Q
Q95010. Statistical tools in chemical research
(3-0-8. Requisito: Ma00835, 6 LCQ00, 6 LCQ04)
OBJETIVO GENERAL DE LA MATERIA
Students will be able to use the techniques for experimental design, select the most suitable for each particular application and use in optimization and problem solving dealing with chemical processes, research and development of formulae.
LIBRO(S) DE TEXTO
J. Lawson, J. L. Madrigal y J. Erjavec, ``Estrategias Experimentales para el Mejoramiento de la Calidad en la Industria'', Ed. Grupo Editorial Iberoamérica. México, D.F. (1992)
LIBROS DE CONSULTA
G. Box, ``Estadística para Investigadores'', Ed. Reverté. Barcelona (1988).
F. H. Walters, Ll. R. Parker Jr., S. L. Morgan y S. N. Deming, ``Sequential Simplex Optimization'', Ed. CRC Press Inc. Boca Ratón, Florida (1991)
D. C. Montgomery, ``Diseño y Análisis de Experimentos'', Ed. Grupo Editorial Iberoamérica. México. D.F. (1991)
PERFIL DEL PROFESOR
Profesor con licenciatura, maestría o doctorado en Química y experiencia profesional en la aplicación del diseño de experimentos en la investigación química, el desarrollo de productos y el diseño de formulaciones.
Q95031. Fundaments & applications in Electrochemistry
Academic department:Chemistry
Units:3 0 8
Requirement:Q00842
Semester and career:LCQ 6o semester
Equivalence:
General aim of the course:This course introduces the fundamental concepts of
the thermodynamic and kinetic view of electrochemistry, such as: electrochemical
potential, structure of the electrode-electrolyte interface, electron transfer,
ionic conductivity, transport phenomena, etc. and reviews its applications to
galvanic cells, electrolytic cells, corrosion, electrocatalysis and modern electroanalytical
techniques.
Campus:Seleccionar Campus
Bibliography:Brockris, J. O'W. y A K.N. Reddy
Electroquímica moderna
Reverté, S.A. México, D.F. (1978).
Mantell, Ch. L.
Ingeniería Electroquímica
Reverté, S.A. Barcelona (1962).
Posadas, D.
Introducción a la Electroquímica,
O.E.A. Washington, D.C. (1980).
Bond, Allen y Faulkner L.R.
Electrochemical methods. Fundamentals and applications
John Wiley & Sons Inc., 2d Ed., New York (2001).
Vassos, Basil y Ewing, Galen
Electroquímica Analítica
Limusa, México (1998)
Instructor's profile:Ph.D in Electrochemistry or Physical Chemistry.
Language of Instruction:Spanish
Q95032. Advanced Organic Chemistry
Academic department:Chemistry
Units:3 0 8
Requirement:Organic Chemistry II
Semester and career:Topic
Equivalence:No tiene
General aim of the course:To learn the main synthetic organic reactions used
in research laboratories at industry and academia for the designof pharmaceuticals,
natural products, their derivatives and organic molecules in general.
Campus:Monterrey
Bibliography:Scientific Journals
Instructor's profile:Ph.D in Organic Synthesis
Language of Instruction:Spanish
Q95033. Organic reaction mechanisms
Academic department:Chemistry
Units:3-0-8
Requirement:Q00841 and Q00842
Semester and career:LCQ06
Equivalence:No
General aim of the course:Have
the ability to propose the mechanisms for organic reactions and use this knowledge
for the design of synthesis of new and useful organic compounds.
Campus:Monterrey
Bibliography:P.Sykes, " A guidebook to Mechanism in Organic Chemistry"
6th edition, John Wiley, New York, 1986
Instructor's profile:The instructor has a master degree or a Ph.D. degree in
OrganicChemistry.
Language of Instruction:Spanish
Academic department:Chemistry
Units:3-0-8
Requirement:Q841 and Q842
Semester and career:LCQ06
Equivalence:
General aim of the course:Apply the principles of advanced mathematics and quantum
mechanics to the behavior of microscopic particles such as electrons, atoms
and molecules. Present he quantum mechanic models to study translation , rotation
and vibration of microscopic chemical species and find the atomic orbitals and
molecular orbitals in order to stablish a theoretical basis for the discussion
of the physical and chemical properties of atoms and molecules.
Campus:Monterrey
Bibliography:D.A. McQuarrie, "Quantum Chemistry" University Science
Books, Mill Valley, 1983 I. N. Levine, "Química Cuántica",
Prentice Hall, 5ta edición, Madrid, 2001
Instructor's profile:The instructor has a master degree or a Ph.D. degree in
Physical Chemistry.
Language of Instruction:Spanish
Q-95-088.
Units:3-0-8
Requirement:Q 00 842
Semester and career:7° semester
Equivalence:None
General
aim of the course:This course will be oriented to the application of Thermodynamics,
to the description of the
physical behavior of mixtures, reacting systems and materials, using fundamental
concepts such as chemical potential, fugacity,
activity and equilibrium. The relationship among thermodynamic functions and
phase diagrams of two and three components will be
emphasized. We also will review the connection between macro- and microscopic
properties of simple systems through the grounding
concepts of Statistical Mechanics.
Bibliography:
Instructor's profile:The
instructor should hold a M Sc or PhD degree in Physical Chemistry or Materials
Science
Language of Instruction:Spanish
Campus:Monterrey
Q-95-089 Topics in Biochemistry
Units:3-0-8
Requirement:Q00821
Equivalence:None
General aim of the course:This course integrates principles from physical chemistry,
organic chemistry and biology for
understanding the processes that supports the chemistry of life. Continues the
study of metabolism and its regulation,
and then examines the transmission and expression of the genetic material in
prokaryotic and eukaryotic cells.
Bibliography:
Instructor's profile:Professor with a Master Degree in Chemistry or Biochemistry
Language of Instruction:Spanish
Campus:Monterrey
Fecha de la última actualización: 14 de diciembre de 2004(M)