Mechanical engineering is one of the best career choices for the future. Mechanical engineers create and test technology that creates the world around us, like cars, planes, robotics and medical devices. Mechanical engineering majors will learn how to communicate clearly with other engineers who speak different languages, how to work in teams, and how to design solutions that meet customer’s needs.
Mechanical engineering is a career that involves designing and creating mechanical devices and machinstes, such as machine tools, engines, and turbines to perform work. The career of an engineer requires an understanding of basic sciences such as mechanics, thermodynamics , electronics , and materials science . It also requires the ability to read and interpret scientific graphs and formulas. Browse through our articles to learn more about the best mechanical engineering field for the future.
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Best Engineering Courses For The Future
Engineering is one of the most opted degree courses after class 12th. With its roots widely spread in the majority of domains like Civil, Computer Science, Electrical, Mechanical, etc, the career prospects in this field are immense. But with more students enrolling in the above-mentioned courses, the competition both in terms of securing admission and getting a job has inevitably increased.
Apart from the traditional engineering branches, there is an array of emerging courses that offer a plethora of job opportunities. Thus, in this blog, we will shed light on some of the best engineering courses for the future!
- Computer Science and Engineering
- Mechanical Engineering
- Electrical Engineering
- Solar Engineering
- Wind Energy Engineering
- Environmental Engineering
- Marine Engineering
- Information Security
- Software Development
- Biomedical Engineering
- Civil Engineering
- Aerospace Engineering
- Chemical Engineering
- Electrical and Electronics Engineering
- Petroleum Engineering
- Telecommunication Engineering
- Machine Learning and Artificial Intelligence
- Robotics Engineering
- Biochemical Engineering
What will be the future of mechanical engineer?
Employment of mechanical engineers is projected to grow 4 percent from 2019 to 2029, about as fast as the average for all occupations. Mechanical engineers can work in many industries and on many types of projects. … These engineers will play key roles in improving the range and performance of hybrid and electric cars. Read more about the future trends mechanical engineering in this post.
Is there a demand for a mechanical engineer in the future?
Employment of mechanical engineers is projected to grow 7 percent from 2020 to 2030, about as fast as the average for all occupations.
What is the future of mechanical engineering 2025?
According to research, the number of IoT devices online will rise to 75 billion by 2025. This means the future mechanical engineer must be ready for a new age of simulations and integrated design processes, both of which will make workflows more streamlined.
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Types of mechanical engineering
Biomedical and Engineering Fluid Mechanics
This field of study is based on the fundamentals of fluid mechanics and their broad range of applications in the biomedical and engineering arenas. Areas of current research include blood circulation in the body and its potential role in the regulation of normal physiological function and in the development of disease; groundwater and atmospheric flows and their implications for pollutant transport and environmental concerns; aerodynamic flow around transportation vehicles and its impact on vehicle performance; and flow in combustion engines and other energy systems with considerations of efficiency and environmental impact. These areas are investigated both experimentally and computationally.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Aerospace Science and Engineering 138; Engineering 160; Chemical Engineering 161A, 161B; Civil and Environmental Engineering 144, 149; Mechanical Engineering 161, 163.
Combustion and the Environment
Combustion is widely used for energy generation, propulsion, heating and waste disposal, as well as for many other applications. Mechanical engineers are often heavily involved with the design of combustion systems (internal combustion engines, gas turbines, furnaces, etc.) and deal with aspects of combustion ranging from increasing efficiencies to reducing pollutant emissions.
This area of interest is designed for those who would like to work in fields that use combustion, or that deal with pollution related to combustion. With the current increased emphasis on reducing pollutants while efficiency is maintained or increased, mechanical engineers are becoming increasingly important in designing and improving combustion systems.
The program of study focuses on basic aspects of combustion, such as the properties of flames and fuels and pollution; applications of combustion to practical systems like engines and burners; design and optimization of systems that use combustion; and environmental considerations like pollution generation, control, transport and effect.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Mechanical Engineering 161, 163; Civil and Environmental Engineering 149, 150.
Ground Vehicle Systems
The design of surface vehicles is an aspect of mechanical engineering that emphasizes the development of more environmentally-benign vehicles that can provide transportation while using fewer resources. Innovations in this field require competence in vehicle dynamics, propulsion and engine concepts, control of power transmission and construction of lightweight manufacturable structures and systems. Researchers in this field also study alternatively-fueled power systems, including electric drives.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Aerospace Science and Engineering 127, 129; Civil and Environmental Engineering 130, 149, 163; Engineering 122, 160; Mechanical Engineering 121, 134, 139, 152.
Heat Transfer, Thermodynamics and Energy Systems
This area of interest emphasizes the fundamentals of heat transfer and thermodynamics and their application to the design of advanced engineering systems. The objective of this program of study is to introduce the fundamental processes of heat transfer and thermodynamics in complex engineering systems to enable more efficient, cost-effective and reliable designs with less environmental pollution and impact.
An understanding of heat transfer and thermodynamics is required for the design of efficient, cost-effective systems for power generation (including advanced energy conversion systems), propulsion (including combustion engines and gas turbines), heat exchangers, industrial processes, refining and chemical processing. This area of interest is important to many industries—aerospace, defense, automotive, metals, glass, paper and plastic, as well as to the thermal design of electronic and computer packages.
Suggested courses (NOTE: courses are approved to satisfy Restricted Elective requirement): Aerospace Science and Engineering 138; Mechanical Engineering 161, 163, 164.
Manufacturing is the process of converting raw materials into products. A major activity of mechanical engineers is studying and working with various production methods and techniques, integrating creative design activities into actual fabricated products. The manufacturing program provides hands-on experience with state-of-the-art and computer-integrated processes and manufacturing methods.
Laboratories have state-of-the-art manufacturing equipment for conventional and non-traditional machining, three-dimensional measurement and plastic injection molding. The program also emphasizes computer-oriented manufacturing. A manufacturing engineer will have a solid background in manufacturing processes and systems, as well as in statistics, design, controls and applications of microprocessors.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Biomedical Engineering 118; Electrical and Computer Engineering 160; Materials Science and Engineering 180, 181; Mechanical Engineering 150B, 151, 154.
Creating and improving products, processes or systems that are mechanical in nature are the primary activities of a professional mechanical engineer. Mechanical design involves product development from concept generation to detailed design, manufacturing process selection and planning, quality control and assurance and life-cycle considerations.
Solutions to major social problems such as environmental pollution, energy shortages and a lack of mass transportation and of raw materials will depend heavily on the engineer’s ability to create new types of machinery and mechanical systems. An engineer-designer must have a solid and relatively broad background in the basic physical and engineering sciences and have the ability to solve a variety of problems. In addition to having technical competence, mechanical designers must be able to consider the socio-economic consequences of a design and its possible impact on the environment, as well as its safety, reliability and economics.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Aerospace Science and Engineering 133; Biological Systems Engineering 114, 120, 165; Biomedical Engineering 118; Engineering 122, 160; Materials Science and Engineering 180, 181, 182; Mechanical Engineering 121, 134, 139, 150B, 151, 152, 154, 161, 163.
System Dynamics and Control
Engineers are increasingly concerned with the performance of integrated dynamics systems in which it is not possible to optimize component parts without considering the overall system. System dynamics and control specialists study the modeling, analysis and simulation of all types of dynamic systems and the use of automatic control techniques to change the dynamic characteristics of systems in useful ways. This program emphasizes physical systems that are closely related to mechanical engineering, but the techniques for studying these systems apply to social, economic and other dynamic systems.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Aerospace Science and Engineering 129, 141; Electrical and Computer Engineering 160; Engineering 122; Mechanical Engineering 121, 134, 139, 152.
An important aspect of mechanical engineering is the planning, design, and operation of transportation systems. As society recognizes the increasing importance of optimizing transportation systems to minimize environmental degradation and energy expenditure, engineers will need to consider major innovations in the way people and goods are moved. These innovations will require competence in vehicle dynamics, propulsion and control, and an understanding of the problems caused by present-day modes of transportation.
Suggested courses (NOTE: courses may or may not apply to major requirements; check with a major advisor): Aerospace Science and Engineering 127, 129; Biological Systems Engineering 114, 120; Civil and Environmental Engineering 131, 149, 161, 163, 165; Engineering 122, 160; Mechanical Engineering 134, 150B, 161, 163.
Best Mechanical Engineering Field For The Future
These new subject areas, which are the result of modern advancements, are prerequisites for several emerging and promising fields, including artificial intelligence, biomechatronics, and nanotechnology. Some of the areas where mechanical engineers are expected to be in high demand include:
The transportation sector continues to generate the largest share of greenhouse gas emissions in the United States. Mounting pressures to use alternative sources of energy has helped to fuel the rise of electric vehicles. While mechanical engineers have always been essential in the automotive industry, their role is crucial now more than ever.
Replacement of the traditional internal combustion engine with cleaner, battery-powered systems brings new challenges regarding torque and energy loss, and the design of mechatronics to support new electrical systems.
Furthermore, as vehicle manufacturing becomes more automated, mechanical engineers will be front and center in the design of robotics and assembly lines.
Nanotechnology refers to the manipulation of materials at the smallest level. This rapidly growing field is one that offers abundant opportunities for mechanical engineers.
In the years ahead, mechanical engineers are expected to be integral in using nanotechnology to:
- Create stronger composite materials
- Develop superior renewable energy storage systems
- Create advanced biomedical devices
Mechanical engineers will be primarily involved in the design of mechanical sensors, controllers, and actuators for biomedical devices used in prosthetics and miniature medical implants. In addition to the medical field, research is also being carried out on the use of biomechatronics in the military industry.
Manufacturing is an ever-evolving field. Mounting pressures to increase production efficiency while minimizing operating costs have fueled demand for new and innovative technologies.
The role of mechanical engineers in robotics is taken a step even further with the rapid growth of biomechatronics. This field, which seeks to merge body and machine, involves the design and testing of complex and intricate device architectures that mimic the body’s musculoskeletal design.
Automation and robotics (an area in which mechanical engineers are crucial) continue to be essential in helping manufacturing industries keep up with consumer demand while maximizing profit.
However, according to Huffington Post, despite the exponential growth of the manufacturing industry, many U.S. manufacturers are finding difficulty filling vacant positions for skilled workers, engineers included. This industry is therefore ripe with opportunities for professionals with mechanical engineering degrees.
While new technologies have no doubt changed the engineering landscape, the future looks bright for the mechanical engineering industry. New fields of study and subject areas will favor engineering graduates. Practicing professionals, however, will need to keep up-to-date with current and future advancements to avoid being left behind.
Future skills for mechanical engineer
Mechanical engineers can work on components and equipment for many industries including healthcare, power, transport and water.
Achieving chartered (CEng) status with the Engineering Council can help to demonstrate your professionalism and commitment to your field. To become chartered, you will need an accredited bachelors degree in engineering or technology, plus an appropriate masters degree (MEng) or doctorate (EngD) accredited by a professional engineering institution such as the Institution of Mechanical Engineers (IMechE). You will also be eligible with an integrated MSc. To find out more, take a look at our guide to chartership.
Key skills for mechanical engineers
- effective technical skills.
- the ability to work under pressure.
- problem-solving skills.
- interpersonal skills.
- verbal and written communication skills.
- commercial awareness.
- teamworking skills.
Mechanical Engineering Courses
Mechanical Engineering is a field that requires both a strong academic foundation in essential concepts as well as continued development of professional practice. Universities and academic institutions around the world offer courses in Mechanical Engineering, which focus on the most up-to-date techniques, practices, concepts and equipment in a range of areas relevant to mechanical engineering.
Course in Marine Renewable Energy
University Centre of the Westfjords
This course in Marine Renewable Energy provides an overview of the marine renewable energy sector by focusing on the history of marine renewable energy development, environmental effects, marine spatial planning, device technology, and transmission issues, finance and risk mitigation, socio-cultural impacts, and stakeholder and community engagement. Students will explore these issues through case studies focusing on the Bay of Fundy (Nova Scotia, Canada) and the Orkney Islands (United Kingdom). The course is grounded in theory and applied learning opportunities that enable students to assess marine renewable energy issues through professional tools and other applied resources.
One Year Course in Car Design Tools
Scuola Politecnica di Design SPD
The One Year Course in Car Design Tools is designed to transfer a complete understanding of automotive strategy, planning and the relevant design techniques.
Graduate Certificate in Enhanced Practice for Internationally Educated Nurses – Complex Care (CCNI)
In this program, Internationally Educated Nurses (IENs) enhance their knowledge and understanding of nursing practice in complex care environments in Ontario by developing their theoretical and clinical skills. Individuals with complex care needs often suffer from combinations of multiple chronic conditions, mental health problems, drug interactions and social vulnerability.
Using an interprofessional approach, students focus on the application and evaluation of advanced theories and practices related to ethical and legal issues, pharmacology, advanced health assessment, mental health nursing practice, complex health challenges, clinical decision making, communication, cultural diversity and sensitivity.
Experienced nursing faculty use a variety of active learning methods, including simulation labs and a practicum placement to assist IENs to consolidate their understanding of healthcare in Canada and the nursing profession in Ontario. In order to provide a quality practicum placement, students will be placed in a variety of settings. Students are required to provide their own transportation for the practicum.
Aerospace Engineering Techniques / Dec-Bac in Aerospace Engineering 280.B0
École nationale d’aérotechnique
This program will teach you how to design and manufacture aircraft parts using a computer (CAD-CAM); plan the manufacturing and assembly stages of aircraft, engines and other components; Shaping aircraft structural elements into composite materials and sheet metal parts collaborate in production process planning, quality control and testing; develop assembly books.
This program will ensure you become an expert at using industry-standard audio software and equipment to create the ultimate sounds for live events. You will also learn about contracts and how to organize the best music festivals to help you stand out in a crowded job market. Whatever your goals are, you’ll get theoretical and practical skills, and can take advantage of an internship in your third semester. Upon graduation, you’ll gain versatile skills which can be adapted to different venues and events.
Pipe Stress (I) Program
The International Institute Of Plant Engineering And Design
Netherlands Online, Netherlands
The flexibility analysis of piping systems is carried out by skilled persons within engineering companies. The course is created and conducted by qualified professional engineers and is based on years of experience. The purpose of this course is to train flexibility analysis, to engineers with some years of experience in the piping discipline.
Aircraft Maintenance Engineering
Technical College Reykjavik
Aircraft maintenance engineering offers many job opportunities all across the country as well as abroad. Graduates from Technical College Reykjavík have gone on to work for Icelandair, the Icelandic coast guard and Air Atlanta, among others. The field offers many opportunities for continuing education and expanding your knowledge.
Manufacturing Engineering (Part II course)
University of Cambridge School of Technology
Cambridge, United Kingdom
Successful, wealth-creating industries are increasingly managed by engineers with an appropriately broad education and training. Manufacturing engineers naturally have particular expertise in the design and operation of manufacturing facilities, but increasingly their role is as leaders of multidisciplinary teams.
Solar Photovoltaic Technician
Canadian College Of Health, Science & Technology
Solar energy technicians, also known as Solar Photovoltaic (PVT) Technicians, are generally responsible for installing, fixing, and maintaining solar energy systems that provide solar power.
Ogden-Weber Technical College
Join the high-tech world of composites! Employer demand is outpacing trained individuals. Hundreds of jobs are available, with more coming in the future. In as little as six months, you could be working in aerospace, recreation, or other industries using advanced composites.
Ship design and manufacturing
Jiangsu University of Science and Technology
Shipbuilding and ocean engineering have been continuously included in the first and second phases of the superior discipline construction project of Jiangsu universities. The disciplines of advanced materials and processing technology and management science and information engineering are cross-disciplines of provincial project construction, integrating the advantages of multiple colleges.
Franklin W. Olin College Of Engineering
In Design Nature, every Olin student gets mechanical engineering experience by designing a toy that hops or swims (mechanical design), building a working prototype of that toy (fabrication), and modeling and predicting the behavior of a system like a monkey swinging from a tree to tree or an exploding fireworks shell (mechanical and thermal analysis).
Lurleen B Wallace Community College
Yesterday’s automobiles were simple and fun. Backyard muscle car mechanics were plentiful back then, but really well-trained professional technicians with the skills to straighten out those really tough problems have always been scarce.
Ableton Live Course
Recording Connection Audio School
Los Angeles, USA +44 More
A thorough working knowledge of Ableton Live is essential if you’re planning to be an electronic musician or club DJ. With its combination of powerful on-board virtual instruments, powerful arrangement tools and live-performance capabilities, Ableton is uniquely suited to the needs of today’s electronic musician