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Apllied Mathematics

Code: LACI21011     Sigla: MA

Áreas Científicas
Classificação Área Científica
OFICIAL Matemática

Ocorrência: 2021/2022 - 1S

Ativa? Yes
Página Web: https://moodle.ips.pt/2122/course/view.php?id=1855
Unidade Responsável: Departamento de Matemática
Curso/CE Responsável:

Ciclos de Estudo/Cursos

Sigla Nº de Estudantes Plano de Estudos Anos Curriculares Créditos UCN Créditos ECTS Horas de Contacto Horas Totais
EACI 84 Plano de Estudos 14 2 - 6 60 162

Docência - Responsabilidades

Docente Responsabilidade
Ana Isabel Celestino de Matos

Docência - Horas

Theorethical and Practical : 4,00
Type Docente Turmas Horas
Theorethical and Practical Totais 3 12,00
Ana Isabel Celestino de Matos 12,00

Língua de trabalho

Portuguese

Objetivos

The objective of Matemática Aplicada is to learn key areas of mathematics that are necessary for understanding, modeling, predicting, identify and solve problems of general engineering and mechanical engineering in particular, providing powerful tools for a less elementary approach on the curricular units in engineering courses.

Resultados de aprendizagem e competências

In each topic, students must acquire the following skills.

1. Multiple integrals
Identify and geometrically represent the integration region.
Recognize the most effective integration order.
When necessary, make the most appropriate change of variable.
Calculate areas, volumes, masses, centers of mass and moments of inertia using multiple integrals.

2. Ordinary Differential Equations (ODE)
Recognize and solve the following five types of 1st order ODE: separable variable ODE; homogeneous ODE; linear ODE; Bernoulli EDO and exact ODE.
Identify the characteristic polynomial of an nth order linear ODE with constant coefficients and determine and classify the roots of this polynomial.
Determine the general solution of an nth order homogeneous linear ODE with constant coefficients.
Determine the general solution of an nth order linear ODE with constant coefficients, not homogeneous, in certain specific cases.

3. Laplace transforms
Calculate the Laplace transform of a function using the definition.
Determine, using the properties, direct and inverse Laplace transforms. Solve linear equations with constant coefficients with Laplace transforms.

4. Series
4.1. Numerical Series

Identify geometric, arithmetic and telescopic series, study their nature and calculate the sum when convergent.
Identify a series of non-negative terms and apply the most appropriate of the following tests to determine their nature: Integral Test; 1st and 2nd Comparison Tests; Reason Test; nth root Test.
Identify alternating series and study their nature (simple/absolute convergence or divergence).

4.2. Power Series
Determine the convergence range of a power series.
Represent functions in power series of (x-a), when necessary using the Derivation and Primitive Power Series Theorems.

5. Fourier series
Determine the Fourier coefficients and the Fourier series of a periodic function.
Geometrically interpret periodic functions, even/odd periodic functions and perform even/odd periodic extensions.

Modo de trabalho

Presencial

Pré-requisitos (conhecimentos prévios) e co-requisitos (conhecimentos simultâneos)

Knowledge acquired in the curricular units (UC) Mathematics I and Mathematics II of the current curricular plan. (Elements of Mathematics I and Elements of Mathematics II of the CTeSP are equivalent to Mathematics I) or in the UC Mathematical Analysis I, Analysis Mathematics II and Linear Algebra and Analytical Geometry from the previous curricular plan.

Programa

1. Multiple integrals
Double and triple integrals: definition, properties and applications. Change of variables in double and triple integrals.

2. Ordinary Differential Equations (ODE)
Definitions and examples. First order ODE: solving methods and techniques for separable variables equations; homogeneous equations; linear equations; Bernoulli equations and exact equations. Nth order linear equations with constant coefficients: properties and solving methods.

3. Laplace transforms
Laplace transform and inverse Laplace transform: definitions and properties. Solving linear equations with constant coefficients with Laplace transforms.

4. Series
4.1.Numerical series
Convergent series, properties and convergence tests. Absolute convergence.
4.2. Power series
Domain of convergence, differentiation and integration of power series. Taylor series. Representation of functions in power series.

5. Fourier series
Fourier series of a periodic function. Computation of the Fourier coefficients. Fourier series of some usual functions. Properties of Fourier series. Convergence of Fourier series.

Bibliografia Obrigatória

Apontamentos e exercícios elaborados por docentes do DMAT; disponíveis na página Moodle da UC

Bibliografia Complementar

Azenha & M. A. Jerónimo; Elementos de cálculo diferencial e integral em IR e IRn, McGraw Hill, 2006
E. Kreyszig; Advanced Engineering Mathematics, John Wiley & Sons, 2011 (Advised for students who do not read Portuguese)
James Stewart; Calculus , Brooks/Cole, 1999 (Advised for students who do not read Portuguese)
M. A. Ferreira; Integrais Múltiplos Equações Diferenciais - Exercícios, 1ª edição, Edições Sílabo, 1995
M. O. Baptista, M. A. Silva; Equações Diferenciais e Séries - Exercícios, 1ª edição, Edições Sílabo, 1994
B. Demidovich; Problemas e Exercícios de Análise Matemática, McGraw-Hill, 1993
N. Piskounov; Cálculo diferencial e integral, Vol. I e Vol. 2, Edições Lopes da Silva, 1977
T. M. Apostol; Cálculo Vol. I e Vol. II, Reverté, 1993
J. Campos Ferreira; Introdução à Análise Matemática, 4ª edição, Fundação Calouste Gulbenkian, 1991
E. W. Swokowski; Cálculo com Geometria Analítica, Vol. 2, Makron Books, 1994
João P. Santos; Cálculo numa variável real, IST press, 2016
Pedro M. Girão; Introdução à análise complexa, séries de Fourier e equações diferenciais, IST press, 2014
Gabriel E. Pires; Cálculo diferencial e integral em IR^n, 2ª edição, IST press, 2014
Vasco Simões; Análise Matemática 2, Edições Orion, 2011

Observações Bibliográficas

All books in english listed in the Complementary Bibliography are available at the ESTSetúbal Library.

Métodos de ensino e atividades de aprendizagem

Matemática Aplicada (Applied Mathematics) has a teaching load of 4h/week of theoretical-practical classes, in which the fundamental concepts are presented, proved some results and solved exercises that illustrate each topic.

In these classes students should acquire an overview of the themes and their interconnections, learn the correct and objective formulation of mathematical definitions, the precise enunciation of propositions and practice the deductive reasoning, as well as learn some applications to engineering of the various notions presented.

The consolidation of knowledge by students will be based on reading the materials provided and autonomous resolution of exercises, using the study material recommended, the bibliography and the support of the teachers in their office hours.

All the information and specific materials of Matemática Aplicada will be available on its page in the Moodle platform.

Observation:
- daytime classes will be on-site;
- the class in after-work hours will be remotely, on the Microsoft Teams platform, in the Applied Mathematics team 2021/2022, in the specific channel of the class.

Tipo de avaliação

Evaluation with final exam

Componentes de Avaliação

Designation Peso (%)
Exame 100,00
Total: 100,00

Componentes de Ocupação

Designation Tempo (Horas)
Estudo autónomo 102,00
Frequência das aulas 60,00
Total: 162,00

Obtenção de frequência

A student can obtain approval by continuous assessment and, should he fail, by exam assessment. The student can also choose to do only the exam assessment.

All assessments will be in person, except if the Government, the IPS President or the Director of ESTSetúbal decide otherwise (due to the pandemic). In such case, the assessments will be remote and the evaluation rules and procedures will be updated and published on the Moodle page.

Continuous assessment
The continuous assessment is based on two tests.
Let NT1 and NT2 be the grades of the tests (rounded to tenths).
The final grade, CF, will be calculated by the formula  CF=0.5xNT1+0.5xNT2.
Assuming that the tests are carried out in person, the conditions of approval are the the following:
   - if CF is greater than or equal to 10 and less than 17, the student is approved with a final grade equal to CF, provided that both test grades are greater than or equal to 7.0;
   - if CF is greater than or equal to 17, the student must do an oral test. The final grade will be the average of these two grades. If the student does not attend the oral test, the final grade will be 16 values.

Retrieving a test
In order to meet the approval conditions (final average greater than or equal to 10 and classification in both tests greater than or equal to 7.0 points), a student may recover one and only one of the tests, on the same day and time of the first date of exam.
A student may recover a test even if he has not taken it or has dropped out.
It will not be possible to recover a test with a view to improving the grade.
To recover the test, the student will have to register, according to the terms and deadlines that will be indicated in due time.

Exam Assessment
Students who choose not to carry out the continuous assessment or fail do obtain approval on it may attend the regular exams.
Assuming that the exam is carried out in person, let E be the grade obtained in the exam (rounded to the units):
   - if E is greater than or equal to 10 and less than 17, the student is approved with final grade E;
   - if E is greater than or equal to 17, the student must do an oral test. The final grade will be the average of these two grades. If the student does not attend the oral test, the final grade will be 16 values.

Comment
The tests have a duration of two hours and the exams of two and a half hours.

Fórmula de cálculo da classificação final

Continuous assessment
Let NT1 and NT2 be the grades of the tests (rounded to tenths) and CF=0.5xNT1+0.5xNT2 (rounded to units).

Assuming that the tests are carried out in person:
   - if CF is greater than or equal to 10 and less than 17, the student is approved with a final grade equal to CF, provided that both test grades are greater than or equal to 7.0;
   - if CF is greater than or equal to 17, the student must do an oral test. The final grade will be the average of these two grades. If the student does not attend the oral test, the final grade will be 16 values.


Exam Assessment
Assuming that the exam is carried out in person, let E be the grade obtained in the exam (rounded to the units):
   - if E is greater than or equal to 10 and less than 17, the student is approved with final grade E;
   - if E is greater than or equal to 17, the student must do an oral test. The final grade will be the average of these two grades. If the student does not attend the oral test, the final grade will be 16 values.

Provas e trabalhos especiais

 

Avaliação especial (TE, DA, ...)

Students covered by Article 271 of the IPS Student Performance Assessment Guidelines contact the teacher responsible, by email to ana.matos@estsetubal.ips.pt, until the second week of the semester, to present their relevant specificities.

Melhoria de classificação

According to Article 11 of the IPS Student Performance Assessment Guidelines.

Observações

1. Assessment rules (tests and exams)
Enrolment for tests/exams is required up to one week before the date of the test/exam, on the Moodle page.

It is mandatory to present an official identification document on tests and exams.

In tests or exams the student can only leave the room one hour after the start and itimplies the final delivery of the test/exam.

The only consult forms allowed on tests and exams are the ones provided by the teachers (copies are available in the Moodle page).

The use of calculators in tests or exams is not allowed.

The handling or displaying of mobile phones or any other means of remote communication during testes ou exames is not allowed.

The tests and exames are individual, so any type of communication with third parties is strictly prohibited, with the exception of the teacher who will be monitoring the tests.

2. The rules for remote assessments, if necessary, will be published in due time on the Moodle page.

3. In case of fraud suspicion or other circumstance that leads to the need to confirm the knowledge evidenced in the resolution of a test or exam, the student may be called to a session, in person, which will focus only on that knowledge. If the student does not attend this session, without due justification, the test or exam will be considered invalid.

4. According to the IPS rules, whenever there is a situation of proven fraud in assessments, carried out in person or remote, it will be canceled and the student will be subject to the application of the IPS Disciplinary Regulation for Students.

5. The office hours of the teachers will take place on the TEAMS platform and its schedule will be available on the Moodle page. The student may request face-to-face support, which is subject to prior appointment by email and the teacher confirmation of its viability.

6. Communication with students is carried out exclusively through the institutional e-mail. It is up to the student to periodically consult his e-mail account in the IPS domain and use it to communicate with the teachers and IPS services.
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