CH343 : Molecular Spectroscopy

Department

Department of Chemistry

Academic Program

Bachelor in Chemistry

Type

Compulsory

Credits

Prerequisite

CH321

Overview

This course aims to:1) That the student learn the basics of visible and ultraviolet spectroscopy.2) Studying the rotational spectrum of linear and nonlinear particles.3) Identify the vibrational spectrum of molecules.4) Study the foundations of the Raman spectrum.5) Study symmetry and group theory of molecules.

Intended learning outcomes

a. Knowledge & understandingA.1 The student will be familiar with basic information about visible and ultraviolet spectroscopy.A.2 Introduce the student to the basics of the rotational spectrum of linear and nonlinear particles on which spectroscopy is built in terms of equations and theories.A.3 Introducing students to the fundamentals of the vibrational spectrum of molecules.A.4 Learn the basics of Raman spectroscopy.A.5 Understanding the concept of symmetry and group theory.B. Mental skillsB.1 The ability to understand the possible types of electronic transitions and relate them to the molecular structure of the compound.B.2 The ability to analyze the Dawanian spectrum of a molecule to obtain values of the rotation constant and thus determine the bond length.B.3 The ability to predict the vibrational patterns of a molecule.B.4 Familiarity with the Stokes and Stokes counter lines associated with Raman spectroscopyB.5 Familiarity with the types of elements and symmetry processes of different molecules.T. Practical & professional skillsC.1 Familiarity with the laws of absorption and the factors affecting the amount of absorption.C.2 Applying the laws and principles of rotational spectroscopy to obtain the bond length of molecules.C.3 The ability to perform mathematical calculations related to the vibrational spectrum of molecules.C.4 Ability to solve problems related to Raman spectroscopy.C.5 Be able to explain the types of elements and symmetry processes of a given molecule.D. Generic and transferable skillsD.1 The student's ability to explain spectra in a simplified scientific way.D.2 The ability to link between the different spectra obtained in practice and methods of distinguishing between them.D.3 The student will be able to understand and analyze the molecular spectrum to obtain the most accurate results.

Teaching and learning methods

• Direct explanation of topics through theoretical lectures and office hours for the course professor to answer students' inquiries.• Solving problems and homework.

Methods of assessments

First written exam 25%Second written exam 25%final exam 50%

1. محتوى المقرر (Course contents)

الموضوع العلمي	عدد الساعات	محاضرة	معمل	تمارين	مناقشة	مذاكرة مستقلة	عدد الأسابيع
الاطياف الالكترونية UV- visible spectroscopy	6	6	-	-	-	-	3
الاطياف الدورانية Microwave spectroscopy	8	8	-	-	-	-	4
الاطياف الاهتزازية IR spectroscopy	6	6	-	-	-	-	3
طيف الرامان	4	4	-	-	-	-	2
التماثل ونظرية المجموعات	4	4	-	-	-	-	2

Introduction to Atmospheric Science (AT111)
Arabic language 1 (AR051)
General Physics І (Electricity ) (PH110)
General Chemistry 1 (CH101)
Mathematics 1 (MA100)
English Language 1 (EL101)
Principles of Atmospheric Science (AT112)
General Physics 2 (PH112)
General chemistry 2 (CH102)
General Chemistry 2 Laboratory (CH103)
Calculus and Analysis principle 2 (MA102)
Organic chemistry I (CH231)
Thermodynamics and Gases (CH241)
Ordinary Differential Equations (MA201)
Fundamentals of Inorganic Chemistry (CH221)
Analytical Chemistry(I) (CH211)
Practical Analytical Chemistry (CH213)
Methods for preparing inorganic compounds I (practical) (CH223)
Organic chemistry II (CH232)
Practical Analytical Chemistry, (CH214)
Thermodynamics and solutions (CH242)
Chemistry of Main Group Elements (CH222)
Analytical Chemistry(II) (CH212)
English language 2 (EL102)
Practical Analytical Chemistry (III) (CH013)
Organic chemistry Practical (CH031)
Industrial Chemistry (CH461)
Electrochemistry (CH341)
Thermodynamics and Solutions Lab (CH243)
Analytical Chemistry(III) (CH311)
Fundamentals of transition elements (CH321)
organic chemistry 3 (CH331)
Practical Industrial chemistry I (CH463)
Practical Analytical Chemistry(IV) (CH014)
Analytical Chemistry(IV) (CH312)
Transition elements chemistry studies (CH322)
Organic chemistry III Practical (CH333)
Biochemistry (CH451)
Organic chemistry IV (CH332)
Quantum chemistry (CH342)
Electrochemistry Lab (CH345)
Biochemistry lab I (CH453)
Molecular Spectroscopy (CH343)
Organic chemistry IV Practical (CH033)
Solid State Chemistry (CH344)
Practical Analytical Chemistry(V), (CH414)
Organometallic Chemistry (CH421)
Preparation and Methods for detection of inorganic compounds (CH424)
Industrial Chemistry (II) (CH462)
Analytical Chemistry(V) (CH441)
Nuclear chemistry (CH323)
Industrial Chemistry (II) Lab (CH464)
Kinetic Chemistry lab (CH043)
Kinetic Chemistry (CH442)