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Motivation
There is no undergraduate course in nuclear
engineering in São Paulo
Future development in nuclear area is important for
Brazilian energy matrix
Groups working at nuclear problems with CTM and
IPEN
Experience at USP� IPEN runs a graduate course in nuclear science
� CTM develops several activities in nuclear science
� EPUSP runs several undergraduate engineering courses
� EPUSP several graduate engineering courses with good evaluation
Cooperation network
� Undergraduate courses: EPUSP
� Graduate courses: IPEN
� Research support: CTM
� EPUSP Departments: PMT; PQI; PMC; PEA; PEF;
PTC; PNV
Curricular structure� 10 semesters
� Following the regular model of EPUSP
� 60 students a year
� Mandatory Final work
� Three different majors
Estrutura GeralFigura - Esquema de flexibilização das habilitações / cursos a ser atendido nos processos de revisão das estruturas curriculares dos cursos da EP
Disciplinas do semestre
1 2 3 4 5 6 7
1 sem 28
2 sem 28
3 sem 28
4 sem 28
5 sem 28
6 sem 28
7 sem 28
8 sem 24
9 sem TF 20
10 sem TF 20
260
480 12% Módulo na habilitação (total ou parcialmente) ou em outra habilitação, ou Formação em pesquisa (inclui TF)
540 14% Optativas livres
840 22% Engenharia e Ciência da engenharia 48%
1020 26% Habilitação 48%
1020 26% Formação básica 74%
3900 100%
160 Estágio
4060 Total
Os números da figura são indicativos e servem de orientação para as coordenações de habilitações / ênfases.
As CoCs podem realizar ajustes em função de necessidades específicas de cada habilitação / curso ou do ciclo básico.
1st and 2nd term� Integral and differential calculus
� Computation and numerical calculus
� Linear Algebra
� Physics
� Classical Mechanics
� Material Science
� General Chemistry
� Projective Geometry
3rd term� Integral and differential calculus
� Physics
� Material Science
� Computational Engineering
� Strength of Materials
� Energy and Environment
� Notion of Laws
4th term� Integral and differential calculus
� Physics
� Complex calculus
� Strength of Materials
� Signals and circuits
� Electronics
� Modeling and simulation
5th term� Structure of matter
� Electromechanics energy conversion
� Thermodynamics
� Signals and circuits
� Stochastic processes
� Mass and heat transfer
� Electricity laboratory
6th term� Reliability engineering
� Structures engineering
� Electronics Lab.
� Mass and heat transfer
� Mass and heat transfer – Lab.
� Thermal machines
� Quantum Mechanics
7th term� Applied nuclear physics
� Materials for nuclear applications
� Neutronics and reactor design
� Modeling thermo-hydraulic systems
� Fusion and plasmas
� Computational Fluid Mechanics
� Radiation Physics
9th term� Process Control – Lab.
� Nuclear Plant Engineering
� Nuclear Systems design
� Environmental Science
� Mannaging and Administration
8th term� Radiation Biophysics
� Applied nuclear physics
� Nuclear plant engineering
� Process control engineering
� Computational Fluid Mechanics
� Sustainable Energy
� Nuclear Physics – Lab.
10th term� Nuclear systems design
� Logistic and production administration