What is mechanical engineering
What is mechanical engineering
What is Mechanical Engineering?
By Jim Lucas published 26 August 14
Mechanical engineering is one of the oldest branches of engineering, dating back to when the first wheels were put to practical use by mounting them on an axle to make a cart. Throughout recorded history, people have been inventing and building increasingly more sophisticated devices and machines in order to improve the conditions of life. Many of the machines we encounter every day — cars, appliances, tools and climate control systems — were made possible by mechanical engineers.
«Mechanical engineering dates to ancient Greece and China, where mechanisms like screw pumps, steam engines, clocks, seismometers and even differential gears were invented,” according to the American Society of Mechanical Engineers (ASME). Pioneers in the field — people who built the machines for which they became famous — include Archimedes (Archimedes’ screw pump, block-and-tackle pulley, etc.), Johannes Gutenberg (movable-type printing press), James Watt (steam engine), Robert Fulton (steamboat), Eli Whitney (cotton gin) and Henry Ford(automobile assembly line).
One of the most significant drivers of innovation in the field of mechanical engineering, particularly in its earliest stages, has been war, according to the Viterbi School of Engineering at the University of Southern California.
“Mechanical engineers can create basic commodities that an every-day person would use, or other highly valued items for the military or government,” the school’s website states. Catapults, battering rams, chariots and siege towers were all the products of mechanical engineering. Many of the machines of modern warfare, such as armored vehicles, ships, aircraft, artillery and firearms, also owe their existence to mechanical engineers.
What does a mechanical engineer do?
Simply put, «mechanical engineering deals with anything that moves,» according to the Fu Foundation School of Engineering and Applied Science at Columbia University. Mechanical engineers still use basic components that have been known and used for centuries — such as wheels, axles, levers, screws, springs and hinges — to make machines such as vehicles, farm machinery, household appliances, robots and industrial equipment. Mechanical engineers also design sub-assemblies for these machines, including control systems and instruments as well as individual parts.
Movement can be powered by the muscles of humans or animals, heat and pressure of combustion, hydraulic or pneumatic actuators, electromagnetism, gravity or springs of all shapes and sizes. Therefore, a mechanical engineer must be familiar with all of these basic motion and power components in order to design more complex devices. For instance, in an automobile, the starter motor uses electromagnetism; the engine is powered by expansive pressure from the combustion of gasoline; the power steering, brakes and automatic transmission use hydraulic pressure; and the suspension system uses springs.
Mechanical engineering is one of the broadest engineering disciplines, according to the U.S. Bureau of Labor Statistics (BLS). Mechanical engineers must have a basic working knowledge of many other areas of engineering, including structural, aerospace, computer and electrical engineering. Additionally, they should be familiar with instrumentation and control, manufacturing processes and materials in order to design devices that can be built efficiently and at a reasonable cost.
Critical skills needed in mechanical engineering are an in-depth understanding of physics, mathematics and materials. This knowledge allows engineers to calculate failure conditions based on the dimensions of a part, the properties of its material and the conditions under which it will operate. An engineer can then specify the required dimensions and materials of a part so it can withstand a given force.
Engineers work with many types of materials, including metals, ceramics, polymers and composites. In «Mechanical Behavior of Engineering Materials» (Springer, 2007), Joachim Roesler, Harald Harders and Martin Baeker write that it is very important for mechanical engineers to study the mechanical behavior of materials. Knowing the properties of these materials, such as their density, hardness, tensile strength, bulk modulus and bending strength, allows mechanical engineers to calculate how these materials will perform under stresses such as compression, tension, bending and twisting as well as under various environmental conditions of temperature, pressure, corrosive gasses and liquids, and even radiation. They also need to be able to predict how these materials will stand up over an extended period of time.
More and more, mechanical engineers rely on computer-aided design (CAD) and computer-aided manufacturing (CAM) systems, so proficiency with computers is essential. According to theUniversity of Pittsburgh website, «To design all the machines that use and produce power, today’s mechanical engineers use CAD/CAM drawing programs to draft their designs exactly before any manufacturing and testing is done.» In addition to speeding up the drafting process, CAD systems allow for quick and easy modifications of designs, three-dimensional (3D) visualization of finished parts and assemblies, and rapid prototyping using 3D printing and computer-aided manufacturing (CAM) software with computer numeric controlled (CNC) machine tools. A comprehensive list of necessary skills and abilities for mechanical engineers can be found at MyMajors.com.
Mechanical engineering jobs and salary
According to the BLS, «Mechanical engineers generally work in professional office settings. They may occasionally visit worksites where a problem or piece of equipment needs their personal attention. Mechanical engineers work mostly in engineering services, research and development, manufacturing industries, and the federal government.»
For most jobs, mechanical engineers need at least a bachelor’s degree in engineering, and many employers, particularly those that offer engineering consulting services, also require certification as a Professional Engineer. A master’s degree is often required for promotion to management, and ongoing education and training are needed to keep up with advances in technology, materials, computer hardware and software, and government regulations. Additionally, many mechanical engineers belong to the American Society of Mechanical Engineers.
The field of mechanical engineering is expected to grow. The BLS states, «Employment of mechanical engineers is projected to grow 5 percent from 2012 to 2022, slower than the average for all occupations. Job prospects may be best for those who stay abreast of the most recent advances in technology.» Having good grades from a highly rated institution should give a job seeker an advantage over the competition.
Look for top-rated mechanical engineering programs at TopUniversities.com.
Jim Lucas is a freelance writer and editor specializing in physics, astronomy and engineering. He is general manager of Lucas Technologies.
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Read a brief summary of this topic
mechanical engineering, the branch of engineering concerned with the design, manufacture, installation, and operation of engines and machines and with manufacturing processes. It is particularly concerned with forces and motion.
History
The invention of the steam engine in the latter part of the 18th century, providing a key source of power for the Industrial Revolution, gave an enormous impetus to the development of machinery of all types. As a result, a new major classification of engineering dealing with tools and machines developed, receiving formal recognition in 1847 in the founding of the Institution of Mechanical Engineers in Birmingham, Eng.
Mechanical engineering has evolved from the practice by the mechanic of an art based largely on trial and error to the application by the professional engineer of the scientific method in research, design, and production. The demand for increased efficiency is continually raising the quality of work expected from a mechanical engineer and requiring a higher degree of education and training.
Mechanical engineering functions
Four functions of the mechanical engineer, common to all branches of mechanical engineering, can be cited. The first is the understanding of and dealing with the bases of mechanical science. These include dynamics, concerning the relation between forces and motion, such as in vibration; automatic control; thermodynamics, dealing with the relations among the various forms of heat, energy, and power; fluid flow; heat transfer; lubrication; and properties of materials.
Second is the sequence of research, design, and development. This function attempts to bring about the changes necessary to meet present and future needs. Such work requires a clear understanding of mechanical science, an ability to analyze a complex system into its basic factors, and the originality to synthesize and invent.
Third is production of products and power, which embraces planning, operation, and maintenance. The goal is to produce the maximum value with the minimum investment and cost while maintaining or enhancing longer term viability and reputation of the enterprise or the institution.
Fourth is the coordinating function of the mechanical engineer, including management, consulting, and, in some cases, marketing.
In these functions there is a long continuing trend toward the use of scientific instead of traditional or intuitive methods. Operations research, value engineering, and PABLA (problem analysis by logical approach) are typical titles of such rationalized approaches. Creativity, however, cannot be rationalized. The ability to take the important and unexpected step that opens up new solutions remains in mechanical engineering, as elsewhere, largely a personal and spontaneous characteristic.
Branches of mechanical engineering
Development of machines for the production of goods
The high standard of living in the developed countries owes much to mechanical engineering. The mechanical engineer invents machines to produce goods and develops machine tools of increasing accuracy and complexity to build the machines.
The principal lines of development of machinery have been an increase in the speed of operation to obtain high rates of production, improvement in accuracy to obtain quality and economy in the product, and minimization of operating costs. These three requirements have led to the evolution of complex control systems.
The most successful production machinery is that in which the mechanical design of the machine is closely integrated with the control system. A modern transfer (conveyor) line for the manufacture of automobile engines is a good example of the mechanization of a complex series of manufacturing processes. Developments are in hand to automate production machinery further, using computers to store and process the vast amount of data required for manufacturing a variety of components with a small number of versatile machine tools.
Development of machines for the production of power
The steam engine provided the first practical means of generating power from heat to augment the old sources of power from muscle, wind, and water. One of the first challenges to the new profession of mechanical engineering was to increase thermal efficiencies and power; this was done principally by the development of the steam turbine and associated large steam boilers. The 20th century has witnessed a continued rapid growth in the power output of turbines for driving electric generators, together with a steady increase in thermal efficiency and reduction in capital cost per kilowatt of large power stations. Finally, mechanical engineers acquired the resource of nuclear energy, whose application has demanded an exceptional standard of reliability and safety involving the solution of entirely new problems (see nuclear engineering).
The mechanical engineer is also responsible for the much smaller internal combustion engines, both reciprocating (gasoline and diesel) and rotary (gas-turbine and Wankel) engines, with their widespread transport applications. In the transportation field generally, in air and space as well as on land and sea, the mechanical engineer has created the equipment and the power plant, collaborating increasingly with the electrical engineer, especially in the development of suitable control systems.
Development of military weapons
The skills applied to war by the mechanical engineer are similar to those required in civilian applications, though the purpose is to enhance destructive power rather than to raise creative efficiency. The demands of war have channeled huge resources into technical fields, however, and led to developments that have profound benefits in peace. Jet aircraft and nuclear reactors are notable examples.
Environmental control
The earliest efforts of mechanical engineers were aimed at controlling the human environment by draining and irrigating land and by ventilating mines. Refrigeration and air conditioning are examples of the use of modern mechanical devices to control the environment.
What Is Mechanical Engineering?
Technically, mechanical engineering is the application of the principles and problem-solving techniques of engineering from design to manufacturing to the marketplace for any object. Mechanical engineers analyze their work using the principles of motion, energy, and force—ensuring that designs function safely, efficiently, and reliably, all at a competitive cost.
Mechanical engineers make a difference. That’s because mechanical engineering careers center on creating technologies to meet human needs. Virtually every product or service in modern life has probably been touched in some way by a mechanical engineer to help humankind.
This includes solving today’s problems and creating future solutions in health care, energy, transportation, world hunger, space exploration, climate change, and more.
Being ingrained in many challenges and innovations across many fields means a mechanical engineering education is versatile. To meet this broad demand, mechanical engineers may design a component, a machine, a system, or a process. This ranges from the macro to the micro, from the largest systems like cars and satellites to the smallest components like sensors and switches. Anything that needs to be manufactured—indeed, anything with moving parts—needs the expertise of a mechanical engineer. Become a mechanical engineer.
What do mechanical engineers do?
Mechanical engineering combines creativity, knowledge and analytical tools to complete the difficult task of shaping an idea into reality.
This transformation happens at the personal scale, affecting human lives on a level we can reach out and touch like robotic prostheses. It happens on the local scale, affecting people in community-level spaces, like with agile interconnected microgrids. And it happens on bigger scales, like with advanced power systems, through engineering that operates nationwide or across the globe.
Mechanical engineers have an enormous range of opportunity and their education mirrors this breadth of subjects. Students concentrate on one area while strengthening analytical and problem-solving skills applicable to any engineering situation.
Disciplines within mechanical engineering include but are not limited to:
Technology itself has also shaped how mechanical engineers work and the suite of tools has grown quite powerful in recent decades. Computer-aided engineering (CAE) is an umbrella term that covers everything from typical CAD techniques to computer-aided manufacturing to computer-aided engineering, involving finite element analysis (FEA) and computational fluid dynamics (CFD). These tools and others have further broadened the horizons of mechanical engineering.
What careers are there in mechanical engineering?
Society depends on mechanical engineering. The need for this expertise is great in so many fields, and as such, there is no real limit for the freshly minted mechanical engineer. Jobs are always in demand, particularly in the automotive, aerospace, electronics, biotechnology, and energy industries.
Here are a handful of mechanical engineering fields.
In statics, research focuses on how forces are transmitted to and throughout a structure. Once a system is in motion, mechanical engineers look at dynamics, or what velocities, accelerations and resulting forces come into play. Kinematics then examines how a mechanism behaves as it moves through its range of motion.
Materials science delves into determining the best materials for different applications. A part of that is materials strength—testing support loads, stiffness, brittleness and other properties—which is essential for many construction, automobile, and medical materials.
How energy gets converted into useful power is the heart of thermodynamics, as well as determining what energy is lost in the process. One specific kind of energy, heat transfer, is crucial in many applications and requires gathering and analyzing temperature data and distributions.
Fluid mechanics, which also has a variety of applications, looks at many properties including pressure drops from fluid flow and aerodynamic drag forces.
Manufacturing is an important step in mechanical engineering. Within the field, researchers investigate the best processes to make manufacturing more efficient. Laboratory methods focus on improving how to measure both thermal and mechanical engineering products and processes. Likewise, machine design develops equipment-scale processes while electrical engineering focuses on circuitry. All this equipment produces vibrations, another field of mechanical engineering, in which researchers study how to predict and control vibrations.
Engineering economics makes mechanical designs relevant and usable in the real world by estimating manufacturing and life cycle costs of materials, designs, and other engineered products.
What skills do mechanical engineers need?
The essence of engineering is problem solving. With this at its core, mechanical engineering also requires applied creativity—a hands on understanding of the work involved—along with strong interpersonal skills like networking, leadership, and conflict management. Creating a product is only part of the equation; knowing how to work with people, ideas, data, and economics fully makes a mechanical engineer.
What tasks do mechanical engineers do?
Careers in mechanical engineering call for a variety of tasks.
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The phrase “don’t reinvent the wheel” comes to mind when thinking about mechanical engineering. This discipline exists to improve products created from a base knowledge of applied physics. The modern world comes with a lot of moving parts. From how a wall clock ticks away the time to the spinning of car wheels on their axles, it takes many precise pieces and movements to keep machines running smoothly.
While it takes many people and machines to put together something so complex as a car, each step is considered through the lens of a mechanical engineer. In short: if a machine moves, a mechanical engineer made it.
The enormous discipline of mechanical engineering includes the design and manufacturing of moving parts. As a result, mechanical engineers work across various industries conceptualizing, designing, and creating machines and their components. Some of the key sectors are automotive, healthcare, energy, and of course, construction.
Though it is one of the oldest engineering disciplines, it is also one that continues to change and grow with advancements in technology, making it a vibrant and exciting career path to this day. The American Society of Mechanical Engineers (ASME), established in 1880, has over 90,000 members in 135 countries and “promotes the art, science, and practice of multidisciplinary engineering and allied sciences around the globe.” ASME sets global standards for manufacturing and offers certification and accreditation programs in fields such as boiler and pressure vessel, nuclear quality assurance, and bioprocessing equipment.
Read on to learn more about the history of mechanical engineering, its branches, and its applications.
Why Does the World Need Mechanical Engineering?
Though it may not be an engineering discipline many people think about, mechanical engineering is critical to many aspects of everyday life, from modern conveniences to fundamental understanding of science. Indeed, mechanical engineering is one of the oldest scientific disciplines and can be traced back centuries to the great thinkers of Ancient Greece like Archimedes. Contributions from these ancient engineers include chariots with differential gears, water clocks, and even a primitive steam engine.
In 1206, one of the foundational books of mechanical engineering was written by Muslim inventor and engineer Al-Jazari, called Book of Knowledge of Ingenious Mechanical Devices, which included the beginnings of such important modern designs as the crankshaft.
As scientific thinking progressed, mechanical engineering expanded to include more analytical thought, particularly with Sir Isaac Newton’s laws of motion, which were integral to continued engineering progress. In the US, the first three mechanical engineering schools included the US Military Academy, Norwich University, and Rensselaer Polytechnic Institute, which were all in full operation by 1825.
Ultimately, most things that we use today that involve any type of moving parts come, at least in part, from the minds of mechanical engineers, and that is unlikely to change any time soon. Even the development of more sophisticated electronics and other technologies will depend at least in part on mechanical engineers. That is why mechanical engineering is an exciting and essential area of concentration.
What Does One Learn in a Mechanical Engineering Program?
Mechanical engineering programs are fairly standardized across the US, thanks in part to the Accreditation Board for Engineering and Technology (ABET). As a result, mechanical engineering undergraduate degrees typically begin with some foundational courses applicable across the spectrum of engineering programs, including calculus, physics, and basic introductory engineering courses.
Once mechanical engineers focus on their major, they can expect to find courses in design, manufacturing, mechanics, thermodynamics, and materials. Thus, graduates of a master’s of engineering (ME) program should have academic and lab experience in the various disciplines that apply directly to mechanical engineering.
Notably, a mechanical engineering degree offers a great degree of breadth, making it an attractive major for those students who know they want to study engineering but are not sure where to focus.
Mechanical engineers can begin their professional careers with a bachelor of science degree, but some students pursue advanced learning through a master’s or a PhD level education. It is common for engineers to gain some experience with their bachelor’s degree and later further their formal education to move forward in their careers.
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Branches of Mechanical Engineering
Because mechanical engineering is a broad topic, many engineering specialties can fit within its scope. Some of the most common mechanical engineering branches where graduating students could find careers include:
In some instances, other specialties fall within the purview of mechanical engineering as well. For example, the Stanford graduate program in mechanical engineering is one of the world’s top institutions and features specialties in:
Undergraduate students are largely not expected to choose a specialty. Still, those who decide to go on to a graduate program should be prepared to focus on a particular area of mechanical engineering.
To learn more about programs in mechanical engineering, please visit our online mechanical engineering degree programs page.
The Present and Future of Mechanical Engineering
While the future is never certain, there are some emerging industry trends in mechanical engineering. For example, according to one survey of mechanical engineers working in their field, the most sought-after positions for mechanical engineers will be in energy, biomedicine, computers, electronics, water, and nanotechnology. This breadth of subjects suggests jobs will be fairly plentiful for knowledgable, experienced, and certified mechanical engineers.
However, with advancements in technology happening at such a rapid pace, it is impossible for an aspiring engineer to graduate from an academic program and receive all the cutting-edge knowledge and experience needed for their future. In order to succeed, mechanical engineers will have to find a way to continue their education and stay abreast of technological developments throughout their careers.
Matt Zbrog is a writer and freelancer who has been living abroad since 2016. His nonfiction has been published by Euromaidan Press, Cirrus Gallery, and Our Thursday. Both his writing and his experience abroad are shaped by seeking out alternative lifestyles and counterculture movements.
What Is Mechanical Engineering Technology? | Job Description, Salary, Programs
Mechanical engineering technicians or technologists play a critical role in the design, development, and manufacture of mechanical parts, systems, and equipment.
While mechanical engineers heavily focus their efforts on designing, mechanical engineering technicians use specific technical skills to help build, test, and manufacture mechanical devices.
To better understand what mechanical engineering technology is, we’ll look at what technologists here do, their job descriptions, and their salaries.
Basically, a career as a mechanical technologist who works cooperatively with engineers to install, maintain, test, plan for, and produce mechanical parts according to given specifications, will require a minimum of an associate degree.
As a prospective mechanical technologist, you should strive to gain hands-on experience through an internship and consider earning a bachelor’s degree in order to advance in the field.
Keep reading for a breakdown of what your job description will be as a mechanical engineering technologist, possible salary, and job outlook.
In addition, this article will outline mechanical engineering technology programs and the basic requirements for pursuing one.
Here is a table of what to expect:
What is Mechanical Engineering Technology?
Mechanical Engineering Technology is basically the application of engineering principles and technological developments for the creation of useful products and production machinery.
Who is a Mechanical Engineering Technologists?
Also referred to as mechanical engineering technicians, mechanical engineering technologists are responsible for assisting mechanical engineers in the design of machinery, products, and equipment.
They serve primarily as problem solvers and troubleshooters in the manufacture, fabrication, and ongoing maintenance of machinery and automated equipment.
Mechanical engineering technologists are expected to apply current technologies and principles from the machine and product design as well as production, and material and manufacturing processes.
They will also be needed in specialties such as aerospace, automotive, energy, nuclear, petroleum, manufacturing, product development, and industrial design.
It is important to note that professionals in the mechanical engineering technology field have several titles in the USA and the world.
Some of these titles will also be used interchangeably as we go on. The titles include but are not limited to:
Furthermore, those interested in the mechanical engineering technology field may benefit from developing a few key skills. These skills include communication skills, creativity, and problem-solving.
Also, the ability to operate different types of machinery and use various software programs is definitely a plus.
What Does a Mechanical Engineering Technologist Do?
Basically, mechanical engineering technologists help mechanical engineers design, develop, test, and manufacture mechanical devices, including tools, engines, and machines.
They also make sketches and rough layouts, record and analyze data, make calculations and estimates, and report their findings.
Typically, mechanical engineering technicians do the following duties:
What is the Job Outlook For Mechanical Engineering Technician?
The US Bureau of Labor Statistics reports that the employment of mechanical engineering technicians is projected to grow 3 percent from 2018 to 2028, slower than the average for all occupations.
The BLS went further to suggest that the overall decline in manufacturing in the United States will contribute to slow growth.
However, there should be opportunities for those who can master new software and technology in addition to traditional manual skills.
How Much Does a Mechanical Engineering Technician Earn?
How to Become a Mechanical Engineering Technologist?
Basically, to start a career as a mechanical technician, you’ll need to earn an associate degree. However, some employers may prefer mechanical technicians with bachelor’s level training in mechanical technology.
Notwithstanding below is a step by step procedure on how to become a mechanical engineering technologist:
Earn an Associate Degree
Employers typically look for applicants with postsecondary training, and this may include an associate degree in mechanical engineering technology (MET).
Coursework here usually involves mathematics classes, such as algebra and calculus, and mechanical-related courses, like fluid mechanics and mechanical engineering design.
An associate degree program in mechanical engineering technology normally takes two years to complete. Also, graduates should be prepared to install, maintain, and perform tests on mechanical systems.
Find an Internship
Mechanical engineering tech students can gain hands-on experience by participating in internships through a school’s MET program.
This internship is an opportunity for technologists to start applying what was learned in the classroom environment to real-world experience.
Furthermore, tech interns may shadow an experienced mechanical engineering technician who can help a promising technician gain the skills necessary to obtain professional employment.
Get Employment
Graduates of mechanical engineering technology can find a job as mechanical technicians in various industries such as research and development, testing laboratories, and manufacturing.
As a prospective mechanical engineering technologist, it’s advisable that you take safety precautions in your workspace as you’ll be working with machines of all types.
Continuing Education
Mechanical technologists interested in advancing their career or pursuing a mechanical engineering job should consider earning a bachelor’s degree.
Basically, a Bachelor of Science in Mechanical Engineering Technology includes advanced courses in the field and additional laboratory time. Advanced courses here include 3D modeling, manufacturing processes, and project engineering, among others.
Mechanical Engineering Technology Programs
Basically, undergraduate programs in mechanical engineering technology provide students with a foundational understanding of machine design, robotics, computer-aided drafting, and product design.
Mechanical engineering technology degree programs are available in two levels namely:
Associate of Science in Mechanical Engineering Technology
Basically, an associate’s degree program in the field highlights topics such as physics, control systems, and computer-aided drafting.
Due to the nature of the field, much of the learning included within an associate’s degree in mechanical engineering tech is hands-on and takes place in a laboratory or workshop setting.
In addition, credits from this program may be transferred to a bachelor’s program in mechanical engineering technology.
Typical coursework in an associate’s degree in mechanical engineering technology program includes:
Bachelor of Science in Mechanical Engineering Technology
Basically, students enrolled in a bachelor’s degree program in mechanical engineering technology learn about the technologies, processes, and skills involved in designing and manufacturing industrial products.
Also, students are required to attend classroom lectures in mechanical engineering theory, in addition to completing laboratory assignments. They learn how to perform materials testing, design mechanisms, and also develop products in laboratory settings.
Mechanical tech students also receive instruction in software used by mechanical engineers, such as computer-aided design (CAD) software.
Typical coursework in an bachelor of science degree in mechanical engineering technology program includes:
Requirements For Mechanical Engineering Technology Degree Programs
Basically, mechanical engineering tech schools require that applicants for the program have high school diplomas or GEDs for admission.
In addition, they are to have a strong grasp of mathematics, computer science, physics, and chemistry.
FAQs On What Is Mechanical Engineering Technology? Job Description, Salary, Programs
Mechanical Engineering Technology is basically the application of engineering principles and technological developments for the creation of useful products and production machinery.
Mechanical engineering technologists are responsible for assisting mechanical engineers in the design of machinery, products, and equipment.
Basically, mechanical engineering technologists help mechanical engineers design, develop, test, and manufacture mechanical devices, including tools, engines, and machines.
Here is a step by step procedure on how to become a mechanical engineering technologist:
1. Earn an Associate Degree
2. Find an Internship
3. Get Employment
4. Continuing Education
The two types of mechanical engineering technology degree programs are:
1. A two-year Associate of Science in Mechanical Engineering Technology
2. A four-year Bachelor of Science in Mechanical Engineering Technology.
Conclusion
The importance of mechanical engineering technologists in the design, development, and manufacture of mechanical parts, systems, and equipment cannot be overemphasized.
They not only assist mechanical engineers in the design of machinery, but also serve primarily as problem solvers and troubleshooters in the manufacture, fabrication, and ongoing maintenance of machinery and automated equipment.
Interested in pursuing a career as a mechanical technician?
You’ll need to earn atleast an associate degree in mechanical engineering technology.
I hope this article helps you in your decision making.
Good Luck And Success.
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