Undergraduate Bulletin - Illinois Institute of Technology
Undergraduate Bulletin - Illinois Institute of Technology
Undergraduate Bulletin - Illinois Institute of Technology
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Course Descriptions<br />
CHE 530<br />
Advanced Process Control<br />
CHE 535<br />
Applications <strong>of</strong> Mathematics to Chemical Engineering<br />
CHE 536<br />
Computational Techniques in Engineering<br />
CHE 538<br />
Polymerization Reaction Engineering<br />
CHE 541<br />
Renewable Energy Technologies<br />
CHE 542<br />
Fluidization and Gas-Solids Flow Systems<br />
CHE 543<br />
Energy, Environment and Economics<br />
CHE 545<br />
Metabolic Engineering<br />
CHE 551<br />
Advanced Transport Phenomena<br />
CHE 553<br />
Advanced Thermodynamics<br />
CHE 555<br />
Polymer Processing<br />
CHE 560<br />
Statistical Quality and Process Control<br />
CHE 565<br />
Fundamentals <strong>of</strong> Electrochemistry<br />
CHE 566<br />
Electrochemical Engineering<br />
CHE 567<br />
Fuel Cell Fundamentals<br />
CHE 575<br />
Polymer Rheology<br />
CHE 577<br />
Bioprocess Engineering<br />
CHE 580<br />
Biomaterials<br />
CHE 582<br />
Interfacial and Colloidal Phenomena with Applications<br />
CHE 583<br />
Pharmaceutical Engineering<br />
CHE 584<br />
Tissue Engineering<br />
CHE 585<br />
Drug Delivery<br />
Chemistry<br />
CHEM 100<br />
Introduction to the Pr<strong>of</strong>ession<br />
Introduction to the chemical sciences, scientific method,<br />
computing tools, and interrelations <strong>of</strong> chemical sciences with<br />
biology, physics and other pr<strong>of</strong>essions.<br />
(2-0-2) (C)<br />
CHEM 122<br />
Principles <strong>of</strong> Chemistry I Without Laboratory<br />
Foundations <strong>of</strong> chemistry, atoms and molecules, stoichiometry<br />
<strong>of</strong> chemical reactions, thermo chemistry, properties <strong>of</strong> gases,<br />
states <strong>of</strong> matter, chemical solutions, kinetics. Molecular<br />
basis for chemical reactivity; atomic structure, periodicity,<br />
chemical bonding. Same as CHEM 124 except without the<br />
laboratory.<br />
(3-0-3)<br />
CHEM 123<br />
General Chemistry Laboratory<br />
General chemistry laboratory.<br />
CHEM 124.<br />
(0-3-1)<br />
The laboratory portion <strong>of</strong><br />
CHEM 124<br />
Principles <strong>of</strong> Chemistry I with Laboratory<br />
Foundations <strong>of</strong> chemistry, atoms and molecules, stoichiometry<br />
<strong>of</strong> chemical reactions, thermo chemistry, properties <strong>of</strong> gases,<br />
states <strong>of</strong> matter, chemical solutions, kinetics. Molecular<br />
basis for chemical reactivity; atomic structure, periodicity,<br />
chemical bonding.<br />
(3-1-4) (C)<br />
CHEM 125<br />
Principles <strong>of</strong> Chemistry II<br />
Chemical equilibria, the chemistry <strong>of</strong> acids and bases,<br />
solubility and precipitation reactions. Introduction to thermodynamics<br />
and electrochemistry. Chemistry <strong>of</strong> selected<br />
elements and their compounds.<br />
Prerequisite(s): [(CHEM 124) OR (IIT Chemistry Placement:<br />
125)]<br />
(3-3-4) (C)<br />
CHEM 126<br />
Principles <strong>of</strong> Chemistry II<br />
Same as CHEM 125 except without the laboratory.<br />
Prerequisite(s): [(CHEM 122) OR (CHEM 124)]<br />
(3-0-3)<br />
CHEM 140<br />
Principles <strong>of</strong> Chemistry II Lab<br />
Laboratory portion <strong>of</strong> CHEM 125 (Principles <strong>of</strong> Chemistry<br />
II) covering Chemical Equilibria, the chemistry <strong>of</strong> acids and<br />
bases, solubility, and precipitation reactions. Introduction to<br />
thermodynamics and electrochemistry. Chemistry <strong>of</strong> selected<br />
elements and their compounds.<br />
Prerequisite(s): [(CHEM 126)]<br />
(0-3-1)<br />
CHEM 235<br />
Organic Chemistry I-Lecture<br />
The constitution and properties <strong>of</strong> the different classes <strong>of</strong><br />
organic compounds, with considerable attention to stereochemistry,<br />
reaction mechanisms, synthetic organic and<br />
bio-organic chemistry, and spectroscopy. The laboratory<br />
work involves an introduction to major synthetic and analytical<br />
techniques <strong>of</strong> organic chemistry including the preparation<br />
<strong>of</strong> representative organic compounds and the isolation <strong>of</strong><br />
compounds from natural sources. Lecture only.<br />
Prerequisite(s): [(CHEM 125) OR (CHEM 126)]<br />
(3-0-3)<br />
205