Category: Blog

Rathinam Group of Institutions enters into MOU with Illinois Institute of Technology (IIT), Chicago, USA.

Rathinam Group of Institutions enters into MOU with Illinois Institute of Technology (IIT), Chicago, USA.

A Memorandum of Understanding (MoU) has been signed between Illinois Institute of Technology (IIT), USA and Rathinam Group of Institutions, Coimbatore on 28th August 2019 in Chicago.  
Dr Madan A Sendhil, Chairman of Rathinam Group and Darsh T. Wasan, Vice President, International Affairs of Illinois Institute of Technology USA exchanged the MoU in honing academic activities across Rathinam Technical Campus (RTC), Rathinam School of Architecture (RSA), Rathinam Institute of Management (RIM) and Rathinam College of Arts and Science (RCAS).
This MoU opens up the following opportunities for the Rathinam students to get overseas exposure and obtain degree from a top ranked American University, IIT Chicago.
1. Semester or Year Abroad for Undergraduate Students
2. 2+2 Bachelor’s program with Co-terminal (Bachelors And Masters)
3. Co-terminal Master’s Option
4. Summer Research Opportunities for Undergraduate Engineering and Science Students  
5. One and two years Master Program

The MoU has also opened up avenues for faculty and students in  research collaborations in niche areas of mutual interest and foster the exchange of academic publications and scholarly information.

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8 Courses After Mechanical Engineering That You Can Do

Now that you are done with your mechanical engineering, there are plenty of specializations that you can choose to further arm yourself with educational concepts and refine your expertise. So, what courses after mechanical engineering can one pursue? With so much out there, picking the right one can be time-consuming and overwhelming at the same time.

However, here is a list of great courses that you can consider.

Piping Design Engineering

Pipes make an intrinsic part of most infrastructural constructions, as they convey fluids from one part of the structure to another. The specialized engineering course focused on pipe engineering is referred to as piping design engineering, which varies from one project to the other.

It involves a multi-disciplinary knowledge, even including fluid mechanics, mechanical engineering and others. It is a specialized course that adds an advantage to the engineer’s expertise and makes his/her vocation highly specific & niche-oriented, thereby raising the demand.

Scope:
  • Oil & Gas Industry
  • Water industry
  • Auto CAD (pipe designing)
  • Stress Analysis

Tool Design Engineering

Tool design engineering is a unique field where engineers create plans for conceptualizing new tools or enhancing the existing equipment or instruments.

A tool design engineer is a niche expert in tool creation and mainly engages in drawing blueprints & outlines, communicates with engineers as well as manufacturers to understand the brief of the tool required. and ultimately, to design it to achieve the mechanical objective. The engineer needs to be creative as well as analytical to succeed in this field.

Scope:
  • Tool and machine designer
  • Plastic technology
  • Engineering graphics
  • Metrology
  • Gauge designer
  • Product drafters
  • CAD operators

Robotics Engineering

In simple terms, a qualified and professional engineer who works on conceptualizing, designing and developing a robot of any kind is a robotics engineer and his or her expertise is classified as robotic engineering.

The main aim of robotics engineering is to simplify manual intervention in various sectors like manufacturing, healthcare etc. by creating industry-specific robots that can execute the specified tasks effectively and precisely.

In order to create a robot, the engineers need to be well aware of mechanical engineering, control systems, electrical & electronics engineering, kinematics & dynamics, and software engineering.

Scope:
  • Robotic Scientist
  • Robotic Engineer
  • Robotic Technician
  • Space Research
  • Banking Industry
  • Healthcare

 Mechatronics

When it comes to the best courses after mechanical engineering, Mechatronics is certainly one of them. It is a unique combination of mechanical engineering, electronics, control, computer and systems design engineering, which caters to the industrial demand of automation & process response.

In this course, the engineers are responsible to design and develop machineries that include diverse modulations in sensing & control systems, automation & robotics, artificial intelligence & expert systems, transportation & vehicular systems, and computer integrated manufacturing systems.

Scope:
  • Transportation and Vehicle Systems
  • Power Devices
  • Biomedical Systems
  • Medical Mechatronics systems
  • Consumer Products
  • Heavy Engineering and Manufacturing Systems
  • Energy Devices
  • Telecommunication and Data Communication Networks
  • Computer Aided and Integrated Manufacturing Devices and Systems
  • Computer Techniques in Medical, Bioimaging and Technology Systems
  • Computer-Aided Design

Nanotechnology Engineering

A nanometer is the unit of measurement, which is equal to 10-9 m. Nanotechnology engineering, in a nutshell, is the practice of engineering executed at the nano level or nanoscale.

Since this form of engineering deals with the smallest elements of everything in existence, it can be used to help create new objects using the basic nature of cells or molecules or enhance the existing elements in natural as well as the artificial world for the betterment of mankind.

Such engineering is usually deployed in healthcare and food processing as nanotechnology engineers break down the complex system to nano units and enhance the processes to ensure their efficacy right from the beginning.

The engineers in this field have to be equipped with analytical skills, research ability, attention to detail, and sound mathematical skills with problem-solving abilities.

Scope:
  • Healthcare
  • Food & Beverage
  • Agriculture
  • Bio-Technology
  • Space Research
  • Genetics
  • Ecological Studies

Thermal Engineering

This is a highly specialized niche of mechanical engineering that focuses on the fundamentals of heat energy, its generation, and primarily, transfer between different mediums as well its transition into other forms of energy that can be leveraged for industrial growth.

A thermal engineer is trained to design and develop machines & systems that can sustain as well as convert energies from various sources and convert them into more easily deployed chemical, mechanical or electrical energy.

The entire segment heavily relies on the transfer of this heat energy from one form to another.

Scope:
  • Electronics industry
  • Energy generating plants
  • Renewable energy sector
  • Cryogenics
  • Hydel Plants
  • Nuclear Plants

Marine Engineering

Marine engineering is a diversified field of engineering that primarily works on design, development, manufacturing, and maintenance of sea-related equipment, ships, boats, and other vessels.

A marine engineer is responsible for the smooth and quick execution of these developed elements and deploys knowledge of mechanical engineering, water management etc.

Scope:
  • Naval Services
  • Private Shipping Organizations
  • Logistics
  • Renewable Energy Resource Sector
  • Oil & Gas Industry

Automobile Engineering

As the name suggests, automotive engineering is a branch of engineering that deals with design, conceptualization, development, manufacturing and innovation of new vehicles.

The engineers are supposed to be well versed with the knowledge of mechanical engineering, electrical engineering, and material science. They can design and innovate the engines, integrate a new technology, vehicle mechanism, and much more.

Scope:
  • Private transport organizations
  • Defense Industry
  • Government projects

So, these are a few lucrative courses that mechanical engineers can undertake to refine their career specifications further. These courses will help engineers attain the niche status, which will amplify their career growth and the earning prospects.

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The List of Engineering Courses After 12th

An engineering degree is one of the most popular choices for higher education. Each course has its own expertise and specialty that caters to specific industries or intrigues the mindset of the potential students. To help you understand this domain and assist you in making the right academic choice, we present to you, the list of engineering courses after 12th grade.

So, let’s get started.

List of Engineering Courses After 12th

Biomedical Engineering

One of the novel branches of technical studies, Biomedical engineering is a field that focuses on creating instruments to aid healthcare industry.

A multidisciplinary field of STEM, in this segment, engineers are taught about the basics of the healthcare sector as well the technical understanding required to create machines and several accessories that can simplify the process undertaken by various medical professionals.

Skill Development

• Understanding healthcare

• Understanding mechanical engineering pertaining to healthcare

Career Scope

• Clinical Engineer

• Bioinstrumentation Expert

• Orthopedic Bioengineer

• Biomaterials Expert

• Cellular, Tissue, and Genetic Engineer

• Medical Imaging.

• Biomechanics

• Rehabilitation Engineer

Computer Science & Engineering

One of the popular courses for the engineering aspirants, Computer Science & Engineering deals with an array of topics like programming, software development, program design, algorithm analysis, and computer hardware.

The concept of the much-talked about AI, machine learning, NLP and many others can be traced back to computer science and engineering. A computer science engineering develops software applications, codes, works on design and development of computer components.

Skill Development

• Programming knowledge

• Technical Innovation

• Networking & Security Development

Career Scope

• Software Development

• System Analyst

• AI expert

• Hardware Design & Development

• System Design & Development

• Network Engineers

• Machine Learning

Electronics & Communication Engineering

A blend of science & math, Electronics & Communication Engineering is a branch technical study where students are taught about the nuances of electronics & communication devices, applications and innovations.

They are armed with the knowledge of research, design, development, and testing of electronic devices used in an array of industries. The field is closely related to computer science where the latter further enhances the ability of the development and designing of the products.

Career Scope

• Understanding of Analog Transmission

• Expertise is microprocessors and micro controllers

• Satellite Communication

Career Scope

• Testing Engineer

• Electronics Engineer

• Radio Frequency Engineer

• Production Engineer

• Design Engineer

 Mechanical Engineering

One of the oldest and extensive field of engineering, mechanical engineering is a technical study machines, focused on their design, development and manufacturing. It is synchronized with the requirements and other external factors like environmental elements and its handling.

Mechanical engineering rests upon physics, engineering mathematics, and material science to develop and innovate new machineries that can streamline activities better.

Career Scope

• Effective technical skills

• The ability to work under pressure

• Interpersonal skills

• Problem-solving skills

• Teamworking skills

• Commercial awareness

• Creativity

• Verbal and written communication skills

Career Scope

• Aerospace Engineer

• Automobile Engineer

• Mechatronics Engineering

• Design Engineer

• Product Engineer

• Development Engineer

• Manufacturing Engineer

Information Technology Engineering

Information Technology is a branch of engineering that focuses on leveraging computers and telecommunications to enable the flow of information among the organizational stakeholders.

This segment encompasses software as well as hardware expertise. The expertise in this field can help engineers stay in sync with the growing sectors of e-Commerce and many novel fields.

However, this innovation can also lead to extreme pressure, as the technology is constantly developing, propelling the experts to constantly learn and stay in sync with the scenario. However, this can be regarded as a learning opportunity as well.

Skill Development

• Coding

• Communication

• Networking

• Time Management

Career Scope

• AutoCAD Drafter

• Computer Systems Analyst

• Database Administrator

• Computer Programmer.

• Chief Information Officer

• Computer Animator.

• Computer Scientist.

• Data Scientist.

….. and many more

Civil Engineering

Civil engineering is one of the oldest engineering branches that specializes in design, construction, and infrastructural development. In this subject, engineers are introduced to the nuances of construction of diverse structures like buildings, roads, damns, treatment plants and many more.

They are taught about the concept of construction materials, force, land surveying, and analysis of building any structure to make it stronger & reliable as well as cost effective without compromising on the quality.

Career Scope

• Structural Analysis

• Designing

• Foundational expertise

Career Scope

• Construction Engineer

• Project Engineer

• Railway Engineer

• Environmental Engineer

• CAD Technician

• Nuclear Engineer

• Structural Engineer

• Transportation Engineer

• Urban Planning Engineer

• Quantity Surveyor

Chemical Engineering

Chemical engineering combines the principles of chemistry, mathematics, physics, biology and mathematics to develop and use chemicals for useful processes of daily lives. These chemicals are developed to be cost efficient, easily transportable and deployable for various uses.

Chemical engineer’s expertise is not limited to chemical creation but also dabbles with plant designing & operation, process design, control engineering, chemical reaction engineering, biological engineering, outlining construction specification, and operating instructions.

Skill Development

• Analytical & problem-solving ability

• Resource management skills

• Chemical knowledge

• Project management

Career Scope

• Chemical engineer

• Nuclear engineer

• Product/process development scientist

• Energy engineer

• Petroleum engineer

Automobile Engineering

As the name suggests, automobile engineering is a discipline of engineering that is focused upon design, manufacturing and operating of automobiles. It is constantly at the cusp of innovation and rests upon electrical, mechanical, software electronic, and safety elements.

Skill Development

• Applied physics

• Design knowledge

• Electrical systems

• Applied chemistry

Career Scope

• Automobile Technicians

• Car Mechanics

• Automobile Designer

• Bike Mechanics

• Diesel Mechanics

• Executive and Managerial Positions

Marine Engineering

Marine engineers design vessels that are used to navigate and explore the world’s water bodies. Marine engineers’ are a reinforcement for international trade, naval defense, environmental research, and resource extraction.

Skill Development

• Mechanical skills

• Problem-solving skills

• An eye for detail

• Good communication skills.

• Decision-making ability

Career Scope

• Ship engineer

• Naval Ships Consultant

 

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6 Best Types Of Engineering Courses To Study

While some of the degree programs are existential, others are new in their approach. Let us look at some of the best types of engineering courses in India that are gaining popularity and building the foundations of ‘”Make in India.”

6 Different Types Of Engineering Courses In India

With India on the world map for startup and innovation, it is a major push for several technical institutions to explore programs that will fire the cognitive abilities of the student population and motivate them to create something new.

Computer Science and Engineering

Since we are the cusp of technical innovation, we cannot negate the importance of Computer Science and Engineering, an academic program that is the most sought after courses in the Indian technical education.

Features:
In this course, students are introduced to the following:

Theory: More commonly known as the CS theory, this part of computer engineering helps create algorithms, equations, and many other foundations for innovations as well as discoveries that are relayed in our daily lives. Cryptography is yet another growing area of this field, which involves high-level mathematics.

Hardware: Building chips, processors, and circuits to name a few are what comprises the “hardware” section of computer engineering.

Networking: Ranging from domestic to high intelligence government systems, networking plays an important role in establishing secure links.

Graphics: This arena includes data visualization, which helps analyze and encrypt several complex data. This also extends to the creative realm of animation.

Programming Language: Probably, one of the most heard of segments, programming languages set the base of any software, modules, and programs.

Software Engineering: It is a mix of programming languages, graphics, coding, and much more. This segment deals with creating unique software that is custom made for specific purposes.

Systems: Systems is an all-encompassing study of the computer, a combination of input, output, process, and store data.

Artificial Intelligence: One of the most commonly known element, AI is a mix of machine learning, Natural Language Understanding (NLU), Natural Language Processing (NLP), and Natural Language Generation (NLG), aimed at creating human-like interactions and experiences by machines. A lot needs to be done in this segment.

Mechanical Engineering

Mechanical engineering is a discipline the applies theoretical knowledge to the functioning of the world and create innovations that are in sync with development. It rests upon the principles of physics, mathematics, and material science to analyze, develop, design, manufacture and operate machinery.

Features:

Robotics: In this, the engineer will learn about designing and creating robots that react to their surroundings and instructions given. These robots can range from simple designs to highly complicated ones designed for large scale activities.

Thermodynamics: Thermodynamics is the study of energy and if you are interested in this subject, then your area of expertise will revolve around understanding various forms of energy and its conservation. It can range from heat to refrigeration to fluid mechanics.

Nanotechnology: Nanotechnology engineering specialize in nanoparticles, which are of the size 10-9 m. These studies help to understand the building blocks of the world and apply practical skills to a category of substances that are very different from what we usually see.

Manufacturing: Perhaps the most common of all, manufacturing includes a variety of specialization, ranging from design & development of machines to research and testing.

Rathinam Technical Campus’s Engineering +3 comprises of Entrepreneurship Training from EDII Centre of Excellence, IOT & Embedded System Programming with Texas Instruments and NSDC certification in Big Data training, Robotics programming, and 3D design & visual training.

Electronics and Communication Engineering

The field of ECE deals with electronic circuits, electronic devices, communication equipment such as transmitters, receivers, and IC (Integrated Circuits). The study and applications revolve around basic electronics, digital and analog transmission & reception of voice, video, and data, satellite communication, microprocessors, antennae, wave progression, and microwave engineering.

Features:

Electromagnetics: It is a study of electromagnetic forces, a type of energy between charged particles.

Electronics: Blending the physics, engineering, technology and applications that study emission, flow and control of electrons in vacuum and matter.

Electrical circuits and machines: It is the study of electrical circuits and machines and the flow of energy within them.

Signals and systems: Studying the input and output of signals from systems and their effects.

Digital signal processing: It is the deployment of digital processing such as computers or other elements to perform diverse signal processing operations.

Civil Engineering

Civil Engineering is one of the four major branches of engineering which deals with design, construction, and maintenance of infrastructures that can range from commercial properties to treatment plants and many others. The discipline also deals with the different types of materials to be used in the construction process and technology that can help ease the process of development.

Features:

Structural Engineering: In this discipline, students are introduced to the study of the strength of structures and how to make them more durable.

Environmental Engineering: This element deals with the study of the construction of treatment plants, water resource engineering, and many others.

Geotechnical Engineering: Geotechnical engineering is the study of the ground where the entire infrastructure will be laid upon.

Planning and Development: This study deals with setting up of townships, villages, and cities while ensuring seamless amenities.

Transportation Engineering: The world is connected via transportation and transportation engineering helps in laying down the plans for these.

Chemical Engineering

Chemical engineering is a branch of the engineering tree where students are introduced to the blended concepts of chemistry, physics, mathematics, biology, and economics to optimize the production and deployment of chemicals in an array of business sectors. This branch also deals with the development of chemicals and energy transfusion as a result.

Features:

Biochemical engineering: A study of the foundations of chemical engineering.

Biomedical engineering: A multi-disciplinary field that combines the STEM expertise.

Chemical process modeling and design: A computer modeling technique to help use chemical knowledge practically.

Materials science and technology: This discipline involves the production of goods from raw materials to the processing of materials into the shapes and forms needed for specific applications.

Rubber technology: This deals with the transformation of rubber and various types and productions used in diverse sectors.

Bio-Medical Engineering

Next on the list of types of engineering courses in India is the Bio-medical engineering, a branch where the students learn about creating and calibrating instruments used in the healthcare industry. This discipline also paves the way for development of new devices.

Features:

• Surgical Instrument and Medical Devices

Tissue Engineering: Creation of tissues and tissue materials from failing body parts.

Biomaterials: Man made materials created to mimic human anatomy and fit in the natural biological mold.

Neural Engineering: Study of interaction between the body’s nervous system and the artificial medical devices.

Biomechanics: It is the study of the body and its movements.

Telehealth: The study of blending technology with medical care to deliver healthcare services.

Biosignal Processing: The study of analyzing and measuring the signals that the body gives off and determining the overall health.

Medical Imaging: Medical image provides an internal view of the body which can improve the accuracy of diagnosis and treatment.

 

 

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