IMPORTANT ENGINEERIG DEVELOPING NATIONS

BE CONSIDERED IMPORTANT ENGINEERING DEVELOPING NATIONS;

because connects the participation of the engineers, since the first antropoide I use a trunk shot down as a bridge for joining the edges of a Creek, already sight the central idea of engineering, which is to use resources on benefits of all, it is true that engineering advances have also been at times of war, but it is also true that, as a result they have developed a series of scientific and technological advances to the humanity, and today are palpable when playing some keys and have communication with anyone anywhere in the world, as well as the heart, rivers, bridge than the sea treatments transplant gigantic skyscrapers, and stop counting.
As to the relationship that saves a branch of engineering with another for asil taken hands to rely a science with another for humanity.

PUBLISHED BY LARRY FERNANDEZ.

publicar sus investigaciones generales

Branches of engineering.

Engineering hydrometeors logic:

Software Engineer hydrometeors investigates the hydrological cycle on land and air phases, having as goal the knowledge of "time" to put the service of man, either spontaneously or in modifying it. Study the behavior of the atmosphere reflected in the dynamics of the parameters of atmospheric pressure, air temperature or different levels, humidity, wind system, the air masses and weather influences, the water vapor content in the atmosphere and its processes of condensation and subsequent precipitation behavior, the river stage because of the amount, frequency, duration and intensity of rainfall, the gradual depletion of water supplies to prevent flooding and make better use of flow rivers for the benefit of man.

Telecommunications Engineering:

The mention in Electronic Engineering or Telecommunication Engineering Telecommunications Telecommunications or knows the information technology and telecommunications. It supports the design, maintenance and management of telecommunications systems and service, new technologies and wireless broadband.

Networks and Communications Engineering:

The Networks and Communications Engineering is a professional with the ability to design, implement and manage communication and data networks (LAN / WAN), distributed systems, voice and data communications and wireless communications. Design Communication Networks framed within strict parameters of safety, reliability and efficiency, with maximum use of resources and technologies.

Computer Electronics Engineering:

Computer Electronic Engineer is responsible for studying electromagnetic phenomena of materials for application in the design, manufacture, testing, operation and repair of devices and systems as a means to improve process and shall forward the information. Performs tasks similar to electrical engineer, but specializes in telecommunications, digital electronics, computers, radars, bioelectronics, industrial controls and acoustics.

Naval Engineering:

The Naval Architect is responsible for the design, planning, design and construction of any floating material. Marine Engineering covers the engineering functions, including the creative and floating vessel, applied research, technical development in the fields of design and construction and management of the production sites of floating material.

Maritime Engineering:

The Marine Engineer is a professional capable of serving as an officer on board merchant ships in the fields of operations (navigation) and installations (mechanical), under the international standards required by the International Maritime Organization. Its activities are related to the legal framework governing navigation, maritime, marine maintenance, development and project planning, operational management in the sector and international maritime trade.

Engineering Maintenance Works:

Maintenance Engineer Works is the professional to plan, schedule, manage and evaluate conservation efforts of all parties that make up civil works and electromechanical equipment that are in them, the good aspects of goods and safety of operators and users of the facilities in their charge.

Engineering Geology:

The Engineering Geology studies the composition and structure of the crust, analyzing rocks, minerals and fossils of plants and animals in order to identify the geological processes of the earth determines the evolution of life in the past and sets the nature and timing of geological formations. Furthermore, studies the behavior of the interior of the earth through indirect methods (Volcanology, Seismology), to determine the causes of the configuration of the earth's crust while studying the surface of the earth, nature and effects forces which modify it, such as erosion, glaciation and sedimentation.

Engineering Materials:

The Materials Engineer is responsible for obtaining and transform materials into products useful to man. Studied the atomic structure of materials and their relationship to physical and chemical properties. Create processes and machinery designed taking into account the material properties and the ability to manufacture more economical. Analyzes and specifies the mechanisms to control the properties of materials. There are several specialties within the profession: Metallurgy, Polymers, Metallurgical and Ceramic.

Petroleum Engineering:

Petroleum Engineer prepares, organizes and controls the work of removal, storage and transportation of oil and natural gas. Develops and recommends the best methods of production, extraction and injection. Performs studies and examines geological soil samples to determine the stratigraphic structural properties of a region. Intervenes directly in the secondary processes for the conversion of hydrocarbon raw materials for industry. Performed to identify faults by reading instruments.

Gas Engineering:

Gas Engineer has skills, abilities and skills that allow you to operate plants and facilities for treating and processing natural gas, and industrial process controls that are made in plants and natural gas facilities. Planning, management and control projects associated with the industry and the natural gas business. Monitors the transportation and storage processes, participates in the design, coordination and supervision of construction of gas plants and laying gasductos; conducts research aimed at the study and creation of technologies for processing natural gas; enforces laws and comprehensive protection standards in plants, facilities, equipment and people working in natural gas processing. This professional takes the necessary steps to contribute to the maintenance of plants, facilities and equipment related to the management of natural gas. Engineering Geophysics Geophysical Engineer is dedicated to measuring the physical properties of the materials that make up the subsoil, to locate and evaluate natural resources and study of land of interest for the construction of road works. Plans, executes and directs surface and underground surveys related to the operation, location, assessment and inventory of non-renewable natural resources, with its drilling programs in different types of deposits. Plans, executes and directs studies of the subsoil and the results will be useful to other branches of Engineering, and Mining, Metallurgy and Civil.

Mining Engineering:

The Mining Engineer plans, organizes and directs the work of the earth to extract solid minerals, metallic or not, whether the ground surface (pits) and underground (underground mining). Make geological and topographical surveys, recommends improved methods of operation, test samples and experiments to investigate their properties and determine their uses. Responsible for the exploratory drilling from underground, the required drilling and blasting and excavation of open pit mining. Design facilities for the operation and strategies for jobs that require the use of explosives.

Engineering Works Administration:

Engineer Works Management studies, organizes and coordinates all work relating to the construction of structures and buildings, waterworks, roads and sanitation systems. It deals with the administrative part in different projects. It can generally handle the entire construction process.

Computer Engineering:

The Computer Engineer deals with the nature and characteristics of information, structure and classification, storage and retrieval and the various processes that can be submitted in an automated manner. Is also interested in the properties of physical machines that perform these operations to produce data processing systems efficient. Try everything related to the use of digital computers. He is a trained professional in the relevant areas of structures and computer systems, structures and information processes, operational research and mathematical models.

Industrial Production Engineering:

Production Engineer Industrial Production and production systems studied in all its stages, from conception and initial planning to the design and operation of the system. The Production Engineer is the central figure in transforming a design into a product. Must operate as an integrator of operations, coordinating personnel, information and technology within an organization. Design systems taking into account the energy use and environmental protection and human.

Industrial Design Engineering:

The race in Industrial Design Engineering aimed at training a creative professional, capable of developing projects and effectively assimilate technological advances in their field and adapt to national circumstances, with skills and abilities to apply theory, methods, techniques problem solving in the creation of objects and products that meet the needs and contribute to community development.

Computer Engineering:

The Computer Engineering analyzes and implements information systems. Develop different types of logical structures for solving problems using computers. Use techniques and disciplines related to information systems, such as administrative, organizational, statistical and project control. Its formation is important in engineering and software technology, such as computer networks.

Systems Engineering:

The Systems Engineer is responsible for the design, programming, implementation and maintenance. It incorporates modern methods and techniques to optimize economic performance. Monitors and corrects the progress of the various stages of a project. Formula plans that let you integrate different projects of a broader development agenda. Evaluate the cost effectiveness of human resources, machines and techniques used in these systems. Define, in conjunction with management, the needs of an administrative organization.

Food Engineering:

Food Engineer manages the technological aspects of selection, handling, processing, manufacturing, maintenance and storage of fruits, vegetables, dairy products, meat and marine. Forestry: The Forest Engineering deals with the study, management and rational exploitation of forests, watersheds and other forest land, natural resources associated with them and the environment in the areas of conservation, protection, improvement and utilization under the concept comprehensive management.

Forest Industry Engineering:

The Forest Industry Engineering is a professional trained to plan, design, evaluation and monitoring studies, technical processes and investigations for the location, feasibility, operation and management of industries that process raw materials from forests and forest plantations, the transformation of products derived from them in articles and goods for the community.

Environmental Engineering:

The Engineer of the Environment and Renewable Natural Resources applies the basic principles of conservation to the rational management and exploitation of natural resources. Studied soil sciences, hydrology, climate, forests and wildlife. Develop planning, management and rational development of natural resources renewable and nonrenewable.

Fisheries Engineering:

Fishing The Engineer is a highly trained professional scientific and technological knowledge of the aquatic environment, programs and activities, fishing, diagnoses and investigates marine ecosystems to optimize use and then processing for consumption. Agricultural Engineering: The Agronomist is a professional who manages the renewable natural resources in a rational way, their activity is directed at developing the agricultural sector. In this sense, plans, coordinates and conducts studies and research on soil management for agricultural purposes, including fertility control, irrigation and drainage, agricultural mechanization, genetic and agronomic improvement as well as pest and disease control (use of pesticides ) in plants and animals, use of agro-techniques in the processing of agricultural products, technical assistance and training of peasants and farmers, socio-economic studies in agriculture and farm management. Oversees the production of certified seeds and the application of phytosanitary laws.

Agricultural Engineering:

Agricultural Engineer applies the basic principles of engineering in the planning, design and construction of drainage infrastructure, rural buildings, roads, agricultural equipment and machinery. You can work in public and private institutions at field level and office tasks related to planning, design, construction and supervision of rural development projects. Agricultural Engineering (Production Plant): The Agronomist of Crop use and management of renewable natural resources to exploit rationally crops, wild flora, ground water resources and conserving them by using fertilizers. Manage and plant production planning processes and is promoting new technologies with conservation awareness.

Agroindustrial Engineering:

The engineer applied Agroindustrial production techniques, handling and processing of raw materials and processed vegetable and animal. Study the principles of production, machinery, equipment and agricultural processing in combination with the economic and financial industry. Milling Engineering: The Milling Engineering is a professional whose main functions are the producer, preserver, conservator, designer, builder and researcher of the systems involved with the technological process of physical transformation of particles applied to a large number of manufacturing industries and agribusiness. The same is inside the fields of quality control, maintenance, and design projects, process controls and areas of production and operations.

Animal Production Agricultural Engineering:

The Animal Production Agronomist use and management of renewable natural resources through rational exploitation of cattle, pigs, poultry, goats and other domestic species and wildlife susceptible to economic exploitation. Directs and manages the processes of conservation, processing and marketing of agricultural products and by trying to develop new technologies, conservation consciousness. Plans, directs and manages the exploitation of different animal species, as well as on the production of grasses and other food materials of different species.

Agricultural Production Engineering:

Farming Engineer uses and applies technological advances in the management of their agricultural work, integral maintenance of production units, processing and marketing of agricultural products. Use the techniques in the management and administrative processing of agricultural enterprises.

Civil Engineering:

Civil Engineering is the oldest of Engineering, is responsible for ensuring the infrastructure of any country, with a wide range of specializations, analysis and structural design, construction and inspection of works, soil survey, hydraulic, environmental control and health, control of transit, highway design, transportation by land, air and sea. The design of bridges, tunnels and other special structures that complement the roads and railways pose a challenge to the engineer. All construction work, directed and managed by civil engineer requires the involvement of other specialist engineers and architects.

Mechanical Engineering:

It is the branch of engineering that deals with the planning, design and construction and operation of mechanical systems used to transform various forms of mechanical energy used in such systems. Therefore is responsible for creating mechanical and production of tools and equipment, develop, refine and apply science and technology, placing them at the service of humanity.

Engineering Maintenance:

Maintenance Engineer performs the monitoring and implementation of field activities and workshop related to the maintenance of industrial equipment or facilities and administrative activities related to the maintenance. Applies and interprets scientific basis, the results of research and experience in the maintenance of equipment

Industrial Engineering:

The Industrial Engineer is responsible for planning, designing, implementing and managing production systems and services that is efficient, effective and reliable. The products or services obtained from these systems must be functional, high quality, low cost, besides being manufactured in a short time. These products and services must be competitive in a global competition field. Industrial Engineering integrates knowledge from different disciplines including the humanities and social sciences, computer sciences, basic sciences and management science.

Aerospace Engineering:

An aeronautical engineer has the ability to design, adapt, transform, do maintenance, manage and regulate all types of air vehicles, related equipment to the field of civil or military aviation. For its solid scientific, technological, administrative and human, have the ability to perform technical positions, administrative and managerial positions that require leadership, high accountability, high professional competence and reliability. The profile for the synthesized solid professional training in Sciences, Natural and Basic Engineering, to implement the aeronautical field, human and professional training to allow, through creativity, leadership, initiative and innovation, addressing the technical, economic , social and logistical own aircraft industry, culturally appropriate training for the performance of a profession with strong ties to the phenomenon of globalization, entailing mastery of foreign languages and business aviation (commercial airlines, aircraft manufacturers and government institutions) clearly internationalized today.

Chemical Engineering:

The Chemical Engineer studies the composition and physical and chemical characteristics of the materials to create industrial products and services profitably. Design, select equipment and appliances, choose the location of production facilities, their operation, supervision and management and marketing of goods and products. Make economic feasibility studies that enable the optimal operation of plants in a manner beneficial to the development process.

Electrical Engineering:

Electrical Engineering is the theory and practice of generation, transmission, distribution and use of electricity. According to this concept, the electrical engineer should be conversant with the theory and practice of electricity. You should know the laws and principles and essential for the intelligent application of electric power for the benefit of mankind. The electrical engineer is a highly qualified professional who has the ability and knowledge to design, build, monitor and operate electric systems. It includes, inter alia, the fields of generation, transmission and distribution of electricity, communication systems, electronics and computers. Electrical Engineering is divided in turn into sub-specialties: generation, transmission, distribution, processing, strength (power), lighting, heating, signs, radio, telegraph, telephone, television, control, measurement, electronics and computers.

Metallurgical Engineering:

Metallurgical Engineer metallic materials processed into a raw material, useful in industry. Involved in the process of mining products and using electricity, chemistry and mechanics, helps with new materials, metals and alloys, for processing automobiles, dynamos, motors, refrigerators, metal structures and all sorts of equipment and mechanisms to satisfy human needs. Surveying Engineering: Geodesist Engineer is responsible for determining the shape and direction of the earth as a planet, it uses methods for high precision measurement. Apply methods and knowledge of geodesy in engineering works. Plan, schedule and control the work on projects of different kinds of measurements in order to produce maps, cadastral maps, thematic maps, boundaries of the territorial and political divisions and national borders. Make changes, construction projects and road works and hydraulic lifts and underground mining.

Systems Engineering

This branch of engineering allows professionals to develop their abilities and skills in the evaluation and selection of new technologies associated with systems area as well as the effects of its implementation.

Our Systems Engineering graduates are able to:

Evaluate the organizational structure and subsystems comprising it, in order to implement or optimize complex systems.
Undertake tasks of supervision and coordination of activities related to corporate governance, including among them the use of advanced computer technologies as tools for development and production, with emphasis in the field of industrial, commercial and service sectors.
Intervene in processes of research on this modern technological field, participate in different areas of training of technical personnel at various levels and to apply and interpret the results of scientific research experience in related areas and fields of engineering and sciences general Manage human resources, material and financial resources for development projects.
Field work Our graduates can perform professionally in the manufacturing and service firms provide engineering services for planning, developing and maintaining software.
You can work in forming his own consulting firm in software and training management software products. May be devoted to teaching and participating in research and development projects. You can serve on scientific research and technological developments in the area of systems, computer science.
Providing services in private and public companies engaged in training in general-purpose software and specialized.