are affected in some way by
science. This course is the linkage with the other sciences applying
the physical, chemical, biological, and even computer sciences all
together as a material science.
Course weekly Outline
week
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Instructor Signature:
Assignments Final Exam
Topics Covered
Introduction
Properties of Minerals
Mineral Identification
Crystals
Igneous Rocks
Mineral composition
Classification and Identification
Texture
Sedimentary Rocks
Erosion and Transportation
Deposition and Lithification
Metamorphic Rocks
Types of Metamorphism
Metamorphic Texture
Zones of Metamorphism
University:Al-nahrain
Stage: Fourth year 1st semester
College:Science
Lecturer name:Dr.Khaleda H. Al-saidi
Department:Chemistry
Academic Status: Assistant professor
Course Instructor
E_mail
Assistant professor Dr- Khaleda Hamid Al-Saidi
Khaledaalsaidi@yahoo.com
Title
Course Coordinator
Analytical Chemistry (Electro-analytical methods)
CHM421
1- Electrochemical definitions and terminology, 2- Potentiometric methods
, 3- Electro-gravimetric and Coulometric methods, 4- Voltammetry and
polarography, 5- Conductometric methods
First semester (analytical Chemistry)
Course Description
Learning Outcome
Textbook
References
Course Assessment
General Notes
1-Fundamentals of Analytical Chemistry
Eighth Edition, 2009 By: Douglas A. Skoog, Donald M. West, F. James
Holler, Stanley R. Crouch , pub. Brooks/Cole- Thomson Learning 10 Davis
Drive Belmont, CA 94002 USA.
2-Principles of Instrumental Analysis
Third edition By – Douglas A. Skoog, Saunders Golden Sunburst Series
(Saunders college publishing New York 1984
1-Principle and Practice of Analytical Chemistry , F.W. Fifield and D.
Kealey , 2nd edition , International Textbook company London , 1986
2- Modern Analytical Chemistry By David Harvey, International Edition
coprint 2000, McGraw-Hill, USA. Some of journals.
Term Tests
Laboratory
Quizzes
Assignments
Final Exam
25%
15
60%
Electrochemical
definitions
and terminology,
includes:Potentiometric methods, Electro-gravimetric and Coulometric methods,
Voltammetry and polarography, Conductometric methods
1
week
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Course weekly Outline
Topics Covered
1- Electrochemical definitions and terminology
Oxidation/Reductionin Electrochemical cells.
, Types of Electrochemical cells., Reversible and irreversible cells., conducting in
Electrochemical cells, galvanic and electrolyte cells
The components of the cell
Anode ., Cathode., Liquid junctions, salt bridge., The schematic Representation of cell.,
Electrode potentials. Examples and questions.
Calculation of dissociation constant. Calculation of complex formation constant.
Examples and questions. Calculation of solubility product constant.
2- Potentiometric methods
a- Indicator electrodes, metallic electrodes first, second and third order e
lectrodes
b- Membrane electrodes, Alkaline and acid errors, pH
electrode calibration
methods.
c- glass selective electrodes, selectivity of electrode and selectivity ratio
d- Ion selective electrodes, glass, liquid membrane, solid - state, precipitate, gas sensing and Enzyme electrodes
. Examples and questions.
Types of reference electrodes.
Calomel electrode. Double junction reference electrodes. Silver/silver Chloride
electrodes.
e- Instruments for potential measurement
f- Potentiometers
g- Direct reading instruments
h- Analytical application
Examples and questions.
Calculation of dissociation constant. Calculation of complex formation constant.
Calculation of solubility product constant. Examples and questions.
i- External and standard addition methods
j- Potentiometric titrations, conventional, first and second derivative plots for end
point detections.
3- Electro-gravimetric and Coulometric methods
a- Electrolysis and current- voltage relationships
b- Constant current and constant potential electrolysis
. Examples and questions
c- Types of coulometric methods, constant potential coulometry
d- Coulometric titration, neutralization, precipitation, complex formation,
oxidation - reduction titration.
. Examples and questions
Examination
4- Voltammetry and polarography
a- Description of polarographic measurements, polarographic cell, Dropping
Mercury electrode, polarograms
b- polarographic wave, residual current, limiting current, diffusion current, and
half - wave potential. Examples and questions.
c- Supporting electrolyte and current maxima suppressors
d- Ilkovic equation and its analytical application
2
13
14
15
e- Voltammetry and related techniques.
f- Amperometric titrations, titration curves, analytical applications,
Examples and questions
5- Conductometric methods
a- Electrolytic conductance, equivalent conductance
b- conductance measurements, power sources, types of cells, cell constant
c- Conductometric titrations, acid - base mixture titrations
. Examples and questions .
Review , Examples and questions., Examination
Term Paper :Involve a preparation of a recent research article in own words
Instructor Signature:
Assistant professor Dr- Khaleda Hamid Al-Saidi
3

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