CHE434 Lesson Plan2014

March 26, 2018 | Author: Nurtasha Atikah | Category: Acid, Chemical Bond, Chemistry, Chemical Reactions, Molecules


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LESSON PLANCHE 434 PROCESS CHEMISTRY 1.0 FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA COURSE INFORMATION 2.0 COURSE NAME COURSE CODE PROGRAM : : : PROCESS CHEMISTRY CHE434 EH220, EH241 AND EH242 SEMESTER : 1 CREDIT HOURS CONTACT HOURS COURSE STATUS PRE-REQUISITE : : : : 3.0 4.0 CORE NIL SYNOPSIS This course is an advanced course in chemistry. The topics covered include acid-base reactions, chemical equilibrium, thermochemistry, electrochemistry and kinetics. 3.0 OBJECTIVES Upon completion of this course, students should be able to: Discuss the basic concept of chemistry in everyday life and application towards chemical engineering field. 2. Analyze theoretical basis for the operation of chemical nanosystem. 3. Evaluate the concept of redox reaction, thermochemistry and kinetic reactions in chemical engineering. 1. 4.0 METHODS OF INSTRUCTION Lecture and Tutorial Lecture : Tutorial : 5.0 3 hours/week 1 hour/week LESSON PLAN Week 1-2 3-4 Lectures / Tutorials Chapter 1: Atoms, Molecules and Chemical Bonding Atomic Orbitals Electronic Configuration Quantum Theory Molecular Orbitals Bonding and Intermolecular Forces Chapter 2: Acids and Bases Arrhenius, Brønsted and Lewis Acids and Bases Autoionization Strong Acids and Bases Weak Acids and Bases Acid-base titration Activities Briefing of the course objectives and lesson plan. Lecture/ exercise Lecture/ exercise Absence from lecture. etc must be supported by relevant document. E.14 6. test. Heterogeneous and Enzymatic Catalysis Chapter 6: Frontier Chemistry Nanomaterials.0 OTHER INFORMATION/DETAILS PREPARED BY : APPROVED BY : SIGNATURE : SIGNATURE : _________________________ NAME : Dr. tutorial. Nurul Fadhilah DATE : 10th September.0 FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA 40% 60% TEXTBOOKS Brown.. and Diffusion Rates of Chemical Reactions: Chemical Kinetics and Rate Laws Homogeneous. New Jersey: Prentice Hall 8. New York: McGraw-Hill. 2014. M. 6 th ed. 10. ________________________________ NAME : POSITION : . E. H. Chemistry: The Molecular Nature of Matter and Change..0 REFERENCES Silberberg. and Bursten.0 Chapter 3: Oxidation and Reduction Redox Potentials Redox Stability Diagrammatic Potential Data Chemical Extraction Chapter 4: Thermodynamics and Equilibria First Law of Thermodynamics Second Law of Thermodynamics Physical Transformation of Pure Substances Simple Mixtures Chemical Equilibria Chapter 5: Chemical Reaction Kinetics and Catalysis Molecules in Motion: Gases and Liquids.LESSON PLAN CHE 434 PROCESS CHEMISTRY 5-6 7 . 2011.10 11 . T.0 ADDITIONAL INFORMATION Attendance is compulsory. Students who fail to comply 80% of the attendance will be barred from taking the final exam.. presentation. (2006). Chemistry: The Central of Science. L. B. 9. 10th ed. LeMay.12 13 . nanoscience and nanotechnology Characterization and fabrication Lecture/ exercise Lecture/ exercise Test 1 Comments and feedbacks from lecturers Lecture/ exercise Lecture/ exercise Test 2 ASSESSMENT Tests and Assignments : Final Examination : 7. 2 Autoionization 2.3 Quantum Theory 1.5.3 Heteronuclear diatomic molecules 1.3 Lewis acids and bases 2.4 Bond order 1.7 Van der Waals 1.5.1 Acids and Bases 2.3 Covalent (incl.4.4 Weak acids and bases 2.2 Hund’s Rule 1.1.1.2. pKb and pKw .1 Octet Rule 1.1.2 Electronic Configuration 1.5.2.5.4 Metallic 1.2 Bronsted 2.2 Ionic 1. pOH pKa.5 Ketelaar triangle 1.5.4 Molecular Orbitals 1.1 Aufbau Principle 1.LESSON PLAN CHE 434 PROCESS CHEMISTRY FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA DATE: Week Topic Chapter 1: Atoms.9 Dipole-dipole Discussed Topic Chapter 2 : Acids and Bases 3-4 2.5.6 Hydrogen bonding 1.5 Bonding and Intermolecular Forces 1.3 Pauli Exclusion Principle 1.5.8 London 1.3 Strong acids and bases 2.5 Acid-base titration Course Outcome CO 1: Discuss the basic concept of chemistry in everyday life and application towards chemical engineering field Course Learning Outcom Students should be able to:     Course Outcome CO 1: Discuss the basic concept of chemistry in everyday life and application towards chemical engineering field Describe atomic orbitals Write electronic configurations Explain the bonding between different atoms Explain the interactions betwee molecules Course Learning Outcom Students should be able to:   Explain the concept acids and bases according to Arrhen Bronsted and Lewis Calculate pH.5.3 Shells and subshells 1.1.2.4.1.4.1 Arrhenius 2.4.2 Wave functions 1. Molecules and Chemical Bonding 1-2 Week 1.1 Atomic Orbitals 1.2 Homonuclear diatomic molecules 1.1.1 Hydrogenic orbitals 1.1 Molecular orbital theory 1.5. dative) 1. 5 Chemical Equilibria 4. het and enzymatic catalysis Students should be able to:  Analyze theoretical basis for the operati of chemical nanosystem.3 Activities 4.2 Heterogeneous 5.5.1 Molecular motion in gases and Liquids 5.3.3.2 Rate laws 5.2.2 Properties of solutions 4.1 Chemical kinetics 5.2 Second Law of Thermodynamics 4.LESSON PLAN CHE 434 PROCESS CHEMISTRY FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA Chapter 3: Oxidation and Reduction (Redox) 5-6 3.2 Diffusion 5.4.3 Equilibrium electrochemistry Chapter 5: Chemical Reaction Kinetics and Catalysis 5.2 Thermochemistry 4.3.3 Catalysis 5.1 Molecules in Motion 5.2.2 Characterization and fabrication   Calculate redox potentials Describe redox applications Students should be able to: CO 3: Evaluate the concept of redox reaction.1.2. chemic and electrochemica equilibria Students should be able to: CO 3: Evaluate the concept of redox reaction.2 Redox Stability 3.2.3 Physical Transformations of Pure Substances 4.1 Phase diagrams 4.1 Basic concepts 4.4.2. thermochemistry and kinetic reactions in chemical engineering    Discussed Topic 4. thermochemistry and kinetic reactions in chemical engineering. nanoscience and nanotechnology 6.1 Redox Potentials 3.3.     CO 2: Analyze theoretical basis for the operation of chemical nanosystem.2 Rates of Chemical Reactions 5.2 Gibbs and Helmholtz 4.3 Enzymatic Chapter 6:Frontier Chemistry Students should be able to: Course Outcome . Determine rate laws Describe the concep reaction kinetics Calculate rates of reaction Explain homo-.5.2 Phase transitions and liquid surface properties 4.1.4 Chemical Extraction CO 3: Evaluate the concept of redox reaction. thermochemistry and kinetic reactions in chemical engineering. .1 First Law of Thermodynamics 4.4 Simple Mixtures 4.3 Diagrammatic Potential Data 3.1.1 Spontaneity 4.5.2 Equilibria response 4.1 Nanomaterials.3 State functions & exact differentials 4. State and use the fir and second laws of thermodynamics Calculate Gibbs and Helmholtz energies Apply thermodynamics concepts to explain properties of solutio Course Learning Outcom   Explain single and two-component pha diagrams Apply thermodynam concepts to explain spontaneity.1 Spontaneous change 4. Chapter 4: Thermodynamics and Equilibria 7-10 Week 11-12 13-14 4.1 Thermodynamics 4.1 Homogeneous 5.3.3 Combining the laws 6.4.1.1. LESSON PLAN CHE 434 PROCESS CHEMISTRY FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA COURSE OUTCOMES (CO): Statements describing ability that should be acquired by the students who completed the course. PROGRAMME OUTCOMES COURSE OUTCOMES CO 1: Discuss the basic concept of chemistry in everyday life and application towards chemical engineering field PO 1 PO 2 PO 3 PO 4 PO 5 PO 6 PO 7 PO 8 PO 9 PO 10 PO 11 PO 12 3 3 0 0 0 0 2 0 0 0 0 0 . skills and attitude. COURSE LEARNING OUTCOMES: Statements describing student action that serves as evidence of knowledge. PROGRAM OUTCOMES (PO): Statements describing the knowledge. skills and attitude acquired upon graduation. . 2 – Moderately emphasized. 3 2 0 0 0 0 2 0 0 0 0 0 CO 3: Evaluate the concept of redox reaction. thermochemistry and kinetic reactions in chemical engineering 3 3 0 0 0 0 2 0 2 0 0 0 Numbers Indicator: 3 – Strongly emphasized.LESSON PLAN CHE 434 PROCESS CHEMISTRY FACULTY OF CHEMICAL ENGINEERING UNIVERSITI TEKNOLOGI MARA CO 2: Analyze theoretical basis for the operation of chemical nanosystem. 1 – Slightly emphasized.
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