Cv CIVIL ENGINEERING

Cv95811. INTRODUCTION TO ENGINEERING

Prerequisite(s): None

Organization and heads of the institute; regulations and general academic policies. Academic regulations for undergraduate students. Curricular and extracurricular support services. Exchange programs. Career profile and program of studies. Discussion of diverse technical problems that civil engineers encounter. Textbook: Legislación Académica para los Alumnos de las Carreras Profesionales, ITESM. Reglamento general de servicio social, ITESM. Reglamento de becas y financiamientos, ITESM.

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






Cv95831. COMPUTER DRAWING

Prerequisite(s): Cb95821

Introduction to drawing in engineering. Materials and tools for drawing. Character drawing. Graphic geometry. Orthographic projections. Proportion estimation. Sketch lifted-hand sketches, axonometries and perspective. Section and auxiliary views. Dimensions and annotations. Graphic representation and interpretation. Textbook: Warren J. Luzadder, Fundamentos de Dibujo en Ingeniería, Prentice Hall, Décimo primera edición, 1988.

CAMPUS: MTY & TOL.

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95832. TOPOGRAPHY

Prerequisite(s): None

Error theory. Length. Compass. Theodolite. Polygonals. Areas. Tachymetry Leveling. Textbook: Anderson y Mikhail, Introducción a la Topografía, McGraw-Hill, 1989.

CAMPUS: MTY & TOL.

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95841. MECHANICS OF SOLIDS I

Prerequisite(s): (1) M95821, F95811 and Ma95816; (2) Be presently enrolled in or have completed Ma95841.

Analysis of isostatic trusses. Analysis of isostatic framing. Calculus of the geometric properties of transversal sections. Stress, deformations and their relations. Axially loaded members. Analysis of isostatic beams. Beam stress. Beam deflections. Textbook: J.M. Gere and S.P. Timoshenko, Mechanics of Materials, ITP PWS-Kent, 3rd edition, 1990.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95842. MECHANICS OF SOLIDS II

Prerequisite(s): Cv95841

Basic inertia and moments of flat areas. Torsion. Stress and deformation analysis on the plan. Hyperstatic beam analysis. Asymetric flection and center of section. Columns. Textbook: J.M. Gere and S.P. Timoshenko, Mechanics of Materials, ITP PWS-Kent, 3rd edition, 1990.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95843. CONSTRUCTION MATERIALS

Prerequisite(s): None

Introduction. Natural stones. Ceramic products. Plaster. Lime. Portland cement. Aggregate. Portland cement-mortar. Portland concrete cement. Admixture for concrete. Metallic materials. Iron. Non-ferrous materials. Wood. Paintings. Plastics. Glass. Textbook: Smith-Andres, Materials of Construction, McGraw-Hill, 4th edition, 1989.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95844. MATERIAL RESISTANCE

Prerequisite(s): None

Rigid bodies. Equivalent forces system. Balancing of rigid bodies. Centroids and centers of gravity of moment of inertia. Internal force and stress. Elasticity and deformation. Types of loads in beams. Section diagrams and beam moment. Deflection stress and section in beams. Beam deflections. Textbook: J.M. Gere and S.P. Timoshenko, Mecánica Vectorial para Ingenieros: estática, Grupo Editorial Iberoamérica, tercera edición.

CAMPUS: MTY, QRO & SON

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95845. NUMERICAL METHODS IN CIVIL ENGINEERING

Prerequisite(s): Cb95821

Introduction to computer methods. Flow charts. Programming fundamentals. Iterations and transferences. Common mathematical functions. Data input/output. DO instruction. Arranges and matrix. Subprograms. Computer accuracy. Introduction to numerical methods. Roots of equation. Systems of algebraic equations of a straight line. Curve adjustments. Numerical integration. Ordinary differential equations. Textbook: Introducción al Fortran 77 y la PC.RH, Hammond/W.B. Rogers/J.B. Crittendern, McGraw-Hill, primera edición, 1989. Steven C. Chapra and Raymond P. Canale, Numerical Methods for Engineers, McGraw-Hill, 2nd edition, 1988.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95851. STRUCTURAL ANALYSIS

Prerequisite(s): Be presently enrolled in Cv95842 or have completed Cv95845.

Principles and basic concepts. Elastic deformation of structures. Force methods for analyzing structures. Influence lines. Displacement methods for analyzing structures. Introduction to matrix methods for analyzing structures. Textbook: Louis C. Tartaglione, Structural Analysis, McGraw-Hill, 1991.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95852. REINFORCED CONCRETE

Prerequisite(s): Cv95844

General characteristics of concrete, steel and reinforced concrete. Loads and specifications (AC-318 regulation). Deflection in reinforced concrete elements. Sections in reinforced concrete elements. Dimensioning criteria. Reinforced concrete short columns. Basic criteria of reinforce detailing. Reinforced concrete slabs in one and two directions. Textbook: González Cuevas, Aspectos Fundamentales del Concreto Reforzado, Limusa.

CAMPUS: MTY, QRO & SON

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95853. GEOTECHNICS

Prerequisite(s): Be presently enrolled in or have completed Cv95842.

Introduction to the mechanics of soils. Physical and geological properties of soil. Geological properties. Soil compaction and stabilization. Soil hydraulics. Theory of consolidation. Textbook: Joseph E. Bowles, Physical and Geotechnical Properties of Soils, McGraw-Hill, 2nd edition, 1984.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95861. ENVIRONMENTAL ENGINEERING I

Prerequisite(s): Cv95845 and Ma95841

Principles of water quality. Reaction kinetics. Particular solutions. Reactor systems. Computer methods. Diffusion. Distributed systems. Control volume approach. Dissolved oxygen models. Eutrophication models. Toxic substance models. Microorganism models. Textbook: Robert V. Thomann and John A. Mueller, Principles of Surface Water Quality and Control, Harper and Row Publishers, New York. 1987.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95862. ENVIRONMENTAL ENGINEERING II

Prerequisite(s): Cv95861 and Tf95855

Regulations regarding water quality. Principles for water system design to make water drinkable and to treat waste water. Selection and design of water pre-treatment units. Unitary operations in physical processes. Unitary operations in biological processes. Unitary operations in physical-chemical processes. Unitary operations in mud treatment. Textbook: Peavy, Rowe, Tchobanouglous, Environmental Engineering, McGraw-Hill.

CAMPUS: MTY

ACAD. PERIOD: FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95863. DESIGN OF REINFORCED CONCRETE ELEMENTS

Prerequisite(s): (1) Cv95842 and Cv95851; (2) Be presently enrolled in or have completed Cv95943.

General characteristics of concrete, steel and reinforced concrete. Loads and specifications (ACI-318 regulations). Deflection in reinforced concrete elements. Sectioning in reinforced concrete elements. Criteria for dimensioning. Reinforced concrete short columns. Basic criteria of reinforcement detailing. Reinforcement of concrete slabs in one and two directions. Textbook: E.G. Nawy, Concreto Reforzado, Un Enfoque Básico, Prentice Hall. Reglamento de las Construcciones de Concreto Reforzado (ACI-318-95), Instituto Mexicano del Cemento y el Concreto A.C. (IMCYC).

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95864. STRUCTURAL ANALYSIS METHODS

Prerequisite(s): Cv95852

Comparison between isostatic and hyperstatic structures. Reinforcing and trussing. Fundamental concepts of the Cross method. Use of the Cross method for continuous beams and 1 or 2 plant-orthogonal frames. Elaboration of section and deflection moment diagrams. Use of software for structural analysis. Textbook: Morris and Wilbur, Análisis Elemental de Estructuras, McGraw-Hill.

CAMPUS: MTY, QRO & SON

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95865. HYDRAULIC ENGINEERING I

Prerequisite(s): Be presently enrolled in Tf95855.

Development of hydraulic resources, demand and water availability. Fluid flow concepts. Principle of energy. Principle of movement amount. Development of the concepts of uniform flow and calculus. Theory and analysis of gradual and specially varied flow. Hydraulic design of flow measurement channels. Textbook: Richard H. French, Hidráulica de Canales Abiertos, McGraw-Hill.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






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Cv95866. HYDRAULIC ENGINEERING II

(3-0-8. Prerequisite(s): Cv95865. 8 IC)

Equivalency: Cv90062

Meteorology. Surface hydrology. Flood transit. Probability applied to water resource planning. Rainwater drainage networks. Morphology of hydrologic basins. Site selection for reservoirs. Types of spillway and storage dams. Control works in reservoir design. Textbook: Ram S. Gupta, Hydrology & Hydraulic Systems, Prentice Hall.





Cv95867. CONSTRUCTION PROJECT SHEDULING

Prerequisite(s): Be presently enrolled in or have completed Cv95943.

Construction plans and specifications. Critical route method. Software for Critical route method. Housing construction. Commercial building construction. Industrial building construction. Textbook: Callahan, Quackenbush and Rowings, Construction Project Scheduling, McGraw-Hill, 1992.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95871. STEEL ELEMENTS DESIGN

Prerequisite(s): Cv95842 and Cv95851

Introduction. Design of axially loaded elements in tension. Design of axially loaded elements in compression. Design of simple screwed and welded connections. Truss designing. Design of isotastic and hyperstatic beams. Design of flection-tension and flecto-compression elements. Textbook: American Institute of Steel Construction, Manual of Steel Construction, Load and Resistance Factor Design, Volumes I and II, 2nd edition, 1993. E.H. Gaylord, C.N. Gaylord and J.E. Stallmeyer, Design of Steel Structures, McGraw-Hill, 3rd edition, 1992.

CAMPUS: MTY

ACAD. PERIOD: FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95872. FOUNDATION ENGINEERING

Prerequisite(s): Cv95853

Introduction to foundation engineering. Load capacity of superficial foundations. Consolidation and settlement per consolidation. Exploration methods. Soil stabilization. Selection of foundation types. Design of superficial foundations. Design of deep foundation. Textbook: Joseph E. Bowles, Foundation Analysis and Design, McGraw-Hill, 1989.

CAMPUS: MTY

ACAD. PERIOD: FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95873. STRUCTURAL PROJECTS

Prerequisite(s): Cv95864

Design of solid and light concrete slabs for houses and low-height buildings. Basic concepts of soil mechanics. Design of foundations based on isolated capitals. Steel structure of industrial naves based on frames and plate covers. Textbook: González Cuevas, Aspectos Fundamentales del Concreto Reforzado, Limusa. Carlos Crespo y., Mecánica de Suelos y Cimentaciones, Limusa.

CAMPUS: MTY, QRO & SON

ACAD. PERIOD: FALL

LANGUAGE OF INSTRUCTION: SPANISH






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Cv95881. ROADS AND COMMUNICATIONS I

(3-0-8. Prerequisite(s): Cv95853 and Cv95953. 8 IC)

Equivalency: none

Classification of roads. Design and geometric project. Asphalt materials. Rocky materials. Content of asphalt materials. Asphalt overlay. Study of elaborate asphalt overlays. Rocky materials in subbases and bases. Stabilizations. Textbook: Carlos Crespo V., Vías de comunicación, Limusa, 2nd ed., 1985.




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Cv95882. ROADS AND COMMUNICATIONS II

(3-0-8. Prerequisite(s): Cv95881. 9 IC)

Equivalency: Cv90059

Rigid pavements. Road rehabilitation. Bridges. Airports. Ports. Machinery and equipment for road construction and maintenance. Textbook: Carlos Crespo V., Vías de comunicación, Limusa, 2nd ed., 1985.





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Cv95883. SOLID WASTE

(3-0-8. Prerequisite(s): Cv95853 and Cv95862. 9 IC)

Equivalency: none

Definition, sources, and environmental legislation. Waste generation. Techniques for collecting, transferring, and transporting waste. Processing techniques. Hazardous waste treatment and destruction. Liquid-waste treatment. Site selection for confinement and final disposal. Design of confinement and final-disposition sites. Equipment, operation and management of confinement sites, Textbook: G. Tchobanouglous, H. Theisen and S. Vigil, Integrated Solid Waste Management, McGraw Hill.





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Cv95884. ORGANIZATION OF CONSTRUCTION WORKS

(3-0-8. Prerequisite(s): Attending or having completed Cv95867. 8 IC)

Equivalency: Cv90096

Forms of work organization. Analysis of direct costs. Analysis of indirect costs. Costs of financing. Safety deposits, incidental expenses, profits, and taxes. Work quantification. Forms of budgeting. Software for budgeting construction works. Work scheduling. Integration of budget and work schedule. Schedules for supplies, labor and equipment. Cash flow. Software packages for scheduling. Textbook: Carlos Suárez Salazar, Costo y tiempo en edificación, Limusa.





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Cv95891. STRUCTURAL DESIGN

(3-0-8. Prerequisite(s): Cv95863 and Cv95871. 8 IC)

Equivalency: none

Details of reinforcement. Biaxial flexion. Square footing design. Rectangular footing design. Punching in footings. Combined footing design (floors). Combined footing design (beams). Design of cantilever load-bearing walls. Design of curtain walls. Design of a reinforced-concrete building. Design of bolted and welded connections. Design of sheet roofing systems. Design of slab-and-joist floor systems. Design of concrete floor systems supported by perimetric steel beams. Design of floor systems made of joist sheet concrete. Brace and wind beam systems. Design of base plates and anchors for axial loads and moments. Design of gusset plate sections. Design of an factory building. Design of a steel building. Textbooks: Reglamento de las construcciones de concreto reforzado, (ACI-318-95), IMCYC; Manual de diseño de obras civiles - diseño por viento - IIE93; E. G. Nawy, Reinforced Concrete - A Fundamental Approach, Prentice Hall; American Institute of Steel Construction, Manual of Steel Construction, Load and Resistance Factor Design, Vols. I and II, 2nd ed., 1993; E. H. Gaylord, C. N. Gaylord and J. E. Stallmeyer, Design of Steel Structures, McGraw Hill, 3rd ed., 1992.





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Cv95892. CONSTRUCTION MANAGEMENT

(3-0-8. Prerequisite(s): Attending or having completed Cv95884. 9 IC)

Equivalency: Cv90065

Financial control at the company level. Elements of accounting for construction companies. Preparation of financial statements. Analysis of a company's financial information. Cost account structure. Data collection and reporting. Equipment cost accounting. Indirect construction costs and fixed overhead costs. Concepts for cost control. Textbook: Daniel W. Halpin, Conceptos financieros y de costos en la industria de la construcción, Limusa, 1991.





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Cv95893. EVALUATION OF CIVIL ENGINEERING PROJECTS

(3-0-8. Prerequisite(s): Attending or having completed Cv95884. 9 IC)

Equivalency: none

The time-related value of money. Comparison of different options. Present-value method. Annual-payment method. Future-value method. Yield rate method. Break-even point. Cost-benefit analysis. Replacement analysis. Project analysis under conditions of inflation. Capital cost. Civil engineering projects: Hydraulics, construction, environmental, transportation and structures. Textbook: Collier and Ledbetter, Engineering Cost Analysis, Harper and Row, 1988.





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Cv95894. WATER SUPPLY

(3-0-8. Prerequisite(s): Tf95855 and Cv95865. 9 IC)

Equivalency: Cv90052

Historic development of water and sewage services. Supply systems. Conduit systems. Water distribution systems. Waste water collection and conduit. Installations inside buildings. Groundwater. Textbook: Thomas M. Walski, Analysis of Water Distribution Systems, 1990.




Cv95932. LABORATORY: TOPOGRAPHY

Prerequisite(s): Be presently enrolled in or have completed Cv95832

Length. Compass. Conventional thedolite. Electronic topographic equipment. Planimetric land surveying. Altimetric land surveying. Horizontal curves. Leveling. Textbook: Carlos Fonseca R., Manual del Laboratorio de Topografía, Departamento de Ingeniería Civil.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95943. LABORATORY: CONSTRUCTION MATERIALS

Prerequisite(s): Be presently enrolled in or have completed Cv95843.

General concepts (specifications, properties, tests). Quality of prefabricated concrete and ceramic products. Properties of agglutinants (cement, plaster and lime). Properties of concrete aggregate. Properties of mortars. Properties of concrete and its additives. Steel and aluminium properties. Properties of wood and wood adimixture. Properties of plastic products. Textbook: Manual De Laboratorio De Materiales De Construcción, ITESM.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95953. LABORATORY: GEOTECHNICS

Prerequisite(s): Be presently enrolled in or have completed Cv95853.

Gathering of altered samples in fields. Determination of the sample material's natural humidity. Determination of the liquid and plastic limitation of a soil sample. Determination of the specific soil gravity. Granulometric analysis of a soil sample. Soil classification methods. Compactation proctor test. Compaction porter test. Determination of the permeability coefficient. Axial test without confine. Test of direct section. Three axial test without the pore pressure. Three axial test with pore pressure measurement. Usage of a seismograph as a means of geophysical exploration. Normal penetration test. Test for saturated clay. Textbook: Manual De Laboratorio De Geotecnia, ITESM.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95961. LABORATORY: ENVIRONMENTAL ENGINEERING

Prerequisite(s): Be presently enrolled in or have completed Cv 95862.

Physical characteristics of water; development of sedimentation and filtration models. Chemical characteristics of water; development of curdling, flocculation, soothing and precipitation. Measuring of organic content: DBO, manometrical DBO and DQO. Measuring of nutrition content. Nitrification models development. Sanitary characteristics: development of desinfection models. Monitoring atmospheric particles. Monitoring atmospheric gases. Techniques for identifying and measuring inorganic toxins. Textbook: Manual De Prácticas, Laboratorio De Ingeniería Ambiental, ITESM.

CAMPUS: MTY

ACAD. PERIOD: FALL

LANGUAGE OF INSTRUCTION: SPANISH






Cv95962. LABORATORY: STRUCTURES

Prerequisite(s): Be presently enrolled in Cv95842 or have completed Cv95851 and are currently taking or have already

taken Cv95943.

Basic equipment use: load cells, deformation meters, extensometric props. Forces produced by wind and earthquakes. Principle superposition. Truss stability. Elastic linear beam theory. Plasticity of elements in deflection. Deformations due to flection and beam sections. Maxwell and Betti theorem of reciprocal deflections. Influence line. Momentum distribution. Torsion of closed and open sections. Column bulging. Principle of similitude. Final project. Textbook: Manual De Laboratorio De Estructuras.

CAMPUS: MTY

ACAD. PERIOD: SPRING & FALL

LANGUAGE OF INSTRUCTION: SPANISH