F PHYSICS
F00001. MODERN PHYSICS
"To know the fundamentals of the special theory or relativity, quantum mechanics and statistical mechanics. Likewise, the fundamentals of solid physics and PN union modeling are introduced."
System of units. Vectors. Newtonian laws. Rotational balance. Kinematics in one dimension. Kinematics in two dimensions. Parabolic shot. Second Law of Newton. Work and energy. Conservation of energy. Impulse and amount of movement. One-dimensional impact. Circular uniform motion. Rotation of rigid bodies.
Textbook: Frank J. Blatt, Fundamentos De Física, Prentice Hall.
CAMPUS: VER, CHIS, CHIH, CCM, C. JUA, OBRE, COL, CEM, GDA, HID, LAG, LEO, MAZ, MTY, CVC, QRO, SALT, SLP, SIN, SON, TAMP, TOL, ZAC.
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
Vectors. Rectilinear movement. One-plane movement. Newton's laws of movement. Applications of Newton's laws. Work and kinetic energy. Conservation of energy. Momentum and impulse. Rotational movement. Dynamics of rotational movement. Balance and elasticity. Gravitation. Textbook: Hugh D. Young, University Physics, Addison-Wesley, Publishing Co., Inc. Harris Benson, University Physics, John Wiley & Sons, Inc.
CAMPUS: VER, CHIS, CHIH, CCM, C. JUA, OBRE, COL, CEM, GDA, HID, LAG, LEO, MAZ, MTY, CVC, QRO, SALT, SLP, SIN, SON, TAMP, TOL, ZAC.
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
Statistics and dynamic of fluids. Periodical movement. Mechanical waves. Superposition of waves. Sound. Heat. Thermal properties of matter. First law of thermodynamics. Nature and light propagation. Geometric optics. Textbook: Hugh D. Young, University Physics, Addison-Wesley Publishing Co., Inc. Harris Benson,
University Physics, John Wiley & Sons, Inc.
CAMPUS: VER, CHIS, CHIH, CCM, C. JUA, OBRE, COL, CEM, GDA, HID, LAG, LEO, MAZ, MTY, CVC, QRO, SALT, SLP, SIN, SON, TAMP, TOL, ZAC.
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
Electric currents. Law of Gauss. Electric capacity. Capacitors and dielectric. Current and resistance. Direct current circuits. Magnetic fields. Magnetic field sources. Electromagnetic induction. Inductance. Relativistic mechanics. Quantum mechanics. Textbook: Hugh D. Young, University Physics, Addison-Wesley Publishing Co., Inc. Harris Benson, University Physics, John Wiley & Sons, Inc.
CAMPUS: VER, CHIS, CHIH, CCM, C. JUA, OBRE, COL, CEM, GDA, HID, LAG, LEO, MAZ, MTY, CVC, QRO, SALT, SLP, SIN, SON, TAMP, TOL, ZAC.
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
Rectilinear movement. Newtonian laws. Circular motion. Wok, energy and power. Temperature and reactions of gases. Mechanics of liquids. Ondulatory motion. Ondulatory principles of light. Ionizing radiation. Textbook: Joseph W. Kane and Morton M. Sternheim, Physics, John Wiley and Son. David Jou, Joseph Enric Llebot and Carlos Pérez García, Física para Ciencias De la Salud, McGraw-Hill, 1994. Hugh D. Young, University Physics, Addison-Wesley Publishing Co., Inc. Harris Benson, University Physics, John Wiley & Sons, Inc.
CAMPUS: MTY
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
F00815. INTRODUCTION TO ENGINEERING
Organization of the policies of Monterrey Tech. Policies, regulations and norms of the institute. Profile of the field of study and undergraduate program. Areas of specialization in the field. Job market and opportunities. Textbook: Legislación Académica para los Alumnos de las Carreras Profesionales, ITESM, 1994. Reglamento General de Servicio Social, ITESM.
CAMPUS: MTY
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
Undulatory motion. Natural light undulations. Light propagation. Paraxial theory of geometric optics. Superposition of waves. Polarization. Textbook: Hecht-Zajac, Optica, Addison-Wesley. Hugh D. Young, University Physics, Addison-Wesley Publishing Co., Inc. Harris Benson, University Physics, John Wiley & Sons, Inc.
CAMPUS: MTY
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
. F00842. MATHEMATICAL MODELS FOR PHYSICS I
Part I: Complex numbers: polar and exponential form; power and roots. Analytical
functions; Cauchy-Riemann equations; armonic functions. Elemental functions:
exponential, trigonometric, hyperbolic and logarithmic. Complex integral: rim
integral; Cauchy-Goursat theorem; Cauchy integral formula; Morera theorem. Series:
Taylor series; Laurent series; remainders and poles; reminders theorem; real
integral calculus. Textbook: Churchill and Brown, Variable Compleja Y Aplicaciones.
Part II: Coordinate transformation. Sum of repeated indexes covenant. Countervariant
and covariant vectors. Countervariant , covariant and mix tensors. Kronecker
delta. Superior order tensors. Tensor fields. Fundamental operations with tensors.
The line element and the metric tensor. Christofel symbols. Transformation laws
of Christofel symbols. Geodesic lines. Covariant derivative of a tensor. Tensorial
form of the gradient. Divergence, rotational and laplacian. Absolute and intrinsic
derivative. Textbook: Sokolnikoff, Análisis Tensorial.
F00843. ALTERNATE SOURCES OF ENERGY
"Physical basis for solar radiation, solar geometry, estimation and measurement of solar energy, heat transference, plain solar collectors, use of concentrated solar energy, solar cells and photovoltaic energy, biomass, combustion cells, geothermics."
. F00844. MATHEMATICAL MODELS FOR PHYSICS II
Calculus of variations. Fourier series. Partial differential equations. Tensors.
Textbooks: George Simmons, Ecuaciones diferenciales parciales con aplicaciones
y notas históricas, McGraw Hill; Erwing Kreyszig, Matemáticas
avanzadas para ingenierías I y II, Limusa; Mary L. Boas, Mathematical
Methods in Physical Sciences, A. Willer.
F00845. ELECTRODYNAMICS
"To study some of the applications of Maxwell electromagnetic equations, particularly the electromagnetic wave propagation in the vacuum and in dielectric media, the radiation of an accelerated particle and the formulation of the electrodynamics covariant."
Special relativity. Corpuscular properties of waves. Undulatory properties of particles. Atomic structure. Quantum mechanics. Quantum theory of the hydrogen atom. The nucleus. Nuclear reactions. Textbook: V. Acosta, C.L. Cowan and B.J. Graham, Curso De Física Moderna, Editorial Harla. Hugh D. Young, University Physics, Addison-Wesley Publishing Co., Inc. Harris Benson, University Physics, John Wiley & Sons, Inc.
CAMPUS: CCM, CEM, GDA, LAG, MTY, CVC, QRO, TOL.
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
Vectors. Kinematics of relative movement. Dynamics of a particle. Equations of Lagrange movements. Textbook: Walter Hauser, Introducción a los Principios De Macánica, UTHEA.
CAMPUS: MTY
ACAD. PERIOD: FALL
LANGUAGE OF INSTRUCTION: SPANISH
. F00872. THEORETICAL MECHANICS II
Conservation of movement. Central forces. Dynamics of a particle
system. Movement of a rigid body. Small oscillation theory. Special
theory of relativity. Textbook: Walter Hauser, Introducción
a los principios de la mecánica, UTHEA.
F00873. ELECTROMAGNETIC THEORY
Vectors. Electrical fields. Electrostatic energy. Electrical potential. Boundary conditions of an electric field. Electrostatics in the presence of matter. Methods to solve electromagnetic problems. Electrical currents. Magnetic fields. Electromagnetic induction. Magnetic energy. Magnetism in the presence of matter. Boundary conditions of the magnetic field. Maxwell´s equations. Textbook: R.K. Wangsness, Electromagnetic Fields, J.Wiley.
CAMPUS: MTY
ACAD. PERIOD: FALL
LANGUAGE OF INSTRUCTION: SPANISH
. F00882. QUANTUM MECHANICS
Schroedinger's equation. Wave packages in movement. Schroedinger's
equation considered as an equation for characteristic values and
functions. Solution to Schroedinger's equation in one dimension.
Dirac's states of quantum mechanics. The harmonic oscillator in
one dimension. Systems with two degrees of liberty. Quantum paradoxes.
Angular momentum. Movement in a central potential. The hydrogen
atom. Textbook: Amit Goswami, Quantum Mechanics, W. C. Brown Publishers.
. F00891. DEVELOPING PROJECTS IN PHYSICS
Each student proposes a research topic. Bibliography. Theoretical
studies. Experimental procedure. Measuring instruments. Data analysis.
Report. Textbook: J. P. Holman, Métodos experimentales
para ingenieros, McGraw Hill.
. F00892. SOLID STATE
Crystalline structures. X-ray diffraction. Chemical bounds in crystals. Principles
of quantum mechanics. Statistical mechanics. Free electrons. Electrons in periodic
networks. Semiconductors. Textbook: C. Kittel, Introduction to Solid Physics,
J. Wiley.
F00899. ENTREPRENEURIAL CLINIC
To develop in teams (with peers and/or personnel in a company) the systems and
subsystems related to the professional areas of Physics Engineering, such as
the design of electronic instruments of diverse application, optical-system
design, optimal use of energy, software development, communication-system integration,
metrology, theoretical- practical research related to the major. Likewise, the
carrying-out of corrective maintenance, technical support, and training courses
with specific and measurable objectives.
F00961. MODERN PHYSICS I LABORATORY
Purpose of the laboratory. Significant ciphers. Exactness and precision. Systematic errors. Media and standard deflation. Error propagation. Adjustment per minimal squares. Percentage of error and percentage of a difference. Measurement of a length. Measurement of the length of a light wave with diffraction-grid. Hydrogen mirror and Rydberg constant. Medium life measurement with a Geiger tube. Statistics of nuclear counting. Absorption of Beta and Gama rays. Gamma electrometer with mono-channel and multi-channel analyzer. Measurement of the Planck constant. Measurement of the e/m relations in electrons. Diffraction of electrons. Photography. Wave fronts. Laws of reflection and refraction. Formation of images. Irregularities in optical systems. Interferometers of wave front divisions. Interferometer of range division fronts. Diffraction of different openings. Special image filtration. Textbooks: David H. Loyd, Physics Laboratory Manual, Saunders College Publishing. Adrian C. Melissinos, Experiments in Modern Physics, Academic Press. William J. Price, Nuclear Radioactive Detection, McGraw-Hill, Hecht-Zajac, Optica, Addison-Wesley.
CAMPUS: MTY
ACAD. PERIOD: SPRING & FALL
LANGUAGE OF INSTRUCTION: SPANISH
. F00962. LABORATORY OF MODERN PHYSICS II
Crystals growing from liquid solutions. X-ray generation. Intensity
measurement. Diffraction of X-rays by a crystalline material.
Transmission coefficients for visible radiation. Piezoelectric
properties of quartz and its measurement. Geiger counter. Photomultiplier
tube and multichannel analyzer. Gamma, alpha and beta radiation.
Interaction of gamma, alpha and beta radiation with matter. Interaction
of X-rays with matter. Half life. Absorption coefficient. Textbooks:
H. Buckey, Crystal Growth, J. Wiley; B. D. Cullity, Elements of
X-ray Diffraction, Addison-Wesley.