Federal Institute of São Paulo

Agronomy

The Agronomist or Agronomist acts, in general, in the sustainable management of natural resources, aiming at agricultural production. In its activity, it develops projects for the production, transformation, conservation and commercialization of agricultural products; organizes and manages the rural space; promotes the conservation of soil, water and air quality. Controls the health and quality of agricultural products; develops new product varieties; optimizes productive technologies and works with sectoral policies. Coordinates and supervises work teams; carries out scientific and technological research and studies of technical and economic feasibility; executes and supervises works and technical services; carries out surveys, forensics and evaluations, issuing reports and opinions. In its performance, it considers ethics, safety and socio-environmental impacts.

Where to study:

• Barretos.

Architecture and urbanism

The egressed professional is able to act according to the attributions contained in Law No. 12.378 / 10 and in Resolution No. 51/13 of the Council of Architecture and Urbanism, defined by the conception, planning and execution of architectural and urban projects for buildings and interiors; landscaping; monuments and heritage; local, urban and regional territorial planning; and in the study of technology and environmental comfort of buildings and the environment. In the activity, he elaborates a technical and environmental feasibility study, planning, design, specification and budget; issues inspection, expertise, evaluation, report and technical opinion; performs training, teaching and university research; responds for testing, standardization and quality control; acts in the performance of position and technical function, in the direction, advisory and consultancy of work and technical service; coordinates, manages and provides technical guidance for work teams and monitors the execution, inspection and management of works and technical services.

Where to study:

•  São Paulo.

Computer science

The professional who graduated from the Computer Science Bachelor course will be able to understand the essential facts, concepts, principles and theories related to Computer Science for the development of software and hardware and their applications; to recognize the importance of computational thinking in everyday life and its application in appropriate circumstances and in different domains; to identify and manage the risks that may be involved in the operation of computing equipment, including aspects of dependability and security; to identify and analyze requirements and specifications for specific problems and plan strategies for their solutions, to specify, design, implement, maintain and evaluate computer systems, using appropriate theories, practices and tools; to design computational solutions based on decisions aimed at balancing all factors involved; to employ methodologies that aim to guarantee quality criteria throughout all stages of the development of a computational solution; to analyze how much a computer-based system meets the criteria defined for its current and future use (suitability); to manage computer systems development projects; to apply recurring themes and principles, such as abstraction, complexity, caching principle, resource sharing, security, competition, systems evolution, among others, and to recognize that these themes and principles are fundamental to the Science area. Computing; to choose and apply good practices and techniques that lead to rigorous reasoning in the planning, execution and monitoring, in the measurement and general management of the quality of computer systems; to apply the principles of management, organization and information retrieval of various types, including text, image, sound and video; to apply the principles of human-computer interaction to evaluate and build a wide variety of products including user interface, web pages, multimedia systems and mobile systems.

Where to study:

• Presidente Epitácio

Food Engineering

The Bachelor of Food Engineering works in the development of products and processes in the food and beverage industry, on an industrial scale, from the selection of raw materials, inputs and packaging to distribution and storage. Designs, supervises, prepares and coordinates industrial processes; identifies, formulates and solves problems related to the food industry, following the process of maintenance and operation of systems. Operates in the control and quality assurance of products and processes. It develops clean technologies and processes for the use of residues from the food industry. Seeks the development of healthy products, with sensory characteristics that serve the consumer. Coordinates and supervises work teams, conducts technical-economic feasibility studies, executes and supervises works and technical services and conducts surveys, surveys and assessments, issuing technical reports and opinions. In its performance, it considers ethics, safety and socio-environmental impacts.

Where to study:

• Matão.

Biosystem Engineering

The Biosystems Engineer applies the principles of Mathematics, Physics, Engineering and Biology to understand, model and optimize biological systems, such as food, agricultural and energy production systems, assessing their environmental impacts. It may act in the supervision of the production, processing and storage of food and fibers, in the generation of energy from sustainable alternative sources and in the application of precision technologies in agricultural systems, applying the technologies of automation, information and production support to generate solutions to problems of resilience and sustainability in agricultural production, even in situations of economic and climatic change.

Where to study:

• Avaré.

Computer engineering

The Bachelor of Computer Engineering works in the area of ​​computer systems, their respective equipment, programs and interrelations. In its activity, it optimizes, plans, designs, specifies, adapts, installs, maintains and operates computer systems. It integrates physical and logical resources necessary for the development of computer systems, equipment and devices, such as computers, peripherals, network equipment, cellular telephony, embedded systems and microprocessed and microcontrolled electronic equipment. Coordinates and supervises work teams; carries out scientific and technological research and studies of technical and economic feasibility; executes and supervises works and technical services; carries out surveys, forensics and evaluations, issuing reports and opinions. In its performance, it considers ethics, safety and socio-environmental impacts.

Where to study:

• Birigui,
• Piracicaba.

civil Engineering

 The Civil Engineer is the professional who aims at welfare, environmental protection and the development of society, through his scientific, technological and administrative performance in the industrial and service sectors. In his training, he develops skills and abilities related to teamwork, self-learning, communication, negotiation, decision making, problem solving, critical thinking, organization, leadership, planning, professional ethics and responsibility, administrative, economic, business management, projects and analysis of environmental and social impact. The macro areas of performance of the Civil Engineer are: civil construction, structures, transport, hydraulics and environmental sanitation. The course trains professionals to design, manage and monitor all stages of a construction or renovation of works of private initiative or public activity, such as residential, commercial and industrial buildings, as well as infrastructure projects such as bridges, viaducts, tunnels, highways, railways, dams, canals, ports and environmental sanitation.

Where to study:

•  São Paulo,
• Votuporanga.
• Caraguatatuba.

Control and Automation Engineering

The Control and Automation Engineer is a professional in the industry and service sector who develops skills and abilities related to teamwork, self-learning, communication, negotiation, decision making, problem solving, critical thinking, organization, leadership, planning; professional ethics and responsibility; administrative, economic, business management; projects and analysis of environmental and social impact. It comprises engineering associated with mechanical, electro-electronic and physical-chemical processes. It covers actions for installation, operation, maintenance, control and optimization in processes, continuous or discrete, located predominantly in the industrial segment, however also reaching research institutions, the environmental and service segments in its field of activity.

Where to study:

• Bragança Paulista
• Catanduva.
• Cubatao
• Guarulhos, 
• Sao Joao da Boa Vista,
• São José dos Campos
• São Paulo, 

Electrical engineering

Renewable Energy Engineering

The Renewable Energy Engineer works in the development and integration of processes, systems, equipment and devices for the use of renewable energy sources. In its activity, it optimizes, designs, installs, maintains and operates renewable energy systems in the productive and infrastructure sectors, in the activation of machines, in the generation and distribution of electricity from different sources, such as hydroelectric, wind, solar and energy. biofuels. It integrates natural, physical and logical resources, specifying and applying materials, components, devices and equipment used in industry, commerce and the field. Coordinates and supervises work teams; carries out scientific and technological research and studies of technical and economic feasibility; executes and supervises works and technical services; carries out surveys, forensics and evaluations, issuing reports and opinions. In its performance, it considers ethics, safety and socio-environmental impacts.

Where to study:

• Matão.

Electronic Engineering

Where to study:

Mechanical Engineering

He is a professional with general training, who works in studies and projects of mechanical and thermal systems, of structures and elements of machines, from their conception, analysis and selection of materials, to their manufacture, control and maintenance, according to the norms previously established techniques, and can also participate in the coordination, inspection and execution of mechanical, thermodynamic and electromechanical installations. In addition, it coordinates and / or integrates working groups to solve engineering problems, encompassing technical, economic, political, social, ethical, environmental and safety aspects. Coordinates and supervises work teams, conducts technical-economic feasibility studies, executes and supervises works and technical services and conducts surveys, surveys and assessments, issuing technical reports and opinions. In its activities, it considers aspects related to ethics, safety, security and environmental impacts.

Where to study:

• Araraquara,
• Itapetininga,
• Piracicaba,
• São José dos Campos,
• Sertaozinho.

production engineering

Professional Profile:

He is a professional in the area of ​​industry and services who integrates the knowledge of Mechanical Engineering with the areas of administration, finance, economics, strategic planning and management. It operates in the production systems and processes of industrial companies manufacturing and providing services, carrying out activities that provide increased productivity, competitiveness and sustained development, through appropriate methods of planning, management of the environment, development of strategies and strategies. productive activities.


Where to study:

• São Paulo,
• Pirituba,
• Registry.