Syllabus of AMIE Exams

Section A

To develop the basic commonalities, it is essential to first identify the fields of activities. An AMIE student is required to have adequate knowledge of basic sciences, adequate knowledge and application of engineering sciences, appreciation of environment and society on engineering activities, and adequate communication skill to communicate with engineering process, people and machine. The subjects to cover the above fields are covered in Section A.

Diploma Stream Syllabus

Non Dip  Stream Syllabus

Section B

Architectural Engineering

Architectural engineers apply engineering principles to the construction, planning, and design of buildings and other structures. They often work with other engineers and with architects, who focus on function layout or aesthetics of building projects. Architectural Engineering often encompasses elements of other engineering disciplines, including mechanical, electrical, fire protection, and others. The architectural engineers are responsible for the different systems within a building, structure, or complex. Architectural Engineering Syllabus

Civil Engineering

Civil engineering encompasses residential, industrial and commercial buildings with a foundation suited to the geological conditions and with a reliable frame structured to support the floors, walls and roof, capable of resisting fire, wind forces and seismic shocks. Civil engineering is also involved in the creation of efficient and economical transportation facilities and terminals on surface and water, including streets, highways, expressways and parking facilities; rapid transit systems and subways; transmission systems and pipelines; waterways, dams and harbours: airports and runways and even the most sophisticated launch facilities for vehicles to outer space. Perfect knowledge and the most creative skills are needed to meet the critical parameters of load, topography geological considerations social constraints, aesthetics and economy. The harnessing of rivers to control floods, produce hydro-electric power and provide water for agricultural, domestic and industrial uses comprise a major area of Civil Engineering application. Ground water resource development and efforts towards exploitation of ocean resources for minerals are also important. Civil Engineering Syllabus

Computer Science and Engineering

Computer engineers analyze, design, and evaluate computer systems, both hardware and software. They might work on system such as a flexible manufacturing system or a "smart" device or instrument. Computer engineers often find themselves focusing on problems or challenges which result in new "state of the art" products, which integrate computer capabilities. They work on the design, planning, development, testing, and even the supervision of manufacturing of computer hardware -- including everything from chips to device controllers. They work on the interface between different pieces of hardware and strive to provide new capabilities to existing and new systems or products. The work of a computer engineer is grounded in the hardware - from circuits to architecture - but also focuses on operating systems and software. They may also focus on computer networks for the transmission of data and multimedia. Computer engineers must understand logic design, microprocessor system design, computer architecture, computer interfacing, and continually focus on system requirements and design. It is primarily software engineers who focus on creating the software systems used by individuals and businesses, but computer engineers may also design and develop some software applications. Computer Engineering Syllabus

Electrical Engineering

Electrical engineering is a field of engineering that generally deals with the study and application of electricity, electronics and electromagnetism. The field first became an identifiable occupation in the late nineteenth century after commercialization of the electric telegraph and electrical power supply. It now covers a range of subtopics including power, electronics, control systems, signal processing and telecommunications.
Electrical engineering may include electronic engineering. Where a distinction is made, usually outside of the United States, electrical engineering is considered to deal with the problems associated with large-scale electrical systems such as power transmission and motor control, whereas electronic engineering deals with the study of small-scale electronic systems including computers and integrated circuits.[1] Alternatively, electrical engineers are usually concerned with using electricity to transmit energy, while electronic engineers are concerned with using electricity to process information. More recently, the distinction has become blurred by the growth of power electronics. Electrical Engineering Syllabus

Electronics & Communication Engineering

Electronics engineering, or electronic engineering, is an engineering discipline where non-linear and active electrical components such as electron tubes, and semiconductor devices, especially transistors, diodes and integrated circuits, are utilized to design electronic circuits, devices and systems, typically also including passive electrical components and based on printed circuit boards. The term denotes a broad engineering field that covers important subfields such as analog electronics, digital electronics, consumer electronics, embedded systems and power electronics. Electronics engineering deals with implementation of applications, principles and algorithms developed within many related fields, for example solid-state physics, radio engineering, telecommunications, control systems, signal processing, systems engineering, computer engineering, instrumentation engineering, electric power control, robotics, and many others Electronics & Comm. Engineering Syllabus

Mechanical Engineering

Mechanical engineering is a discipline of engineering that applies the principles of physics and materials science for analysis, design, manufacturing, and maintenance of mechanical systems. It is the branch of engineering that involves the production and usage of heat and mechanical power for the design, production, and operation of machines and tools. It is one of the oldest and broadest engineering disciplines. The engineering field requires an understanding of core concepts including mechanics, kinematics, thermodynamics, materials science, and structural analysis. Mechanical engineers use these core principles along with tools like computer-aided engineering and product lifecycle management to design and analyze manufacturing plants, industrial equipment and machinery, heating and cooling systems, transport systems, aircraft, watercraft, robotics, medical devices and more. Mechanical engineering overlaps with aerospace engineering, marine engineering, building services engineering, civil engineering, electrical engineering, petroleum engineering, and chemical engineering to varying amounts. Mechanical Engineering Syllabus

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