Course Identification

Chemistry module: Chemistry of substances
20186182

Lecturers and Teaching Assistants

Prof. Igor Lubomirsky
N/A

Course Schedule and Location

2018
Second Semester
Thursday, 09:00 - 11:00, Musher, Lab 2

Tutorials
Thursday, 11:00 - 12:30, Musher, Lab 2
15/03/2018

Field of Study, Course Type and Credit Points

Science Teaching (non thesis MSc Track): Lecture; Obligatory; 4.00 points

Comments

N/A

Prerequisites

  • General and Physical Chemistry (~ Atkins)
  • Basic Inorganic Chemistry
  • Physics (~Berkeley 1,2,3)

Restrictions

20
For students in the Rothschild-Weizmann program only

Language of Instruction

Hebrew

Attendance and participation

Expected and Recommended

Grade Type

Numerical (out of 100)

Grade Breakdown (in %)

50%
50%

Evaluation Type

Examination

Scheduled date 1

17/07/2018
WSoS, Rm B
1000-1400
N/A

Scheduled date 2

N/A
N/A
-
N/A

Estimated Weekly Independent Workload (in hours)

2

Syllabus

1. Introduction

  • Materials world, basic ideas of materials.

 

2. Bonding in solids

  • Types of Bonding.
  • Molecular and Extended Bonding.

 

3. Structural Chemistry of extended solids

  • Packing arrangements; radii
  • Coordination Polyhedra;
  • Lattices, Pseudo-Lattices
  • Crystal structures
  • Basics of glasses

 

4. Defects in Materials. Thermodynamics and kinetics.

  • Basic types of defects in crystals and society
  • Equilibrium concentration of defects
  • Atomic nature of diffusion
  • Basics non-constitutional effects. Einstein equation

 

5. Thermal properties of solids.

  • Thermal capacitance of crystals;
  • The nature of thermal expansion;
  • Example of negative thermal expansion;

 

6. Electrons in metals.

  • Metallic bond; Drude model and its limitation;

 

7. Phase diagrams

  • Definition of a phase; Basics of thermodynamic of phase transitions; The concept of a phase diagram; Binary diagrams. Lever rule of phase quantities; Types of binary diagrams, practical examples.

Learning Outcomes

Upon successful completion of this course students should be able to:

  1. Predict material properties based on its structure and composition

Reading List

Recommended: W. D. Callister Fundamentals of materials science and engineering

Website

N/A