Pre-requisites 2012-2013



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Pre-requisites 2012-2013 Engineering Computation The student should be familiar with basic tools in Mathematics and Physics as learned at the High School level and in the first year of Engineering Schools. with linear vector spaces, matrix notation, linear equations, analytic geometry. with functions of one and several variables, differentiation and integration, basic concepts on and elementary numerical methods. Some computer programming experience in Matlab or similar environments. Strength of Materials Mathematics: differential and integral calculus (Mechanics): vector analysis, rigid body statics, center of mass and gravity. Moments of inertia. Introduction to Geotechnical Engineering differential and integral calculus, and, that are taught to students in the first years of engineering schools. Geology (desirable) Basic continuum mechanics: concepts of stress and strain Basic fluid mechanics: concepts of fluid pressure, hydraulic head. 1/5

Fluid Mechanics calculus,, statistical concepts that are taught to students in the first years of engineering schools. Principles of kinematics - velocity and acceleration in absolute and relative frames Principles of dynamics - Newton's Laws of Motion, torque and angular acceleration, 1st Law of Thermodynamics Coastal Engineering The student should be familiar with basic mathematical concepts on differential equations and should have a sound mathematical background on statistics and fluid mechanics. Statistics Fluid Mechanics Basic integral and differential calculus, ordinary Principles of kinematics - velocity and acceleration in absolute and relative frames Probability density functions, Cumulative distribution function, Return period Navier-Stokes equations 2/5

Structural Analysis A course on Strength of Materials must be required. Geotechnical Engineering: Foundations, excavations and tunnels differential and integral calculus, and, that are taught to students in the first years of engineering schools. Geology (desirable) Basic continuum mechanics: concepts of stress and strain Basic fluid mechanics: concepts of fluid pressure, hydraulic head. Mechanical Properties of Materials The student should be familiar with elementary mathematical tools: differential and integral calculus,, matrix notation. A fundamental course of Physics / Mechanics will be required: The student must have basic understanding of fundamental concepts of the following topics: Integral and differential calculus, vector notation and operation, ordinary. Notions of structural analysis: equilibrium, compatibility, elastic behaviour (Hooke s Law). 3/5

Uncertainty Analysis Engineering The student should primarily be familiar with first-year calculus. Knowledge of firstyear algebra, geometry and computing and a little of multivariate calculus is also useful. Hydrology The student should be familiar with basic tools in Statistics, Physics Hydrogeology and differential and integral calculus. Construction of Civil Infrastructure The students have to command the competences needed to face the 2 nd semester of 2 nd year of the Degree in Civil Engineering of the ETSICCP at Santander. The student should be familiar with basic civil engineering concepts that will be developed during the course: types of civil infrastructures, machinery used in civil engineering, construction procedures and management systems in construction engineering. Energy Systems calculus and concepts that are taught to students in the first years of engineering schools.... The student must have basic understanding of the. Electromagnetism. 4/5

Environmental Engineering The student should have a basic knowledge of mathematics, physics and chemistry at the level of the first years of engineering schools. Basic courses on the following topics will be required: and geometry The student must understand and use the Basic geometry (calculation of volume, area, perimeter), ordinary differential equations, basic differential and integral calculus Newton s laws of motion Law of conservation of mass Bernoulli s principle Heat Transfer calculus, concepts that are taught to students in the first years of engineering schools. Thermodynamics.. Principles of Thermodynamics and mechanisms of heat transfer 5/5

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