CH242 : Thermodynamics and solutions

Department

Department of Chemistry

Academic Program

Bachelor in Chemistry

Type

Compulsory

Credits

Prerequisite

CH241

Overview

This course aims to:1- Study the liquid state and its properties such as surface tension, vapor pressure and viscosity.2- Studying the collective (interrelated) properties of dilute solutions (osmotic pressure, vapor pressure, elevation in boiling point, decrease in freezing point), knowledge of the thermodynamics of ideal and imperfect (real) solutions.3- Knowing and studying the equilibrium of phases for systems that contain different phases.

Intended learning outcomes

a. Knowledge and understandingKnow the basic elements of the concept of gases and properties of matterLearn the properties of solutions and the movement of chemical reactions.Know and understand chemical equilibrium, acids and bases.Recognize the basic concepts of solubility and equilibrium of complex ions. B. Mental skillsThe ability to apply mathematical laws and relationships for gases and states of matter.The ability to distinguish between units of concentration and the movement of chemical reactionsDo all calculations related to chemical balance, acids and bases.The ability to explain the solubility of solutions and the equilibrium of complex ions.C. Practical and professional skillsGain the skill of dealing with gases and changes in states of matter.He attaches importance to the knowledge gained about the properties of solutions and the movement of chemical reactions.Shows the general meaning of the concept of chemical equilibrium, acids and bases.Good understanding of the solubility of solutions and the equilibrium of complex ions. D. General and transferable skillsThat the student has the ability to work in a team.The ability to use the Internet to obtain the required information.Scientific and analytical thinking.Applying mathematical relations when solving issues related to the subject of the study

Teaching and learning methods

Direct explanation of topics through theoretical lectures and office hours for the course instructor to answer students' inquiries.Problem solving and homework.

Methods of assessments

First evaluation /A written test /Week 6Second evaluation /A written test /Week 11Final evaluation / A written test / Week 1

1. Course content(Course contents)

Scientific subject	The number of hours	a lecture	Lab	exercises	discussion	Independent study	Number of weeks
States of matter, vaporization, surface action, viscosity	6	6	-	-	-	-	3
Maxwell's relations, chemical potential, the Cl-Pyron relation, the Classicus Cl-Pyron equation, and the Gibbs relation	8	8	-	-	-	-	4
Interconnected properties of solutions: vapor pressure, boiling point elevation, freezing point depression, osmotic pressure	6	6	-	-	-	-	3
Chemical equilibrium	4	4	-	-	-	-	2
Balance of phases	4	4	-	-	-	-	2

1. e reviewer (References)

Reference book
Reference name	Author	publisher	Release	His whereabouts
Atkins' Physical Chemistry	Peter Atkins and Julio de Paula	Oxford University Press	8thEdition	- Department library - electronic copy
Helping books
Physicalchemistry Physicalchemistry	Gordon M. Barrow Walter J. Moore	McGraw-Hill McGraw-Hill	2ndEdition 5thEdition	- Department library - electronic copy

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Mathematics 1 (MA100)
English Language 1 (EL101)
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General Physics 2 (PH112)
General chemistry 2 (CH102)
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Fundamentals of Inorganic Chemistry (CH221)
Analytical Chemistry(I) (CH211)
Practical Analytical Chemistry (CH213)
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Organic chemistry II (CH232)
Practical Analytical Chemistry, (CH214)
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Practical Analytical Chemistry (III) (CH013)
Organic chemistry Practical (CH031)
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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)
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