hello

hi look these two frequent questions of electronic enginnering:
1. Why study Engineering?
Engineering is directly responsible for the development of communities, peoples and nations. A country with engineers, guarantees a prosperous future that aims to create optimum conditions of health, housing, transportation, education, communications, industrial development, among others. Engineering is studied to improve the quality of life of people.

2. What is the Electronic Engineering Degree?
It is the discipline that is responsible for conceiving, designing and implementing technology solutions aplicacbles to telecommunications, signal processing, control and process automation, robotics, digital or computer systems, bioengineering and the development of electronic devices. These solutions arise from information processing and conditioning and power optimization.

hiiiii friends

hi friends check out this video of electricity and magnetism, such a topic that I like and important of electronic engineering

hi

be careful with oil because this can affect economically, environmentally, socially ...http://www.youtube.com/watch?v=lZ0JkVMTyC4

http://www.youtube.com/watch?v=bWhet5eHuBM&feature=related

Maria Juliana Piedrahita 

andes university

check the Andes Pensum of electronic engineering 

Ciclo Básico

Primer Semestre
Cálculo 10
Química 11
Sistemas de Representaciòn 10
Humanidades (Ciencia y Tecnología)

Segundo Semestre
Cálculo 20
Física 10
Sistemas de Representación 20
Estadística 

Tercer Semestre
Cálculo 30
Física 20
Lab. Física General
Electricidad y Magnetismo
Programación Digital

Electivas del Ciclo Básico:
Lengua y Comunicación I
Lengua y Comunicación II
Ingles  Lectura I
Ingles  Lectura II
Desarrollo Habilidades del Pensamiento
Lectura Crítica

Ciclo Profesional:

Cuarto Semestre  
Cálculo 40
Mecánica Racional
Introducción a la Ingeniería Eléctrica
Circuitos Eléctricos I
Redacción de Informes  

Quinto SemestreMatemáticas Especiales
Electrónica I
Fundamentos de las Mediciones
Circuitos Eléctricos II
Sistemas Digitales 

Sexto Semestre
Campos Electromagnéticos
Electrónica II  
Laboratorio de Electrónica I
Circuitos Eléctricos III
Laboratorio de Circuitos
Máquinas Eléctricas I

Séptimo Semestre
Sistemas Lineales 
Electrónica III 
Laboratorio de Electrónica II
Sistemas de Transmisión
Lab. de Máquinas Eléctricas I
Máquinas Eléctricas II

Octavo Semestre
Comunicaciones I
Sistemas de Control
Laboratorio de Electrónica III
Mediciones Eléctricas
Lab. de Máquinas Eléctricas II
Sistemas de Potencia I 

Noveno Semestre
Instalaciones Eléctricas
Laboratorio I de Control
Ingeniería Económica
Electiva
Electiva 

Décimo Semestre
Relaciones Industriales
Electiva
Electiva
Trabajo de Grado

Materias Electivas
Departamento de Circuitos y Medidas
Automatización de Mediciones
Instrumentación Industrial
Instrumentación Biomédica
Instrumentación Inteligente
Compatibilidad Electromagnética
Control Digital
Control Avanzado
Pasantías

Departamento de Potencia
Construcción de Líneas
Control de Motores Eléctricos
Máquinas Eléctricas III
Sistemas de Distribución
Sistemas de Potencia II
Sistemas de Protección
Subestaciones Eléctricas
Centrales Eléctricas
Ingeniería de Alta Tensión
Pasantías

Departamento de Electrónica
y Comunicaciones
Comunicaciones Digitales
Circuitos Integrados
Electrónica Industrial
Laboratorio de Comunicaciones
Laboratorio de Sistemas Digitales
Física Electrónica
Máquinas Secuenciales
Microondas
Microprocesadores
Procesamiento Digital de Señales
Propagación y Antenas
Radioenlaces 
Diseño Interfases p/Comp. Personales
Telefonía
Transmisión Óptica 
Redes de Computadoras
Técnicas de Pulsos
Pasantías

check this video

http://www.youtube.com/watch?v=cTyBHniLtcw&feature=related
Maria juliana Piedrahita 11C

hello the works of electronic engineer

 Heloo check the Typical work and  activities of the electronic engineer

Electronics engineers work on a project through all its stages: from the initial brief for a concept; through the design and development stage; to the testing of one or more prototypes; and through to final manufacture and implementation of a new product or system.
The exact duties vary, depending on the industry, but tasks typically include:

• discussing proposals with clients;
• working with colleagues to design new systems, circuits and devices or develop existing technology;
• testing theoretical designs;
• writing specifications;
• following defined development processes;
• systematically improving the detailed design of a piece of electronic equipment;
• ensuring that a product will work with devices developed by others, can be made again reliably, and will perform consistently in specified operating environments;
• creating user-friendly interfaces;
• ensuring safety regulations are met;
• project planning and preparing budgets;
• attending meetings with sub-contractors;
• supervising technicians and craftspeople and other colleagues;
• writing technical reports;
• keeping up to date with developments in technologies and regulations.

There are two main types of graduate electronic engineer. Chartered Engineers (CEng) have the greatest level of responsibility for engineering projects. They develop solutions to problems using new or existing technologies. Incorporated Engineers (IEng) take responsibility for specific aspects of a project. They maintain and manage applications of current and developing technology.

look the professional bodies

 look the Professional bodies
Professional bodies of note for electrical engineers include the  institute of electrical and electronics engineers (IEEE) and the institution of electrical engineers (IEE) (now renamed the Institution of Engineering and Technology or IET). The IEEE claims to produce 30 percent of the world's literature in electrical/electronic engineering, has over 370,000 members, and holds more than 450 IEEE sponsored or cosponsored conferences worldwide each year.