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mechanical engineering course requirements

Last Updated on April 18, 2022 by Team College Learners

How to Become a Mechanical Engineer

Mechanical engineers typically need a bachelor’s degree in mechanical engineering or mechanical engineering technology. Mechanical engineers who sell services publicly must be licensed in all states and the District of Columbia.


Mechanical engineers typically need a bachelor’s degree in mechanical engineering or mechanical engineering technology. Mechanical engineering programs usually include courses in mathematics and life and physical sciences, as well as engineering and design. Mechanical engineering technology programs focus less on theory and more on the practical application of engineering principles. They may emphasize internships and co-ops to prepare students for work in industry.

Some colleges and universities offer 5-year programs that allow students to obtain both a bachelor’s and a master’s degree. Some 5-year or even 6-year cooperative plans combine classroom study with practical work, enabling students to gain valuable experience and earn money to finance part of their education.

ABET accredits programs in engineering and engineering technology. Most employers prefer to hire students from an accredited program. A degree from an ABET-accredited program is usually necessary to become a licensed professional engineer.

Important Qualities

Creativity. Mechanical engineers design and build complex pieces of equipment and machinery. A creative mind is essential for this kind of work.

Listening skills. Mechanical engineers often work on projects with others, such as architects and computer scientists. They must listen to and analyze different approaches made by other experts to complete the task at hand.

Math skills. Mechanical engineers use the principles of calculus, statistics, and other advanced subjects in math for analysis, design, and troubleshooting in their work.

Mechanical skills. Mechanical skills allow engineers to apply basic engineering concepts and mechanical processes to the design of new devices and systems.

Problem-solving skills. Mechanical engineers need good problem-solving skills to take scientific principles and discoveries and use them to design and build useful products.

Licenses, Certifications, and Registrations

Licensure is not required for entry-level positions as a mechanical engineer. A Professional Engineering (PE) license, which allows for higher levels of leadership and independence, can be acquired later in one’s career. Licensed engineers are called professional engineers (PEs). A PE can oversee the work of other engineers, sign off on projects, and provide services directly to the public. State licensure generally requires

  • A degree from an ABET-accredited engineering program
  • A passing score on the Fundamentals of Engineering (FE) exam
  • Relevant work experience typically at least 4 years
  • A passing score on the Professional Engineering (PE) exam.

The initial FE exam can be taken after one earns a bachelor’s degree. Engineers who pass this exam are commonly called engineers in training (EITs) or engineer interns (EIs). After meeting work experience requirements, EITs and EIs can take the second exam, called the Principles and Practice of Engineering.

Several states require engineers to take continuing education to renew their licenses every year. Most states recognize licensure from other states, as long as the other state’s licensing requirements meet or exceed their own licensing requirements.

Several professional organizations offer a variety of certification programs for engineers to demonstrate competency in specific fields of mechanical engineering.


A Ph.D. is essential for engineering faculty positions in higher education, as well as for some research and development programs. Mechanical engineers may earn graduate degrees in engineering or business administration to learn new technology, broaden their education, and enhance their project management skills. Mechanical engineers may become administrators or managers after gaining work experience.

Bureau of Labor Statistics, U.S. Department of Labor, Occupational Outlook Handbook, Mechanical Engineers, 
on the Internet at (visited September 24, 2018).​


Analyzing problems, developing and testing prototypes, and using computer-aided design are at the heart of a mechanical engineer’s responsibilities. These skilled professionals know the ins-and-outs of different machinery such as refrigeration equipment, air-conditioning systems, internal combustion engines, and gas turbines. They also are involved in the design of elevators, escalators, and virtually all types of machinery.

A bachelor’s degree in mechanical engineering is typically required to work in the field, according to the U.S. Bureau of Labor Statistics (BLS, Dec. 2015), but there are related subfields of engineering (e.g., aerospace engineering) with overlapping competencies and training. Other subfields of note are alternative energy and remanufacturing—the process of rebuilding products after they have worn out. A graduate of a mechanical engineering school can also seek a Professional Engineering (PE) license after they have gained at least four years of experience in the field and passed two comprehensive examinations. The PE credential allows engineers to do consulting work or be employed in some governmental positions. A mechanical engineer can seek additional education through a master’s or doctoral-level program, which can lead to even greater opportunities in leadership and salary prospects.

This guide provides the step-by-step details to obtaining a mechanical engineering education and pursuing a career. It was formulated using information from the BLS and various professional associations, detailing this career field’s typical education, licensing, pay, and job growth.


Mechanical engineers generally need at least a bachelor’s degree in mechanical engineering or mechanical engineering technology, according to the BLS (BLS Dec. 2015). Students are advised to seek out programs accredited by entities recognized by the U.S. Department of Education’s Council for Higher Education Accreditation (CHEA), including the gold standard in engineering: the Accreditation Board for Engineering and Technology (ABET).

Arizona State UniversityMechanical Engineering (BSE)VISIT SITE

Mechanical engineering undergraduate programs are available at multiple degree levels and require different time commitments. For example, some programs allow students to earn an associate degree as they work toward a bachelor’s degree. There are varying formats for these degree programs, as well. These include traditional campus-based pathways, as well as programs that combine online and brick-and-mortar coursework. Additionally, there are even fully online programs in mechanical engineering at the bachelor’s level.

Admissions Requirements – Mechanical Engineering Bachelor’s Programs

Requirements for bachelor’s programs in mechanical engineering differ from school to school. A student’s high school grade point average (GPA) can be an important qualifier, but so too can a student’s score on the Scholastic Aptitude Test (SAT). A high school transcript can help to paint a picture of a student’s past interests and successes, and may provide some indication of their potential for future success. Some admissions materials that that may be required for mechanical engineering schools include:

  • Completed application and fee
  • Official high school transcripts with a competitive GPA in math and science courses (e.g., calculus, physics, geometry, chemistry)
  • SAT or American College Testing (ACT) scores
  • Letters of recommendation
  • An interview
  • An essay (500-600 words)

Typical Courses – Mechanical Engineering Bachelor’s Programs

Students in a bachelor’s program often complete many core science and math classes before taking upper-level mechanical engineering coursework in areas including:

  • Computer Aided Drafting
  • Dynamics
  • Heat Transfer
  • Applied Fluid Mechanics
  • Statics
  • Thermodynamics
  • Behavior of Materials


A master’s degree is not necessary to enter the mechanical engineering field, but as mentioned above, it can lead to greater opportunities with respect to breakthrough innovations, coveted research grants, or leadership positions. In fact, CareerOneStop (2017)—a site sponsored by the U.S. Department of Labor—reported that 20 percent of people working as mechanical engineers had a master’s degree, compared to 52 percent with a bachelor’s.

In their search for programs, students may find differing program pathways. A master’s degree, for example, typically takes at least two years of post-bachelor’s work to complete, but there are also combined bachelor’s and master’s degree programs, which may take five years of full-time, accelerated study. Additionally, there are other dual degree programs combining a master’s and an MBA. Students also can consider online master’s degrees in mechanical engineering, particularly if they are working full-time, live in rural areas, or have inflexible schedules.

Admissions Requirements – Mechanical Engineering Master’s Programs

As with bachelor’s degrees, enrollment requirements for master’s degrees in mechanical engineering vary, but generally, the admissions process for graduate-level education is more rigorous. Often students need to apply both to a university’s graduate school and to the engineering department itself. Students also should consider the options available in these programs. For example, they may be able to choose between a non-thesis or thesis program. Some of the typical admissions requirements for master’s-level mechanical engineering schools include:

  • Completed application(s) and processing fee(s)
  • A statement of purpose
  • Official transcripts with proof of specific course prerequisites
  • Letters of recommendation
  • GRE scores; Test of English as a Foreign Language (TOEFL) for ESL students
  • A bachelor’s degree in engineering or a related field
  • A minimum undergraduate GPA of 3.0

Typical Courses – Mechanical Engineering Master’s Programs

Many master’s degree programs require core coursework in four-to-six areas to help students build advanced knowledge. Examples of these core classes include:

  • Material Issues in Mechanical Design
  • Metals and Alloys
  • Advanced Composite Materials
  • Materials Engineering

After completing the initial core coursework, students may be able to specialize their classes or select electives that allow them to customize their degree. Just keep in mind that degree requirements vary from school to school, and while some schools require students to complete a certain number of math courses for their program, others may instead focus on greater breadth across the curriculum. Available Master’s of Science in Mechanical Engineering (MSME) concentrations include:

  • Manufacturing and Materials Processing
  • Robotics and Controls
  • Solids/Mechanics of Materials
  • Thermofluids


Experience is integral to becoming a mechanical engineer. Not only can it be a starting point to formulate new ideas or concepts, but it also can be central to building the skills needed to work on more complex projects. Additionally, as mentioned in the introduction, having at least four years of professional experience is imperative for those who want to obtain professional engineer (PE) licensing.

Experience can unlock opportunities in other ways, too. In fact, mechanical engineers who know how to use the most up-to-date software tools—including those in computational design and simulation—or who are knowledgeable about three-dimensional printing can find their skills in demand.


For mechanical engineers, PE licensure can be an indicator of a high level of competence to clients, supervisors, and colleagues, although this credential is not always necessary to work in the field. Graduates of mechanical engineering schools should check with their state board of licensing for more details on regional requirements. It’s important to add, however, that only licensed PEs can work as consulting engineers or private practitioners, and the PE designation is also necessary for employment in many governmental positions where the safety and welfare of the public is concerned. Here is a general overview of how to obtain PE licensure:

  • Take the Fundamentals of Engineering (FE) Exam. Students close to completing their undergraduate degree in mechanical engineering can take this exam. Reference materials and exam preparation are available online. The FE is offered in the mechanical engineering field, as well as six other fields of engineering.
  • Gain experience. Four years of experience under a qualified supervisor is the minimum requirement.
  • Take the Principles and Practice of Engineering (PE) exam. This eight-hour exam is the last step to obtaining licensure. The PE is available in three different mechanical engineering fields, including HVAC and refrigeration, machine design and materials, and thermal and fluids systems, as well as other engineering disciplines.

Pass rates for the PE vary by subject area. In the mechanical engineering testing fields mentioned above, they range from 68 to 77 percent for first-time takers, according to the National Council of Examiners for Engineering and Surveying.


There are numerous organizations offering mechanical engineering certification. According to the American Society of Mechanical Engineers (ASME), certification can be a way to validate skills, increase marketability, garner respect, and build confidence and credibility. It can be a step that interests some professionals in the field. Below is a list of organizations that offer mechanical engineering certification:


Engineers seeking more education can look into PhD programs in mechanical engineering. These degrees may be of interest to engineers who enjoy research; want to make significant advancements in the field; or have a desire to teach future generations of engineers. Before starting a doctoral-level program, students often need to find a PhD advisor to guide and support them throughout their program. A PhD is a rigorous degree, and the expectations should be clear to candidates beforehand. Some components of a PhD program can include a/an:

  • On-campus residency
  • Completion of a dissertation
  • Teaching of undergraduate students
  • Oral examination


Prospective mechanical engineers may be interested to learn the average annual salaries in the field. According to the BLS (May 2016), the average annual salary for the 285,790 mechanical engineers across the U.S. is $89,800, significantly higher than the average mean wage for all occupations nationally ($49,630). Mechanical engineers working in architectural, engineering and related services earned the highest wages, followed by those employed in scientific research and development services.

In more detailed terms, here’s a breakdown of the annual wage percentiles of mechanical engineers in the U.S.:

United States (285,790 mechanical engineers employed): $89,800 average annual salary

  • 10th percentile: $54,420
  • 25th percentile: $67,070
  • 50th percentile (median): $84,190
  • 75th percentile: $106,420
  • 90th percentile: $131,350

Additionally, data from Payscale (July 2017), a site using self-reported salaries, indicates that mechanical engineers with project management skills, experience with ANSYS simulation software, or experience with Finite Element Analysis software have the potential to make even more money.

Job Outlook for Mechanical Engineers

Job opportunities for mechanical engineers are expected to grow 5 percent from 2014 to 2024, according to the BLS (Dec. 2015). This is slightly slower than the average growth projected across all occupations during that same decade (6.5 percent). It’s important to note that the growth rate can vary by sub-industry. For example, those working in nanotechnology, alternative energies, and remanufacturing may encounter greater job opportunities.


Prospective mechanical engineers may want to consider membership in mechanical engineering associations. These groups may offer student memberships at a discount and provide opportunities in training and development, research, networking, and more. Here are the most prominent mechanical engineering professional associations and societies: