Checking date: 25/06/2019


Course: 2019/2020

Calculus II
(13321)
Study: Bachelor in Sound and Image Engineering (214)


Coordinating teacher: SOLER GALAN, EUGENIO

Department assigned to the subject: Department of Mathematics

Type: Basic Core
ECTS Credits: 6.0 ECTS

Course:
Semester:

Branch of knowledge: Engineering and Architecture



Students are expected to have completed
Calculus I
Competences and skills that will be acquired and learning results. Further information on this link
The student will be able to formulate, solve and understand mathematically the problems arising in engineering. To do so it is necessary, in this second course of Calculus, to be familiar with the n-dimensional euclidean space, in particular in dimension 3, and with its more usual subsets. He/she must be able to manage (scalar and vectorial) several variables functions and its continuity, differentiability and integrability properties. The student must solve optimization problems with and without restrictions and will apply the main integration theorems to compute areas and volumes, inertial moments and heat flow. (PO: a)
Description of contents: programme
1- Differential calculus in several variables a Functions of several variables. Limits and continuity b Derivatives. Differentiability c Differential operators d Chain rule. Directional derivatives 2- Local study of functiopns of several variables a Higher order derivatives b Extrema c Conditional optimization 3- Integration of functions of several variables a Iterated integration b Change of variables in the integral c Aplications 4- Trajectory integrals. Surface integrals. a Integrals along curves. Conservative vector fields b Integrales on surfaces c Computation of areas and volumes d Vectorial integral Theorems: Green, Stokes and Gauss (PO: a)
Learning activities and methodology
The docent methodology will include: - Master classes, where the knowledge that the students must acquire will be presented. To make easier the development of the class, the students will have written notes and also will have the basic texts of reference that will facilitate their subsequent work. - Resolution of exercises by the student that will serve as self-evaluation and to acquire the necessary skills. - Problem classes, in which problems proposed to the students are discussed and developed. - Partial controls. - Final control. - Tutorials. (PO: a)
Assessment System
  • % end-of-term-examination 60
  • % of continuous assessment (assigments, laboratory, practicals...) 40
Basic Bibliography
  • MARSDEN, Jerrold E. y TROMBA, Anthony. CALCULO VECTORIAL 6ª Edición. Pearson Universidad. 2018
  • SALAS, HILLE, ETGEN. CALCULUS, VOLUMEN II. REVERTE.
  • SPIEGEL. MATEMATICAS AVANZADAS PARA INGENIERIA Y CIENCIAS. MC GRAW HILL (SERIE SCHAUM).
  • UÑA, SAN MARTIN, TOMEO. PROBLEMAS RESUELTOS DE CALCULO EN VARIAS VARIABLES. THOMSON.
Additional Bibliography
  • APOSTOL. CALCULUS. REVERTE.
  • BRADLEY, SMITH. CALCULO DE VARIAS VARIABLES (VOLUMEN 2). PRENTICE HALL.
  • BURGOS. CALCULO INFINITESIMAL DE VARIAS VARIABLES. MC GRAW HILL.
  • LARSON, HOSTETLER, HEYD. CALCULO II. PIRAMIDE.
  • LIASHKO, BOIARCHUK, GAI, GOLOVACH. ANTI-DEMIDOVICH (VOLUMENES 3 Y 4). URSS.
  • STEWART,. CALCULO: CONCEPTOS Y CONTEXTOS. THOMSON.
  • WREDE, SPIEGEL. CALCULO AVANZADO. MC GRAW HILL (SEIRE SCHAUM).

The course syllabus and the academic weekly planning may change due academic events or other reasons.