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Aeronautical engineering encompasses many branches of science and engineering to provide comprehensive perceptions for synthesis and integration of various aspects related to the design, development, fields testing and commissioning of crafts to be used in space, for specific purpose. |
Aeronautical Engineering requires vast engineering recourses and technology integration in order to encompass commercial aviation, space exploration and air defence. It embrace a wide range of problem areas in aerospace and allied engineering disciplines. The discipline is thus diversified with exposure to multidisciplinary topics. |
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| Aeronautical Engineering (Four Years Degree Course ) |
A.M.Ae.S.I. at par with B. E./ B. Tech.
Minimum Qualification
- 10+2 Pass with Physics, Chemistry, Maths with 50% Marks in individual subjects
- Engineering Diploma pass (Any Stream) min. 50% aggregate.
- B.Sc. with PCM group with min 50% aggregate
It comprises of TWO Sections; Section "A" (Duration 2 yrs.) and Section "B" (Duration 2 yrs.)
| Semester 1 |
Semester 2 |
| A4 Strength of Material |
A2 Fluid Mechanics |
| A10 Workshop Technology. |
A9 Engg Drawing & Design |
| Semester 3 |
Semester 4 |
| A4 Strength of Material |
A6 Electrical Engg. |
A6 Electrical Engg.
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A7 Microprocessors & Software Engineering |
| A7 Microprocessors & Software Engineering |
A8 Introduction to Aeronautics |
| A8 Introduction to Aeronautics |
Six weeks Workshop Training
(some of the above subjects would be taught for two semesters) |
Subjects of Section "B" :Various streams along with their subjects are given below.
2. Aero-Mechanical Stream
(All subjects are compulsory) |
2. Avionics Stream
(All subjects are compulsory) |
| Semester 5 |
Semester 5 |
AS1 Applied Mathematics
AS2 Aerodynamics
AS3 Aircraft Structures |
LS1 Applied Mathematics II
LS2 Aircraft General Systems
LS3 Avionics-I |
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| Semester 6 |
Semester 6 |
LS4 Control Theory & Practices
LS5 Avionics-II
LS6 Airplane Performance Stability & Control
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LS4 Control Theory & Practices
LS5 Avionics-II
LS6 Airplane Performance Stability & Control
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| Six weeks Laboratory Training |
Six weeks Laboratory Training |
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| Semester 7 |
Semester 7 |
LS7 Maintenance of Radio & Communication Systems
LS8 Aircraft Instruments
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LS7 Maintenance of Radio & Communication Systems
LS8 Aircraft Instruments |
| Six weeks Professional Training |
Six weeks Professional Training |
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| Semester 8 |
Semester 8 |
AS9 Management of Systems Electives I
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LS9 Management of Systems Elective II |
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3. Maintenance & Production (Electrical) Stream
(All subjects are compulsory) |
4.Maintenance & Production (Mechanical) Stream
(All subjects are compulsory) |
| Semester 5 |
Semester 5 |
PS1 Airworthiness & Air Regulations
PS2 Aircraft Materials
PS3 Control Theory & Practices
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PS1 Airworthiness & Air Regulations
PS2 Aircraft Materials
PS3 Control Theory & Practices |
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| Semester 6 |
Semester 6 |
PS4 Aircraft Production
PS5 Production, Planning & Control
PS6 Airplane Performance, Stability & Control
Six weeks Laboratory Training |
PS4 Aircraft Production
PS5 Production, Planning & Control
PS6 Airplane Performance, Stability & Control
Six weeks Laboratory Training |
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| Semester 7 |
Semester 7 |
PS7 Management of Systems
PSL1 Maintenance of Electrical Instruments
& Systems |
PS7 Management of Systems
PSM1 Maintenance of Power Plant & Systems |
| Six weeks Professional Training |
Six weeks Professional Training |
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Semester 8
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Semester 8 |
| PSL2 Maintenance of Radio & Communication Systems |
PSM2 Maintenance of Airframe & Systems |
| Six weeks Professional Training |
Six weeks Professional Training |
| LIST OF ELECTIVES |
OS1 Princeples of Helicopter Engineering
OS2 Gas Dynamics
OS3 Wind Tunnel Testing
OS4 Vibration & Aero elasticity
OS5 CAD CAM
OS6 Industrial Engineering
OS7 Tool Design & Fabrication
OS8 Statistics & Quality Control
OS9 Air Navigation
OS10 Aircraft Evaluation |
OS11 Rockets & Missiles
OS12 Introduction to the Finite Element Methods
OS13 Computational Fluid Dynamics
OS14 Optimization Methods in Engineering Design
OS15 Non Destructive Evaluation
OS16 Ground Handling and Support Systems
OS17 Introduction to Antomatic Flight Control Systems
OS18 Introduction to Wind Engineering |
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Architecture, the science of building, is the visualisation of building blocks. It is the area of study which deals with the designing and planning of buildings and structures and the spaces between them. Architecture is a highly competitive and multi-disciplinary profession which involves a variety of tasks at work. This is a field which covers various fields including spatial design, aesthetics, safety management, material management etc.
Architects are the licensed professionals trained in the art and science of building. They are involved in all the phases of the building construction i.e the functional, safety, economical and has to satisfy the needs of its occupants. They are responsible person for the planning, designing and supervision of construction works for houses, office buildings, skyscrapers, landscapes, and even entire cities. An Architect is a combination of artist, professional and businessperson. They ideate, sketches, makes blueprints of their designs and then sees them come to life as cottages, skyscrapers and even monuments. Apart from designing and construction, architects are trained in activities ranging from conceptual problem solving to project management. |
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| 6 Years Degree Course |
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PART I
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Semester -I
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Semester-II
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Engineering Mathematics
Engineering Physics & Applied Mechanics
Engineering Chemistry
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Basic Architectural Engineering
Technical Writing
Engineering Drawing |
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PART II
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Semester -III
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Semester-IV
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History of Architecture
Free Hand Drawing & Painting
Building Construction
Surveying & Leveling
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Structural Mechanics
Theory of Structures
Estimation and Costing
Architectural Design & Graphics |
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Semester -V
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Semester-VI
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Building Material & Science
Environmental Engineering
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Project |
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Civil Engineering is an age-old profession and has bee%n defined traditionally as “a great art, on which the wealth and the well-being of the whole of society depends. Its essential feature, as distinct from science and the arts, is the exercise of imagination to fashion the products processes and people needed to create a sustainable physical and natural environment. It requires a broad understanding of scientific principles, knowledge of materials and the art of analysis and synthesis. It also requires research team work, leadership and business skills.” A Civil Engineer is someone who practices all or part of this art. Our old monuments and structures speak a lot about practical development of Civil Engineering in this country.
Looking to the importance and development of this profession, most of the countries including UK, USA, Australia, Japan, China etc. created their separate societies to help ensure and maintain high standards among its members, a role that they continue to play even today.
The Institution of Civil Engineers (India) is one such Institution of its kind for Civil Engineering and Architectural Engineering Education in this country which provides avenues for quality education in these disciplines. It also contributes to the strengthening of resources for Civil Engineering as well as Architectural Engineering.
| 6 Years Degree Course |
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| PART I |
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| Semester -I |
Semester-II |
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Engineering Mathematics
Engineering Physics & Applied Mechanics
Engineering Chemistry
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Basic Architectural Engineering
Technical Writing
Engineering Drawing
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| PART II |
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| Semester -III |
Semester-IV |
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Surveying
Fluid Mechanics & Machinery
Soil Mechanics
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Civil Engineering Designs
Mechanics of Solids
Basic Structural Design
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| Semester -V |
Semester-VI |
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Environmental Engineering Project
Construction Technology
Estimation, Costing & Specifications
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Project
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After passing above 2 sections student will get admission in Sec A and Sec B the subjects will be same as 3YDC. section A (Duration 1 Year)
| Semester -I |
Semester-II |
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Advanced Engineering Mathematics
Advanced Strength of Materials
Computer Programming and Numerical Methods
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Foundation Engineering
R.C. Structures & Advanced Concrete Technology
Design of Steel Structures
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Section B (Duration 2 years)
| Semester -III |
Semester-IV |
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Applied Hydraulics & Fluid Machines
Machine Foundations
Advanced Reinforced Concrete Design
Traffic Engineering
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Optimization in Structural Design
Environmental Engineering
Road Transport Management
Highways and Railways Engineering
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| Semester -V |
Semester-VI |
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Airports, Docks & Harbors
Bridge Engineering
Design of Foundation Structures
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Project
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| Electronics & Telecommunication Engineering is the study of the electron, hole & ion motion ,including the means of producing them, the laws governing them and means for controlling them for useful application in the scientific, industrial and Communication purpose. This is one of the branches of engineering which embraces a broad field of scientific & engineering boundaries. The application is concerned with the design ,manufacture, management and application of Electronic tubes and solid state components in various devices like radio ,telephone.television, radar, radio telescopeand X-Ray tubes. |
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These are 4-years duration courses after 12th standard & 6-years duration course after 10th Standard. Subject wise details are given below:
6-Years Duration Course
The COURSE comprises of FOUR Sections.Section "A" & "B" of DIPIETE and Section "A" & "B" of AMIETE
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Semester 3
| Section "A" |
| Semester 1 |
Semester 2 |
DO1 Mathematics I
DO2 Applied Mechanics |
D23 Mathematics II
DO6 Basic Electronics
DO4 Engineering Materials
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| Semester 3 |
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DO3 Engineering Drawing
DO5 Electrical Engineering
DO7 Network & Transmission Lines
REB-I Practical Examinations |
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| Section "B" |
| Semester 4 |
Semester 5 |
DO8 Analog Electronics
DO9 Digital Electronics
D1O Computer Engineering
D11 Electronics Instruments and Measurement |
D12 Communication Engineering
D13 Project
D19 Practical Examination |
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| Semester 6 |
Optional (Any Two)
D14 Computer Software Fundamentals
D15 Control Engineering
D16 Industrial Engineering
D17 Elements of Satellite
D18 Television Engineering
D20 Electronics Switching Systems |
After passing above two Sections, students will get admission in Sec. "A" and Sec. "B" of AMIETE, the subject for which will be same as for 4 YDC (AMIETE) with certain exemptions as applicable.
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Electrical Engineering deals with electricity and magnetism and is devoted to the utilization of the forces of nature and materials for the benefit of mankind. It encompasses many aspects of other engineering science, mathematics and physical science. Electrical Engineers lend their expertise to other engineering field as well. There is hardly a field of technology to which electrical engineering has not made a contribution. |
| The Indian Scene Development of electricity was initiated in India as early as in 1900 with the commissioning of a hydro- electric power station at Shivasamudram in Karnataka. Coal- based thermal plants account for about 60% of electric generation. The Electricity Supply Act of 1940 forms the basis of the administrative structure for electricity supply system in the country. Nuclear power generation started in 1969 at T arapore. Possibilities of tidal power at Gulf of Cambay, Gulf of Kutch, and the estuary of the Hooghly are being explored. Similarly, exploratory work on the use of geothermal energy is being carried out in Pugge Valley and Chumattang in Ladakh. Wind and other energy sources are also receiving increasing attention for commercial application. |
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Electrical Engineering deals with electricity and magnetism and is devoted to the utilization of the forces of nature and materials for the benefit of mankind. It encompasses many aspects of other engineering science, mathematics and physical science. Electrical Engineers lend their expertise to other engineering field as well. There is hardly a field of technology to which electrical engineering has not made a contribution. |
| The Indian Scene Development of electricity was initiated in India as early as in 1900 with the commissioning of a hydro- electric power station at Shivasamudram in Karnataka. Coal- based thermal plants account for about 60% of electric generation. The Electricity Supply Act of 1940 forms the basis of the administrative structure for electricity supply system in the country. Nuclear power generation started in 1969 at T arapore. Possibilities of tidal power at Gulf of Cambay, Gulf of Kutch, and the estuary of the Hooghly are being explored. Similarly, exploratory work on the use of geothermal energy is being carried out in Pugge Valley and Chumattang in Ladakh. Wind and other energy sources are also receiving increasing attention for commercial application. |
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| 3 Years Diploma Course |
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Semester -I
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Semester-II
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Applied Mathematics-I
Physics
Chemistry
Fundamentals of Computer
Communication Techniques
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Applied Mathematics-II
Basic Mechanical Engineering
Basic Electrical Engineering
Basic Electronics
Engineering Drawing |
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Semester -III
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Semester-IV
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Applied Mathematics-III
Electrical Engineering Materials
Basic Electronic Circuits & Devices
Electrical Machines
Fundamentals of Computer Programming
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Electronic Measurement and Instrumentation
Digital Electronics
Network Theory
Power System Engineering
Linear Control System |
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Semester -V
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Semester-VI
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Design & Maintenance of Electrial
Machines
Power Electronics
Transmission & Distribution of
Electrical Power
Electrical Engineering Drawing
Industrial Management
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Power Plant Engineering
Telemetry & Telecontrol
Utilization of Power
Microporcessor
project
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Civil Engineering is an age-old profession and has been defined traditionally as “a great art, on which the wealth and the well-being of the whole of society depends. Its essential feature, as distinct from science and the arts, is the exercise of imagination to fashion the products processes and people needed to create a sustainable physical and natural environment. It requires a broad understanding of scientific principles, knowledge of materials and the art of analysis and synthesis. It also requires research team work, leadership and business skills.” A Civil Engineer is someone who practices all or part of this art. Our old monuments and structures speak a lot about practical development of Civil Engineering in this country.
Looking to the importance and development of this profession, most of the countries including UK, USA, Australia, Japan, China etc. created their separate societies to help ensure and maintain high standards among its members, a role that they continue to play even today.
The Institution of Civil Engineers (India) is one such Institution of its kind for Civil Engineering and Architectural Engineering Education in this country which provides avenues for quality education in these disciplines. It also contributes to the strengthening of resources for Civil Engineering as well as Architectural Engineering.
3 Years Diploma course
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| Semester -I |
Semester-II |
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Applied Mathematics-I
Physics
Chemistry
Fundamentals of Computer
Communication Techniques
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Applied Mathematics-II
Basic Mechanical Engineering
Basic Electrical Engineering
Basic Electronics
Engineering Drawing
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| Semester -III |
Semester-IV |
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Computer Application I
Applied Machines
Construction Materials
Hydraulics
Building Construction
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Civil Engineering Drawing I
Concrete Technology
Structural Mechanics
Surveying I
Irrigation Engineering |
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| Semester-V |
Semester-VI |
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Civil Engineering Drawing -II
Elements of RCC Design
Transportation Engineering
Soil and Foundation Engineering
Surveying II & Camp
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EARTHQUAKE RESISTENT BUILDING
CONSTRUCTION
ELEMENTS OF STEEL STRUCTURAL
DESIGN
Estimating & Costing
Civil Engineering Drawing -IV
PROJECT
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These are 4-years duration course after 12th standard. Subject wise details are given below:
4-Years Duration Course (AMIETE)
The courses comprises of TWO sections viz Section "A" and Section "B"
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AMIETE
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| Section "A" |
| Semester 1 |
Semester 2 |
T01 Mathematics I
T02 Commn and Tech. Writing
T09 Numerical Computing
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T35 Mathematics II
T03 Analog & Digital Electronics
T05 Problem Solving & C Programming
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| Semester 3 |
Semester 4 |
T04 Signals and Systems
T06 Data Structure and Algorithm Design
T08 System Software Practicals |
T07 Computer Architecture
T10 Data Communication & Network
REB-I Practical Examinations
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| Section "B" |
| Semester 5 |
Semester 6 |
T11 DBMS
T12 Multimedia Systems
T13 Software Engineering |
Tl4 Image Processing & Computer Graphics
Tl5 Internet & Web Technology
Tl6 E-Commerce |
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| Semester 7 |
Semester 8 Optional (Any Two) |
T17 Telecommunication Systems
T18 Project
REB-II Practical Examinations
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Data Warehousing & Data Mining
Industrial Management
Artificial Intelligence & Neural Networks
Object Oriented Programming Systems |
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It is the discipline in whitch mathematics and science are blended with experience and judgement for the production for the production of the useful things. It strives to utilize the economically the material and forces of the nature for the production of servicable goods. |
| Formal training of a mechanical engineer include a knowledge of mathematics, physics, thermodynamics, mechanics of materials and fluids, statics, dynamics and chemistry with specialization in metal cutting nd machine tools, manufacturing systems ,etc. |
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The Aeronautical of India was established in 1948 under the Societies Registration Act XXI of 1860 support and patronage of Pandit Javahar lal Nehru, who also became the Society's first patron-in chief. Pandit Jawahar lal Nehru at Puttana Chetty town hall, Bangalore on 27th of December 1948 formally inaugurated the Society. |
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The Aeronautical of India was established in 1948 under the Societies Registration Act XXI of 1860 support and patronage of Pandit Javahar lal Nehru, who also became the Society's first patron-in chief. Pandit Jawahar lal Nehru at Puttana Chetty town hall, Bangalore on 27th of December 1948 formally inaugurated the Society. The course and examination is conducted by the Aeronautical Society of India, is recognized by Ministry of Education (Govt. of India). A pass in Sec.A & Sec.B examination by the society is equivalent to B.E. / B.Tech. in Aeronautical Engineering for the purpose of recruitment to superior posts under State and Central Government. |
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To expose Aeronautical Engg. students to the latest technology and practical aspects of the Aviation Field, the Aeronautical Society of India itself arranges practical training at organizations like Indian Airlines, Air India, Hindustan Aeronautics Ltd. etc. at the centers like Delhi, Bombay, Calcutta, Hyderabad, Chennai & Other for a period of 4 to 6 months on 'no cost no payment basis' further society also sponsors bright students for on job training in reputed organization for one year. The institute has reputed Aviation training organizations to provide technical visit / practical training to the students. |
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