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How To Become A Civil Engineer: Job Outlook And Specializations

Updated: Jun 12, 2024, 2:54pm

Key Takeaways

• Civil engineering includes various specializations, so responsibilities vary.
• As you plan your education, prioritize ABET-accredited programs in civil engineering or a related field.
• You don’t need a Professional Engineer (PE) license to begin working as a civil engineer.
• Employment for civil engineers is expected to increase by 5% from 2022 to 2032, which amounts to about 21,200 new job openings each year.
• Civil engineers earn a median annual salary of $95,890.

Everywhere you go, you see the results of the hard work of professional civil engineers. Civil engineers are essential in designing and building everything from roads and bridges to buildings and dams and many other types of infrastructure. They ensure the buildings and structures in our society are developed safely and in alignment with regulations and building codes so we can all enjoy our communities’ amenities, natural resources and infrastructure.

Many career options fall under civil engineering. Whether you’re interested in working in a coastal, rural or urban environment, you can launch a fulfilling civil engineering career.

In this article, we outline the steps that show how to become a civil engineer, so keep reading to learn more.

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What Is Civil Engineering?

Civil engineering involves planning, repairing, maintaining and overseeing the development of projects such as water and sewer systems, buildings, roads, bridges and other infrastructure within communities.

Civil engineers typically analyze maps, survey data, soil tests and building materials to manage the repair or development of buildings or other infrastructure. They also handle permit applications, create cost estimates, oversee the survey process and develop plans using computer-aided design (CAD) software programs.

Collaboration plays an important role in civil engineers’ work since they often work with urban planners, architects, construction managers and others involved in the planning, development and building processes.

How To Become a Civil Engineer

Becoming a civil engineer requires learning specialized information and skills and completing educational requirements. Below, we outline the steps to take to become a civil engineer.

Earn a Relevant Bachelor’s Degree

Civil engineer jobs typically require a minimum of a bachelor’s degree in civil engineering or related discipline. Look for degree programs accredited by ABET, also known as the Accreditation Board for Engineering and Technology. While licensing requirements vary by state, most require engineers to earn a degree through an ABET-accredited program.

Pass the Fundamentals of Engineering (FE) Exam

You may take the FE exam if you have earned your degree or are nearly finished. The National Council of Examiners for Engineering and Surveying (NCEES) administers FE examinations. Registration requirements vary by state, and you can use NCEES’s interactive map to learn more about your state’s requirements.

After earning your bachelor’s degree and passing the FE exam, you may be classified as an engineer-in-training or an engineer intern (EI). This designation shows your mastery of the engineering fundamentals needed to earn your PE license.

Gain Work Experience

After earning your engineering degree , it’s essential to start gaining relevant work experience so you can prepare to take the Principles and Practice of Engineering exam and build a successful civil engineering career. While each state’s requirements vary, you typically need four years of experience working in the engineering field to be eligible for the PE exam. This work experience should be under the supervision of a qualified professional engineer.

Acquire Your PE License

Each state sets its own parameters for civil engineer licensing. While a license is not required for entry-level civil engineers, these professionals typically need a PE license to provide civil engineering services to the public. States typically require a bachelor’s degree from an ABET-accredited program, passing scores on the FE and PE exams and related work experience.

The National Council of Examiners for Engineering and Surveying (NCEES) administers PE and FE examinations, and states handle their own licensing. The National Society of Professional Engineers’ (NSPE) website includes links to state licensing boards.

A Structural Engineer (SE) license is also available in some states. Structural engineering falls under the umbrella of civil engineering. This post-PE license is administered by the Structural Engineering Institute and is not offered in every state. To earn an SE license, you must pass another exam and meet additional requirements.

Civil Engineer Salary and Job Outlook

The U.S. Bureau of Labor Statistics reports that civil engineers earn a median annual salary of $95,890, as of May 2023. The highest-earning civil engineers work for the federal government, earning a median annual salary of $108,680. Those working in nonresidential building construction earn a median annual salary of $78,890, which falls in the lower range of salaries for the profession.

The outlook for civil engineering jobs is positive, with employment expected to increase by 5% from 2022 to 2032, which is about 21,200 job openings each year.

Civil Engineer Specializations

There are several types of specializations available for civil engineers. Below are a few popular specializations.

Construction Engineering

Construction engineers are responsible for overseeing construction projects and ensuring they are completed according to budget and on time. They use risk management and leadership skills to ensure the successful development and completion of construction projects.

• Geotechnical Engineering

Geotechnical engineers focus on how the foundations of buildings, streets and other structures affect the earth’s soil, rock and groundwater. They also address the impact of geological hazards, such as earthquakes, landslides and soil erosion.

Structural Engineering

Structural engineers design bridges, dams, tunnels, walls, buildings and other load-bearing structures. They collaborate with construction managers, architects and other engineers to ensure these structures are safe and won’t collapse.

Transportation Engineering

Transportation engineers design and maintain mass transit systems, roads and highways, airports, harbors and other types of transportation infrastructure. Their work includes sourcing, testing and developing materials for these infrastructures.

• Coastal Engineering

Coastal engineers use engineering principles to analyze, design and manage structures and systems in a coastal environment. They may focus on issues such as coastal erosion, beach protection, renewable marine energy, water resources, ports and harbors, marine dredging or offshore foundation systems.

Certifications for Civil Engineers

Certifications are not required for entry-level civil engineering jobs, but they are worth considering at some point. Earning a certification increases your opportunities for advancement, reduces liability insurance rates and leads to higher salaries.

Some certifications are specifically for civil engineers, while others are in related disciplines that civil engineers may find helpful, although they aren’t dedicated strictly to civil engineers. Let’s take a look at these options below.

Civil Engineering Certification (CEC)

CEC is a specialty board certification that covers several types of civil engineering. The American Society of Civil Engineers (ASCE) administers the Civil Engineering Certification, which is the certification for professional civil engineers. ASCE is the only certifying body offering civil engineering certifications that are developed by professional civil engineers specifically for civil engineers. It takes about four to six months to earn a certification.

CEC specialty board certifications include:

• Navigation Engineering
• Ocean Engineering
• Water Resources Engineering
• Port Engineering
• Pipeline Engineering-Water

The minimum requirements for all of these certifications include:

• A PE license
• A bachelor’s degree in engineering or a related field
• A master’s degree or Ph.D. if your undergraduate degree is in a different field
• A minimum of 10 years of relevant experience, with six years of experience in your area of specialization after earning your PE license
• Passing examination score

In addition to these minimum requirements, there are other requirements that vary according to which specialty board certification you choose. For example, some may require a master’s degree in civil engineering or a related field, or even a Ph.D., while others may waive this requirement. Some require eight years of post-PE work experience in your specialization rather than six years. For more information about specific requirements, contact ASCE.

Earning a CEC certification costs $350 for ASCE members and $450 for nonmembers.

Other Certifications

Keep in mind that there are other certification options not specifically for civil engineers that may be helpful to you. Some examples are Certified Construction Manager (CCM) and Project Management Professional (PMP).

Professional Organizations for Civil Engineers

There are many professional organizations for civil engineers. Some are for civil engineers in general, while others cater to civil engineers who work in an area of specialization, such as transportation, highways or the environment. Some organizations support all types of engineers.

Professional organizations typically offer a variety of member benefits, and some also offer professional licenses or certifications for specialized areas.

Below are a few popular organizations for civil engineers. Keep in mind that depending on your specialization, you may have many other options in addition to these.

American Society of Civil Engineers (ASCE)

ASCE offers benefits that include technical content and industry information, continuing education discounts, networking opportunities and a salary calculator. Membership options are available for students, professionals and partner organizations.

National Society of Professional Engineers (NSPE)

The NSPE caters to all professional engineers. It provides continuing education, online seminars, networking opportunities, advocacy, a job board, industry news and information, and discounts on publications and services provided by its benefit partners.

American Planning Association (APA)

The APA is a professional organization for anyone planning cities, neighborhoods and communities. It offers networking opportunities, a national conference, local chapters, advocacy, professional education and other resources and publications.

Construction Management Association of America (CMAA)

The CMAA provides construction management professionals and organizations with education and training, networking opportunities, advocacy, webinars, professional resources and discounts on events, certification fees and liability insurance.

Frequently Asked Questions (FAQs) About Civil Engineering

Is it hard to be a civil engineer.

Becoming a civil engineer requires a serious commitment. Some people may find the process difficult, but others, who enjoy using their creative and technical skills, may find it less challenging and more rewarding.

How many years does civil engineering take?

You need about four years to earn a bachelor’s degree in engineering, and then you take the FE exam. You may take this exam during your senior year or after completing your degree, which means that it takes at least four years or more to become an engineer-in-training. If you decide to earn your PE license, it takes at least four additional years or longer, depending on your state’s requirements.

What degree is needed to be a civil engineer?

You typically need a bachelor’s degree in civil engineering or a related discipline to become a civil engineer. Civil engineers who want to earn more or advance in their careers may earn graduate degrees, but this is not required.

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Sheryl Grey is a freelance writer who specializes in creating content related to education, aging and senior living, and real estate. She is also a copywriter who helps businesses grow through expert website copywriting, branding and content creation. Sheryl holds a Bachelor of Arts in Mass Communications from Indiana University South Bend, and she received her teacher certification training through Bethel University’s Transition to Teaching program.

Certificate Programs

ASCE Certificate Programs are designed for a working professional to enhance and add to their skillset for the in-demand industries of engineering. Developed and delivered by leading industry professionals and educational experts, these multi-dimensional programs provide training that is focused on a practice and knowledge that will enable you to excel in your career.

New Construction Certificate Programs just launched!

ASCE’s Construction Certificate Programs contain a series of career-focused courses taught by practicing engineers and university professors providing in-demand skills used in the field of construction. All of the courses within each program are offered on-demand so you can complete them on your own time. You must complete a total of five courses within one year to earn a certificate of completion. There are three programs available.

How they work

How certificate programs work.

• All courses include online video lectures to convey the fundamental concepts and use examples of real scenarios and/or calculations to support the content
• You will work to solve problems, evaluate case studies, and perform practical exercises
• All courses include one or more exams to demonstrate comprehension level
• All of the required courses must be completed within one year of enrollment in the certificate program
• See policies and system requirements

What to expect

Construction courses.

Weekly commitment: Up to 2.5 hours

Each week, you'll have access to:

• Interactive knowledge checks, scenario exercises, and case studies
• Exam(s) to assess mastery of the content
• A passing rate of 70% to earn CEUs
• 3 attempts on the exam(s)

All other courses

• Mastery will be assessed in weeks 4, 8, and 12
• 3 exams with 20 questions
• 3 attempts for each exam

How to access a course

Courses are only viewable by the individual who purchased the course.

• Login to myLearning  using your ASCE email and password
• Click on "Access" under the course title
• View the video(s) and complete exercises; you may revisit course materials multiple times
• View or print your certificate at myTranscript

All Certificate Programs

Bridge the knowledge and skill gap in the civil engineering profession. Gain skills that you will need as you transition from an entry-level design position into project management.

This Architectural and Commercial Building Construction Certificate provides professional engineers in-demand skills used in the field of construction engineering.

This Civil Infrastructure Construction Certificate provides professional engineers in-demand skills used in the field of construction engineering.

This Construction Engineering Certificate provides professional engineers in-demand skills used in the field of construction engineering.

The GIS for Asset Management Certificate Program is designed to help engineers develop systems to obtain knowledge and understanding of large spatial datasets.

The Port Engineering Certificate Program provides professional engineers in-demand skills used in the field of port engineering.

The Structural Earthquake Engineering for Buildings Certificate provides professional engineers in-demand skills used in the field of seismic engineering.

The Water Treatment Certificate Program provides professional engineers with the skills to take their water resources career to the next level.

Group training

Have five or more people you need trained? ASCE offers group training discounts!

Questions? Contact us at [email protected] . 

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What Is Civil Engineering?

Required coursework, job prospects, and average salaries for graduates

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Civil engineering is a STEM field focused on designing and constructing the environments in which humans live. Civil engineers typically focus on large construction projects such as buildings, roads, bridges, subway systems, dams, and water supply networks. Math, physics, and design are essential areas of knowledge for the field.

Key Takeaways: Civil Engineering

• Civil engineers design and build large projects including buildings, dams, bridges, roads, tunnels, and water systems.
• Civil engineering draws heavily upon math and physics, but design, economics, and materials science are also important.
• Civil engineering is one of the larger engineering fields, and its many sub-specialties include architectural engineering, environmental engineering, and water resource engineering.

Specializations in Civil Engineering

Like many STEM fields , civil engineering is a broad umbrella that includes a wide range of sub-specialties. Pretty much anywhere something large needs to be built, a civil engineer will be involved in the project. Below are just a few examples of civil engineering specialties.

• Architectural Engineering focuses on the design and construction of buildings. Architectural engineers use their engineering skills to make sure architectural designs are structurally sound.
• Environmental Engineering focuses on the protection of people and the planet through design that emphasizes sustainability. One project might be figuring out how to channel, treat, and repurpose a city's wastewater.
• Geotechnical Engineering focuses on the earth used for a building project and the ground beneath a building project. Engineers need to make sure the rock and soil at a building site will have the mechanical properties necessary to ensure the soundness and durability of the project.
• Structural Engineering focuses on the structural design and analysis of all types of construction projects, from skyscrapers to train tunnels. It is the structural engineer's duty to ensure that a building project can safely withstand the stresses it will undergo during its lifetime.
• Transportation Engineering focuses on the design, construction, and maintenance of roads, airports, subway systems, and railroads. The design, safety, and efficiency of these transportation systems are all under the purview of a transportation engineer.
• Water Resource Engineering focuses on water usage for irrigation, human consumption, and sanitation. Sometimes called hydrology , the field deals with collecting water from the earth and getting it where it needs to go in ways that are safe and sustainable.

College Coursework in Civil Engineering

As with any engineering field, civil engineering relies heavily on math and physics. Civil engineers need to be able to calculate the stresses on a structure to make sure it is engineered to avoid mechanical failure. Most building projects also require an engineer to understand design and the properties of materials . Successful civil engineers often oversee large aspects of a building project, so financial and leadership skills are also a must, as are strong writing and speaking skills.

Civil engineering curricula will vary from college to college, but below are some of the typical courses a civil engineering student will be required to take:

• Calculus I, II, III and Differential Equations
• Data Analysis
• Structural Design
• Structural Analysis
• Soil Mechanics
• Hydraulics and Hydrology
• Mechanics of Materials
• Leadership and Business Principles

Specialized courses may be offered as electives rather than fixed graduation requirements. These courses, which tend to represent the various sub-specialties of civil engineering, may include:

• Geotechnical Engineering
• Transportation Planning and Design
• Water Resource Engineering
• Waste Management

Keep in mind that a bachelor of science or bachelor of engineering degree will also include foundation course work in physics, chemistry, and biology, as well as courses in the humanities and social sciences. The best civil engineers have broad educations that prepare them to understand the mechanical, environmental, political, social, and artistic dimensions of a project.

Best Schools for Civil Engineering

Not all colleges and universities with engineering programs offer civil engineering. (That's why you won't find Caltech—one of the nation's top engineering schools —on this list.) However, all of the schools below have excellent programs in mechanical engineering:

• Carnegie Mellon University (Pittsburgh, Pennsylvania): Carnegie Mellon is a mid-sized comprehensive university with world renowned STEM programs (plus a thriving arts scene). The university has particular strengths in the environmental engineering sub-specialty.
• Georgia Tech (Atlanta, Georgia): As one of the best public engineering schools in the country, Georgia Tech is a great option for civil engineering majors. It also offers an excellent value, particularly for in-state applicants.
• The Massachusetts Institute of Technology (Cambridge, Massachusetts): MIT often ranks as the #1 engineering school in the country. The civil engineering program is one of MIT's smaller majors, but it offers the same access to world-class faculty and facilities as the other departments.
• The New Jersey Institute of Technology (Newark, New Jersey): NJIT has an extremely popular and highly-regarded civil engineering program. Plus, with an acceptance rate around 60%, NJIT offers a better chance of admission than schools like MIT and Stanford.
• Rensselaer Polytechnic Institute (Troy, New York): RPI, which boasts the oldest civil engineering program in the country, graduates over 60 civil engineers per year. The civil engineering department offers courses in a variety of specializations, including structural and geotechnical engineering.
• Rose-Hulman Institute of Technology (Terre Haute, Indiana): Rose-Hulman is an excellent choice for students who want a strong engineering program at a smaller school with a predominantly undergraduate focus.
• Stanford University (Stanford, California): Although Stanford's civil engineering department emphasizes graduate study over undergraduates, it remains one of the best places to study engineering. The civil engineering major offers two tracks: the structures and construction focus and the environmental and water studies focus.
• Stevens Institute of Technology (Hoboken, New Jersey): The civil engineering program at Stevens is topped only by mechanical engineering for popularity. The school has strengths in environmental, coastal, and ocean engineering sub-fields.
• The University of California at Berkeley (Berkeley, CA): UC Berkeley graduates nearly 100 civil engineers every year. Students can choose from seven sub-specialties. For students interested in the University of California system, UC Davis also has a strong civil engineering program.
• Virginia Tech (Blacksburg, Virginia): Virginia Tech graduates roughly 200 civil engineers a year, and students can choose from five specializations. For Virginia residents, the school's value is hard to beat.
• Worcester Polytechnic Institute (Worcester, Massachusetts): WPI has a strong project-based curriculum and a focus on sustainability and civic responsibility. Civil engineering majors will have access to research opportunities in areas like soil and water quality analysis and structural mechanics impact.

All of the schools listed above are well known for their strengths in STEM fields, but you don't need to attend a technological institute to get an outstanding education in engineering. For example, public universities such as the University of Texas at Austin, the University of Michigan, and the University of Illinois at Urbana-Champaign offer high quality engineering education at an especially good value for in-state applicants.

Average Salaries for Civil Engineers

Civil engineering has promising job prospects with faster-than-average job growth. The Bureau of Labor Statistics states that the median pay for civil engineers in 2019 was $87,060 per year. Subfields are often similar. Environmental engineers, for example, have an median pay of $88,860. Payscale.com reports that entry-level civil engineers have a median salary of $61,700 a year, and mid-career employees earn a median salary of $103,500. Roughly 330,000 people are employed in the field. Engineering fields have some of the highest salaries for employees with bachelor's degrees. Salaries for civil engineering jobs are on par with salaries for mechanical engineering jobs, but a bit lower than those for electrical, chemical, and materials engineering jobs.

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Civil Engineering Master's Program Online

Apply advanced methods of design and use data-driven analysis to find solutions to the most pressing challenges facing our built environment. From buildings and bridges to ports and harbors, master it all with an online Master’s in Civil Engineering from Johns Hopkins, ranked #7 in the country by U.S. News & World Report. Study BIM Applications In Civil Engineering, the Design of Ocean Structures and so much more.

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Civil Engineering Program Overview

Civil Engineering ranked #7 for Civil Engineering Programs by U.S. News & World Report

Civil engineering is the world’s oldest engineering discipline. Yet increasing public demands on structures and systems and changes in society’s economic and environmental attitudes mean that today’s civil engineer needs to constantly adapt in order to keep up.

Johns Hopkins Engineering for Professionals top-ranked, online Master’s in Civil Engineering program provides graduate instruction in the fields of structural engineering, geotechnical engineering, ocean and coastal engineering, and preservation engineering. No matter your industry, you’ll master the topics and industry developments you need to be at the top of your field.

Designed specifically for working professionals, this part-time, online civil engineering master’s features practice-oriented courses in small classes taught by industry experts. These experts and educators create engaging learning opportunities and provide personalized attention. Students can narrow their studies in a variety of focus areas and choose to pursue an independent study under the guidance of an instructor for even more specialized education.

As a student, you will gain a firm understanding of how to:

• Apply mathematics, science, and engineering principles to a variety of civil engineering situations.
• Identify, formulate, and solve complex problems in civil engineering.
• Use the techniques, skills, and modern tools necessary for engineering practice.

Master’s Focus Areas

A focus area can be selected but is not required. Your focus area will not appear on your diploma but will provide a tailored education for students looking to specialize in a specific field. 

• Geotechnical Engineering : Study how to apply engineering theory and practice to the environment. Explore topics like ground improvement methods, hydrogeology, and more.
• Ocean and Coastal Engineering : Study how to apply engineering theory and practice to ocean and coastal systems. Explore topics like natural disaster risk modeling, fluid dynamics, and more.
• Structural Engineering : Study how to apply engineering theory and practice to building and physical structures. Explore topics like bridge design and evaluation, preservation engineering, and more.

FOCUS AREA REQUIREMENTS 

We offer two program options for Civil Engineering: a graduate Civil Engineering Certificate. or a Master of Civil Engineering.

Civil Engineering Courses

Explore course requirements, prerequisites, focus areas, and electives related to civil engineering. All courses are taught by leading subject-matter experts who use and develop the technologies and theories they teach every day. For exact dates, times, locations, fees, and instructors, please refer to the course schedule published each term. Civil engineering online courses, in-person courses, and hybrid courses are available.

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“ Convenience was key. It’s hard going to school and working full time. I liked how many online classes were offered, I could work them around my schedule.  ”

Tuition and Fees

Did you know that 78 percent of our enrolled students’ tuition is covered by employer contribution programs? Find out more about the cost of tuition for prerequisite and program courses and the Dean’s Fellowship.

Why Hopkins?

An online civil engineering master’s from the Education for Professionals program at Johns Hopkins University opens the doors for the next phase of your career. Take your first step today.

Career-Advancing Knowledge - Coursework incorporates industry-specific knowledge that you can use from day one. As a graduate, you will be prepared to advance your career, cross over into other engineering fields, take on leadership roles, and increase your income-earning potential.

Leaders in Online Education for 18+ Years - Civil engineering online courses taught by the Johns Hopkins Engineering for Professionals faculty have nearly two decades of experience behind them. Our experience can make your experience smooth, rewarding, and impactful. Learn More

Build a Better Network - Through the civil engineering program, you’ll have the opportunity to connect with accomplished scientists and engineers in a variety of fields to broaden the possibilities of what you can achieve. Learn More

“ I really enjoyed my time in the EP program. It was flexible, I was always able to find a course I could take, and most importantly, I was able to finish my degree while moving from Baltimore to Denver without interruption. I felt that for the most part, the courses were well structured to accommodate working professionals. I rarely felt as if I was in over my head. I feel that this was a great career and professional move and I would recommend it to anyone seeking to further their technical education. ”

Civil Engineering FAQs

How many years is your civil engineering master’s degree.

Once accepted, you have five years to complete your civil engineering master’s degree. If taking a semester off is necessary for your work or personal life, our online program lets you do so. Flexibility is key to all Engineering for Professional programs. 

How much do civil engineers make with a master’s degree?

On average, our Engineering for Professionals civil engineering master’s alumni make upwards of $120,000 after completing their degrees. 

I don't have an engineering background, can I still apply to this program?

Yes, applicants without a degree in Civil Engineering may be accepted to the program provided they demonstrate successful completion of the program’s prerequisites

I work full-time, how will the program accommodate my busy schedule?

The Engineering for Professionals program was designed with working professionals in mind. Therefore, we offer both synchronous and asynchronous courses to accommodate your busy schedule.

Academic Calendar

Find out when registration opens, classes start, transcript deadlines and more. Applications are accepted year-round, so you can apply any time.

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How to Learn Civil Engineering: Build Your Way to the Top

Civil engineers design the world from concept to completion. Their creations range from the buildings and roads that we see above ground to the plumbing and power cables that run below. If you want to know how these came to life, then perhaps it’s time to learn civil engineering.

In this article, we cover the fundamentals of civil engineering, from what it is to its uses. Then, we venture into the civil engineering courses and resources you can use to master the field. Follow our guide and jumpstart your journey toward learning civil engineering.

Find your bootcamp match

What is civil engineering.

Civil engineering is a discipline that deals with designing, building, and maintaining man-made infrastructures created to improve the physical environment we live in. Among the structures that civil engineers build are the following:

• Footbridges
• Commercial buildings
• Water treatment systems

What Subjects Do You Need to Learn Civil Engineering?

If you are analytical, creative, and visionary, you may just be cut out for civil engineering. Mastery of the subjects listed below will help get you closer to a career as a civil engineer.

• Geography . Understanding the physical aspects of the world both in practice and in theory will equip you with an in-depth understanding of structural materials.
• Design . Studying these subjects will help you understand how to model the infrastructure that you’re set to build.
• Art . While architects are in charge of structural and architectural designs, civil engineers still need a basic understanding of these to effectively collaborate with the former.
• Mathematics . Mathematical theories are one of the fundamentals of engineering. Algebra, differential equations, and calculus are the main mathematical subjects you need to look out for.
• Physics . Civil engineers need to have a comprehensive understanding of the laws of physics to correctly make calculations for a project. Among these are the laws of thermodynamics, mechanics, vibrations, and tensile strength.
• Computer skills . To become an expert in civil engineering, you should know your way around the software tools and computer programs used in the industry.

Remember that it’s always a good idea to do further research about your prospective universities. Use your research to help you decide which educational institution offers the best civil engineering program.

Types of Civil Engineers

Because of the nature and scope of their field, civil engineers cannot be boxed in just one area. Like most professions, civil engineering comprises a few subcategories. Below are just a few of the branches that you should consider specializing in. Also included are the average salaries and projected job growth rates for each civil engineering branch.

1. Coastal Engineer

• Average Salary: $98,082
• Projected Job Growth (2019-29): 1% (slower than average)

As the name implies, coastal engineers are responsible for managing coastal areas. They handle projects involving “sea defense,” which entails building structures that protect coastal areas and properties against flooding and erosion, to name a few.

If a structure needs to be constructed near the coast, a coastal engineer will oversee the process. Environmental conditions must be taken into consideration with each coastal structure. A coastal engineer’s tasks include land reclamation, coastal defense, and environmental impact assessments.

2. Construction Engineer

• Average Salary: $89,484

This subfield deals mainly with designing, planning, and constructing infrastructures such as tunnels, bridges, roads, and dams. The majority of your time is thus spent on the field, doing practical projects and tasks.

Civil engineers mostly focus on design work and analysis, while construction engineers focus on construction and management. They, too, are problem solvers and aim to create structures that meet the needs of the population. They must also have a keen understanding of the lifespans of various pieces of infrastructure.

3. Environmental Engineer

• Average Salary: $78,563
• Projected Job Growth (2019-29): 3% (as fast as average)

Sometimes called “sanitary engineers,” environmental engineers deal mainly with thermal, biological, and chemical waste treatment. They also work to purify water and air supply systems and remediate polluted sites after accidental contamination.

Because of how rewarding it is, a career in environmental engineering usually tops the list of the best engineering careers to go for. It applies aspects of both environmental science and civil engineering to improve natural ecosystems.

Because of its wide-reaching scope, environmental engineering can be further divided into several areas of concentration, including:

• Water purification
• Air pollution control
• Wastewater treatment
• Hazardous materials management and recycling

4. Geotechnical Engineering

• Average Salary: $87,897

Just as how someone needs to check the integrity of structures, so should someone check the integrity of the ground they are built on. Unlike predictable materials such as concrete and steel, the soil is erratic.

So, it’s the job of geotechnical engineers to ensure that the foundations of any construction project are firm and solid before the project ensues. Because of this, geotechnical engineers must demonstrate expertise in soil science, mechanics, hydraulics, and materials science.

Geotechnical engineering is not a standalone career. Rather, you get to work with those involved in environmental science careers , such as soil scientists and geologists.

Materials Science Engineering

• Average Salary: $81,249
• Projected Job Growth (2019-29): 2% (slower than average)

This rich civil engineering branch combines principles of physics, engineering, and chemistry to help solve global problems. Materials science engineering focuses mostly on energy, manufacturing, biotechnology, and nanotechnology.

Material engineers create materials that improve structure. They look into how functional materials are and why some perform better than others. They are the ones who step in when we require advanced materials to manufacture products such as faster computers or safer cars.

Learn Civil Engineering

If you’re keen on directing your efforts toward learning civil engineering, there are several opportunities for you to do so. The more knowledge and skills you gain in this field, the more employable you become once you join the job market.

How Long Does It Take to Learn Civil Engineering?

Those looking to learn civil engineering through and through typically complete a four-year civil engineering degree. If you feel like carrying on toward a master’s degree, it will likely take an extra two years. According to data from 2012, one in every five civil engineers held a master’s degree, and the majority of them were in leadership roles.

Earning a doctorate would also put you on a path toward a consulting or teaching role at the college level. After graduating, you must pass an exam to become an engineer-in-training . If you’re preparing for your test, make sure to check out the practice tests and resources available online, which we will discuss further below.

How to Learn Civil Engineering: Step-by-Step

If you’re interested in shaping the world around you, consider studying for one of the civil engineering fields mentioned above. Whether your goal is to work in the public or the private sector, you can achieve your goal by following these steps.

• Attend an engineering event. Attending an open-day event at a university or job center helps you know whether an engineering career is right for you. The Institution of Civil Engineers holds events throughout the year, so be sure to check their calendar.
• Create a learning plan. As with most professions, you must have the right qualifications to become a civil engineer. Studying at a university is a popular option for aspiring civil engineers. Alternatively, you could enroll in any of the thousands of courses offered online, or even join an apprenticeship at a company.
• Pursue a master’s degree in civil engineering. A postgraduate degree will be helpful in this field. You can either combine your undergrad and post-grad degrees to save time or complete them separately. Either way, there are tons of online sources out there to help you find the right master’s degree program for you.
• Join a professional body for civil engineers. Several institutions provide civil engineering students and apprentices with free memberships.
• Secure a civil engineering job. Once you have completed the relevant courses and received your degrees and certifications, you can start getting hands-on experience. Join an apprenticeship program and leverage your experience to land a job.

The Best Civil Engineering Courses and Training

Undergraduate civil engineering students typically start with basic subjects before advancing to specialized courses. The online courses listed below will allow you to skip over the first step and get straight into learning the advanced concepts that surround civil engineering.

The Best Online Civil Engineering Courses

Below are the top online learning platforms you should consider as you explore the field of civil engineering and its many branches.

• Basics of Civil Engineering in Construction
• Structural Steel Design: Learn the Principles of Design
• Learning AutoCAD Civil 3D 2016
•  AutoCAD Civil 3D for Beginners
• Fundamentals of Bridge Design-Concept of design and modeling
• Prerequisites: Basic knowledge of civil engineering
• Time: Varies
• Price: From $11.99

Udemy’s variety of civil engineering courses could help you land your dream job. Take one of the courses above to learn more about structural analysis, distribution methods, and road bridge mechanics. Whether you are looking to brush up your skills or are just starting to learn about civil engineering, there is something for everyone.

• Cert Prep Autodesk Certified Professional: Civil 3D for Infrastructure Design
• InfraWorks: Enhancing and Optimizing Roads
• Practical Engineering
• InfraWorks: Enhancing and Optimizing Roads (2017)
• Prerequisites: Intermediate understanding of civil engineering
• Time: From 2 to 10 hours
• Price: Varies (First month free)

Explore an entire library of civil engineering courses offered by LinkedIn’s lynda.com. All of these have been divided into chapters and contain short videos for further learning. The above courses focus on both the theoretical and practical sides of civil engineering.

Learn how to use industry-leading software programs. Discover how to enhance and optimize roads in InfraWorks. Master the fundamentals of civil construction projects all in one seating.

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LinkedIn Learning

• Become a Civil Engineering CAD Technician
• Construction Management: Reading Civil Construction Drawings
• On the Job Site: Construction
• Construction Management: Introduction to Lean Construction
• Green Building Concepts Foundations
• Time: From 45 mins
• Prerequisites : None

Learn everything from using intersection objects to working with alignments, managing figures, and creating and grading objects. These LinkedIn Learning courses liven up the discussion as it explores civil engineering design software AutoCAD from an exciting perspective.  

• The Art of Structural Engineering: Bridges
• Explore water management concepts and technologies
• Engineering Calculus and Differential Equations
• Inclusive and Sustainable Cities
• Time : 2 months
• Prerequisites : Basic understanding of civil engineering
• Price: Varies

Get on your way toward a master’s degree in civil engineering via this online portal. EdX provides a selection of educational options to the field, including programs designed for experienced civil engineers looking to gain new skills.

Class Central

• Wind Energy
• The City and You: Find Your Best Place
• Environmental Management & Ethics
• Industrial Biotechnology
• Dynamic Energy Modelling of Buildings: Thermal Simulation
• Time : 2 to 11 weeks 
• Prerequisites: Basic to intermediate knowledge of civil engineering
• Price: From $13.99

Join thousands of other budding civil engineers taking these free online courses offered by the massive open online course provider Class Central. The platform offers courses in conjunction with some of the world’s top universities. Learn about anything from geographical engineering to waste management and 3D CAD applications.  

Accreditation Boards That Offer Civil Engineering Certifications

Many accreditation boards offer certifications in civil engineering and its branches. Areas of specialty include building construction, transportation and water control, land management, and geotechnical engineering. Some well-known institutions that provide certificates for these areas include:

• The National Institute for Certification in Engineering Technologies (NICET)
• The CPD Certification Service
• American Society of Certified Engineering Technicians
• Institute of Civil Engineers (ICE)
• American Academy of Water Resources Engineers 
• American Academy of Environmental Engineers
• Council of Engineering and Scientific Specialty Boards (CESB)
• National Society of Professional Engineers (NSPE)
• Accreditation Board for Engineering and Technology (ABET)

Best Civil Engineering Books

There are plenty of ways to supplement your civil engineering education. If you are more of a bookworm, the literature below might be of interest.

Clean Water: An Introduction to Water Quality and Water , Kenneth Vigil

If you’re concerned about where the water you use daily comes from and want to be better informed, this is the book for you. The author provides a comprehensive introduction to many aspects of geographical, cultural, regulatory, and scientific issues that correlate with water pollution control and quality. If you want to learn the basic scientific principles of these concepts, this is a great place to start.

Structural Wood Design: ASD/LRFD Hardcover , Abi Aghayere

This practical timber design guide discusses the fundamental concepts of designing structures using this accessible natural material. The book is ideal for construction engineers and is based on real-world design issues. It provides detailed descriptions of all the processes involved in building with wood.

BTEC National Engineering Student Book , Andrew Buckenham

This book will help prepare you for your civil engineering assessments. It includes case studies, theoretical principles, and other valuable industry information.

Should You Study Civil Engineering?

Given the fact that civil engineering involves the construction of almost everything we see around us, you may have thought about entering the field. This fascinating subject will become even more intriguing once you understand how it works and how it impacts even future generations.

The civil engineering courses and resources above are a great place to start. Tap into all that is available to you as you take it one step at a time, combining practical and theoretical knowledge.

We hope this article has provided you with some valuable information in learning the ins and outs of civil engineering. Now, start building your way to the top!

Civil Engineering FAQ

As with all engineering disciplines, learning about civil engineering promises a challenging path ahead. Because of the scope of the role, aspiring civil engineers must develop an in-depth understanding of engineering theories and principles. They must also bulk up on practical experience through internships and apprenticeships.

While math isn’t the end-all-be-all of a civil engineering career, it does take up important space in the workplace. While you won’t need to be a math genius to be a civil engineer, you’ll need to be comfortable with working with formulas and equations.

As of 2019, civil engineers were earning a median pay of $87,060, according to the Bureau of Labor Statistics. Civil engineers working for the federal government earned the most at $95,380. The job outlook is relatively strong in the field with the projected addition of 5,500 civil engineering jobs by 2029.

Yes, you’ll need to pursue a bachelor’s degree in civil engineering or civil engineering technology to enter the field. A significant number of civil engineers looking to advance their careers also earn a graduate degree and a license. Entry-level civil engineers don’t require either.

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	Purdue University
	Sep 17, 2024   2016-2017 University Catalog     2016-2017 University Catalog [ARCHIVED CATALOG] | About the Program Civil engineers design and construct the world’s infrastructure: buildings and bridges; tunnels, dams, and levees; harbors and canals; water-supply and waste-disposal systems; airports, highways, and railroads; pipelines and power lines. As a Civil Engineering undergraduate student you have many opportunities to plan your curriculum and even more opportunities to build your future in civil engineering! You can explore the nine areas of study within civil engineering along with selecting the courses to design your own plan of study. You and your advisor can discuss your career goals to tailor a program to meet your goals.  Instructional laboratories in structural behavior, hydraulics, surveying, and civil engineering materials are offered in the sophomore and junior years. Further study includes 30 credits of technical electives allowing students to tailor their studies to their speciality area of choice. Speciality areas include architectural, construction, environmental, geomatics, geotechnical, hydraulics, materials, structures, transportation, and infrastructure systems engineering. Senior design projects consist of real-world applications in theoretical role play. Recent projects have included designing possible layouts for the proposed US-231 bypass that will run around the perimeter of campus to connect its north and south ends. Another project explored adding box seats to our basketball arena by raising the roof to make room. Another project explored a reuse design for the Tippecanoe County Superfund Site Sanitary Landfill.  Students participate in these projects from site exploration, to budget management, to mock designs. Degree Requirements and Supplemental Information The full Program Requirements for 2016-17 Civil Engineering    include all Supplemental Information and selective lists of those categories which a student must fulfill in order to earn their degree. These are intended to be printer-friendly, but include less descriptive course detail. Please see below for program requirements and the necessary degree fulfillments. Code-BSCE 132 Credits for Graduation Students must have a graduation index of 2.0 and a CE index of 2.0 Civil Engineering Major Courses Required ce courses [grade of c- or better required] (61 credits). COM 11400 - Fundamentals Of Speech Communication CGT 16400 - Graphics For Civil Engineering And Construction MA 26100 - Multivariate Calculus CE 20300 - Principles And Practice Of Geomatics CE 29202 - Contemporary Issues In Civil Engineering PHYS 24100 - Electricity And Optics CE 29700 - Basic Mechanics I (Statics) MA 26500 - Linear Algebra CE 23100 - Engineering Materials I CE 27000 - Introductory Structural Mechanics CE 29800 - Basic Mechanics II Dynamics MA 26600 - Ordinary Differential Equations CE 33100 - Engineering Materials II CE 34000 - Hydraulics CE 34300 - Elementary Hydraulics Laboratory STAT 51100 - Statistical Methods CE 39201 - Technical Communication In Civil Engineering CE 39800 - Introduction To Civil Engineering Systems Design Basic Science Selective - Credit Hours: 3.00 ME 20000 - Thermodynamics I CE 49800 - Civil Engineering Design Project CE Technical Electives (30 credits) https://engineering.purdue.edu/CE/Academics/Undergraduate/PlanStudy/technical-electives Technical Elective I - Credit Hours: 3.00 Technical Elective II - Credit Hours: 3.00 Technical Elective III - Credit Hours: 3.00 Technical Elective IV - Credit Hours: 3.00 Technical Elective V - Credit Hours: 3.00 Technical Elective VI - Credit Hours: 3.00 Technical Elective VII - Credit Hours: 3.00 Technical Elective VIII - Credit Hours: 3.00 Technical Elective IX - Credit Hours: 3.00 Technical Elective X - Credit Hours: 3.00 Other Departmental / Program Course Requirements (27-30 credits) MA 16500 - Analytic Geometry And Calculus I (satisfies FYE requirement) or MA 16100 - Plane Analytic Geometry And Calculus I (satisfies FYE requirement) MA 16600 - Analytic Geometry And Calculus II (satisfies FYE requirement) or MA 16200 - Plane Analytic Geometry And Calculus II (satisfies FYE requirement) CHM 11500 - General Chemistry (satisfies FYE requirement) PHYS 17200 - Modern Mechanics (satisfies FYE requirement) ENGL 10600 - First-Year Composition (satisfies FYE requirement) ENGR 13100 - Transforming Ideas To Innovation I (satisfies FYE requirement) ENGR 13200 - Transforming Ideas To Innovation II (satisfies FYE requirement) CS 15900 - Programming Applications For Engineers (satisfies FYE Science Selective requirement) or CHM 11600 - General Chemistry (satisfies FYE Science Selective requirement) General Education Electives (15 credits) (plus 1 cr from CE 29202    and 2 cr CE 39201   ) https://engineering.purdue.edu/CE/Academics/Undergraduate/PlanStudy/Curriculum-Flowchart-General-Fall-2014.pdf General Education Elective I - Credit Hours: 3.00 General Education Elective II - Credit Hours: 3.00 General Education Elective III - Credit Hours: 3.00 General Education Elective IV - Credit Hours: 3.00 General Education Elective V - Credit Hours: 3.00 University Foundational Core Requirements Human Cultures - Humanities - Gen Ed I Human Cultures - Behavioral/Social Science - Gen Ed II Information Literacy -   ENGL 10600 - First-Year Composition Science Selective -   CHM 11500 - General Chemistry Science Selective -   PHYS 17200 - Modern Mechanics Science, Technology & Society Selective - Basic Science Select Written Communication -  ENGL 10600 - First-Year Composition     Oral Communication -   COM 11400 - Fundamentals Of Speech Communication Quantitative Reasoning -   MA 16500 - Analytic Geometry And Calculus I Program Requirements Fall 1st year. MA 16500 - Analytic Geometry And Calculus I CHM 11500 - General Chemistry ENGL 10600 - First-Year Composition ENGR 13100 - Transforming Ideas To Innovation I Spring 1st Year MA 16600 - Analytic Geometry And Calculus II PHYS 17200 - Modern Mechanics FYE Science Selective - Credit Hours: 3.00 ENGR 13200 - Transforming Ideas To Innovation II Fall 2nd Year Spring 2nd year, fall 3rd year. Technical Elective I (Breadth) - Credit Hours: 3.00 Spring 3rd Year Technical Elective II (Breadth) - Credit Hours: 3.00 Technical Elective III (Design) - Credit Hours: 3.00 Fall 4th Year Technical Elective IV (Breadth) - Credit Hours: 3.00 Technical Elective V (Design) - Credit Hours: 3.00 Spring 4th Year Technical Elective VIII (Breadth) - Credit Hours: 3.00 Technical Elective IX (Design) - Credit Hours: 3.00 132 semester credits required for Bachelor of Science in Civil Engineering degree. Students must have a graduation index of 2.0 and a CE index (CE courses only) of 2.0. Degree Requirements The student is ultimately responsible for knowing and completing all degree requirements. MyPurduePlan is a knowledge source for specific requirements and completion. Foreign Language Courses Foreign Language proficiency requirements vary by program.  For acceptable languages and proficiency levels, see your advisor: American Sign Language, Arabic, Chinese, French, German, (ancient) Greek, Hebrew, Italian, Japanese, Latin, Portuguese, Russian, Spanish Critical Course The  ♦  course is considered critical. A Critical Course is one that a student must be able to pass to persist and succeed in a particular major. Tools & Services Chemical, Biological, and Environmental Engineering Civil and Construction Engineering Electrical Engineering and Computer Science Mechanical, Industrial, and Manufacturing Engineering Nuclear Science and Engineering Biological & Ecological Engineering Alumni & Partners Civil Engineering Request Information Description As a civil engineer, you'll play a crucial role in designing and maintaining essential public works like roads, bridges, water supply systems, and more. In this program, you'll gain a solid foundation in basic sciences, social sciences, humanities, and engineering sciences and have the flexibility to delve deeper into areas that interest you the most. With hands-on design projects and the opportunity to participate in paid internships, you'll get real-world experience and be ready to hit the ground running after graduation. From geospatial engineering to structural design, transportation engineering to computer programming, our program offers advanced coursework to equip you with the skills you need to succeed in this in-demand and rewarding field. With a diverse and highly qualified faculty, you'll have all the support you need to achieve your goals and make a difference.   Undergraduate Information Sample courses and requirements. Strength of Materials   Civil and Construction Engineering Materials   Geotechnical Engineering   Design of Steel Structures   Transportation Engineering    Sample class plan   Full list of requirements Clubs and organizations Associated General Contractors of America Student Chapter    Earthquake Engineering Research Institute/OSU Student Chapter   Engineers Without Borders - Oregon State University   Geo-Institute Graduate Student Organization   Institute of Transportation Engineers - OSU Student Chapter   Marine Renewable Energy Club   Search all clubs     Have a question about a club? Ask the Engineering Student Council .   Student experience “Engineers Without Borders has taught me to push my boundaries. It has given me friendships, both here and all across the world. It has taught me the value of working for a cause, being part of something bigger than myself. The work I do, no matter how big or small, can make a difference.” – Rachel Yonamine, B.S. civil engineering ’19.  Read about Rachel’s experience at Oregon State .  Spanning the globe   Rick Robertson, civil engineering ’85, had no idea how far he’d go when he left his hometown of McMinnville. Since 1989, his career has taken him around the world, literally, to work on major projects — the latest being the $5.25 billion Panama Canal expansion.  Bringing order, efficiency to mass transit design projects   The next time you hop on a subway or ride a train between terminals at an airport, give a nod to engineers like Chris Tyndall, B.S. civil engineering ’09.  Pure water from a box is project’s promise   What if you could give millions of people access to safe drinking water and help solve the climate crisis at the same time? As a bonus, you could help your own community prepare for when the Big One comes. That’s the vision behind a personal-sized water treatment appliance now in development by a team led by two Oregon State engineering alumni.  Connecting with communities for clean water How can students at Oregon State improve access to clean water for rural communities around the world? We hear from three students who worked in Nicaragua and Cambodia on projects that changed people’s lives -- including their own.  Graduate Information Program overview. The School of Civil and Construction Engineering offers graduate work leading to the Master of Engineering, Master of Science, and Doctor of Philosophy degrees. The MEng, M.S., and Ph.D. degrees offer concentrations in civil engineering, coastal and ocean engineering, construction, engineering education, geomatics, geotechnical engineering, infrastructure materials, structural engineering, transportation engineering, water resources engineering, and interdisciplinary areas. Areas of concentration can also be combined to form an integrated civil engineering M.S. program or M.S. and Ph.D. minors. The MEng is a course work-only degree requiring a final oral exam. For the MS degree, a thesis or project is required. The Ph.D. degree requires a dissertation. Degree programs prepare the student for advanced-level entry into professional engineering practice and for careers in research and teaching. Majors within the department constitute approximately two-thirds of the total program. Minor fields may be selected from departmental offerings in different subject areas, from other engineering disciplines, or from other fields of study that support the major. The school also participates in the Master of Arts in Interdisciplinary Studies program. For more information, contact the CCE Graduate Program Coordinator, 541-737-4934, or  [email protected] Areas of concentration Architectural Engineering Coastal and Ocean Construction Engineering Education Geotechnical Infrastructure Materials Transportation Water Resources MEng in Civil Engineering Requirements   Degree information The MEng is a coursework-only master's degree of 45 credits based on curricula that allow graduate students to efficiently focus on the academic courses that are most relevant to their professional objectives. Each student works with a committee and undergoes a final oral examination. Students pursuing the MEng degree are typically not eligible for Graduate Assistantships but may apply for  scholarships .  M.S. in Civil Engineering Degree Requirements   Program information Ph.D. in Civil Engineering Graduate admissions. The School of Civil and Construction Engineering offers outstanding opportunities for graduate studies in the fields of Civil (CE) and Construction Engineering (CEM). The Oregon State School of Civil and Construction Engineering (CCE) excels in collaborative research and preparing work-ready graduates. Corvallis is a great place to live, and the friendly and skilled people here help make our school a truly enjoyable place to further your education. Please review the resources on this page to organize your application. Minimum Admission Requirements To become a Civil or Construction Engineering graduate student you must be admitted to Oregon State University through both the OSU Graduate School and CCE. Our faculty carefully review the material submitted to determine adequacy of academic background and alignment of the proposed study with the expertise of the faculty. The Office of Admissions will determine whether the general university conditions for admission have been met. Applicants will be notified by the Office of Admissions as to the action taken. The School does not have the capacity to accommodate all applicants who meet the minimum admission requirements.  When to Apply  Standard graduate admissions for CCE are for fall term only. If you wish to be considered for financial support beginning in fall term, you must apply by December 31 of the same year. We do not accept applications for winter or spring starts unless the applicant has explicit approval of a CCE faculty member who will serve as the research advisor. Because such applications often fall outside of the typical review cycle, they will be handled on a case-by-case basis, and the review schedule will vary. Prior Degree Applicants must have a baccalaureate degree from an accredited college or university. International students must have completed the equivalent of a four-year American baccalaureate degree. Grade Point Average (GPA) School of Civil and Construction Engineering requires a minimum undergraduate grade point average (GPA) of 3.00 (on a 4-point scale). The GPA is based on the last 90 graded quarter (60 semester) credit hours of the first baccalaureate degree plus all work completed thereafter. For international students, the GPA is based on the last 2 years of undergraduate courses. GRE GRE scores are not required for admission, but applicants may include GRE scores with their application. Language Proficiency Current English language proficiency requirements are posted on the International Student page of the OSU Graduate School. Statement of Objectives Applicants must include a description of their objectives in pursuing the advanced degree. This should be a brief summary (1,000 words or less, which is typically about two typed pages) of the applicant's career goals, research interests, and pertinent experience. This information is submitted as part of the electronic admission form (see below). Recommendation Letters You must provide the names and email addresses of three professional references as part of the online application. Your references will be sent instructions on how to submit their letters. Applying for Admission The university application must be completed and submitted online. Graduate handbook 2022-2023 handbook Faculty profile Ingrid Arocho, assistant professor of construction engineering, found in the College of Engineering a place where she could succeed in her career without sacrificing other important aspects of her life. “I was looking for a place that I felt I could have my research and career — and have a family with a good work-life balance,” she said.  “There’s much more we need to research in transportation; you can’t just build your way out of congestion.” – Brain Staes, doctoral student, civil engineering.  Read about Brian’s experience at Oregon State .    Oregon State University places 2nd in DOE Marine Energy Collegiate Competition   A group of Oregon State University students placed second out of 17 teams representing five countries in the Department of Energy’s 2022  Marine Energy Collegiate Competition . The purpose of the competition is to produce new ideas for capturing the power of the ocean in pursuit of global climate goals, according to the DOE.  Spanning the globe      Rick Robertson, M.S. civil engineering ’87, had no idea how far he’d go when he left his hometown of McMinnville. Since 1989, his career has taken him around the world, literally, to work on major projects — the latest being the $5.25 billion Panama Canal expansion. Research stories A way with water “It’s really important to find better ways of managing water, because what we were doing in the past is not working for our current needs,” said Meghna Babbar-Sebens, associate professor of water resources engineering. Her approach is to look to nature for solutions by re-naturalizing degraded watersheds, including restoration of natural areas like wetlands. ‘Bike boxes’ can improve urban intersections for cyclists, Oregon State research shows   A roadway setup known as the “bike box,” a painted-off area for bicyclists at the front of an intersection, can help them stay safe at urban, signalized intersections, research by the Oregon State University College of Engineering indicates.  Oregon State researchers develop framework for modeling post-earthquake infrastructure resilience   Researchers at Oregon State University have developed a computational model for predicting the resilience of local and regional infrastructure networks and the recovery time for impacted communities following a massive earthquake and tsunami in the Cascadia Subduction Zone.  Left-turn traffic signals, better lighting, shorter crossings would enhance older pedestrians’ safety   Research by the Oregon State University College of Engineering and Portland State University suggests a trio of roadway treatments would enable people age 65 and older to travel on foot more safely.  Dune erosion solutions Can plants fortify Oregon’s coastal dunes against storm surge?  Meagan Wengrove , assistant professor of coastal and ocean engineering, built scale versions of dunes in one of the world’s largest wave flumes to find out.  Job Market Outlook Make an informed decision to help meet your career goals by using this real-time job market information. Accreditation Undergraduate. The Bachelor of Science (B.S.) and Honors Bachelor of Science (H.B.S.) degrees in the civil engineering program are accredited by the Engineering Accreditation Commission of ABET,  http://www.abet.org . The ABET-accredited civil engineering curriculum is designed to prepare students for professional engineering registration and for responsible engineering positions with business, industry, consulting firms, the military, utilities, or public agencies. A student may also earn a concurrent non-accredited Bachelor of Arts (B. A.) degree by completing 32 additional credit hours in residence, including proficiency equivalent to that attained at the end of the second year of a foreign language as certified by the Department of Foreign Languages and Literature. More information Related Stories Browse Course Material Course info, instructors. Juliana Furgala Jennifer Swanson David Maurer Maxsimo Salazar Amanda C. Prescott Cristina Gath As Taught In Engineering Learning Resource Types Ll educate: introduction to engineering concepts, civil engineering. You may ask how are roads and bridges built? Well, the answer is civil engineering. Civil Engineers design, build, and supervise major infrastructure projects and systems.  This may include buildings, parks, roads, bridges, canals, dams, airports, pipelines, railways and water supply/sewage treatment systems. Specializations: Environmental Geotechnical Water resources Transportation Construction Urban planning/smart cities Math (advanced algebra, calculus, trigonometry, statistics) Sciences (physics, biology, chemistry) Programming/algorithms Engineering fundamentals Geometric design Structural dynamics Electrical circuits Mechanics of materials Fluid mechanics and hydraulics Environmental geotechnology Transportation engineering American Society of Civil Engineers (ASCE) : ASCE advances professional knowledge and improves the practice of civil engineering. American Concrete Institute (ACI) : ACI International is dedicated to improving the design, construction, manufacture, and maintenance of concrete structures. American Institute of Steel Construction (AISC) : AISC’s purpose is to expand the use of fabricated structural steel through research and development, education, technical assistance, standardization, and quality control. Construction Specifications Institute (CSI) : CSI provides technical information and products, continuing education, professional conferences, and product shows to enhance communication among all the non-residential building design and construction industry’s disciplines. American Institute of Architects (AIA) : AIA research undertakes as its mission to support architectural research and design excellence by identifying the research needs of the architectural discipline. in its broadest and most inclusive sense. AIA encourages, facilitates, and supports research activities which meet these needs and disseminates research results. Association of Iron and Steal Technology (AIST) : AIST is dedicated to the advancement of technical and engineering phases of the production and processing of iron and steel. Association of Environmental & Engineering Geologists (AEG) : Engineering geology is geologic work that is relevant to engineering, environmental concerns, and the public’s health, safety, and welfare. Conferences: ICME 2021: Municipal Engineering Conference ICECE 2021: Environmental and Civil Engineering Conference ICCESE 2021: Civil, Environmental and Structural Engineering Conference ICCBE 2021: Civil and Building Engineering Conference ICURAVAHRV 2021: Understanding and Responding to Aquifer Vulnerability, Associated Health Risks and Vulnerability Conference Wikipedia, Try Engineering (IEEE) , Civil Engineering Conferences , Engineering Professional Associations & Organizations , Engineering Societies & Organizations , professional association websites You are leaving MIT OpenCourseWare BS in Civil Engineering Department of Civil Engineering Vision & Mission Accreditation Career Opportunities External Advisory Boards Contact Us-Leadership by Department Give to SEAS Biomedical Engineering (BS) Civil Engineering (BS) Civil Engineering (MS) Computer Engineering (BS) Computer Science (BS) Computer Science (MS) Computer Science and Engineering (PhD) Cybersecurity (BS) Electrical Engineering (BS) Electrical Engineering (MS) Information Technology (BS) Mechanical Engineering (BS) Mechanical Engineering (MS) SEAS Leadership Faculty Expertise Majors at SEAS Brief Sheet – Overview of SEAS Tutoring & Office Hours Student Clubs & Organizations Scholarships, Internships Announcements Accelerated Bachelor’s/Master’s Program Course Descriptions Transfer to UDC UDC New Student Orientation NASA-MIRO: CAM-STAR Center for Advanced Manufacturing in Space Technology & Applied Research (CAM-STAR) NIH C06: Specialized Technological Center For Assistive Rehabilitation Research (STAR) NSF-CREST: CNRE Center for Nanotechnology Research and Education (CNRE) Additive Manufacturing Post Processing Partnership (AMP3) Center of Excellence for Acoustic and Seismic Sensing of Urban Environments SEAS Research Center Center for Biomechanical & Rehabilitation Engineering (CBRE) Center of Climate Change Analytics Research Grants Publications Summer Programs 2024 Dialogue with Alumni-Engineering April 2024 SEAS Programs in 2-minutes Newsletters Bachelor of Science in Civil Engineering Civil Engineering is the oldest branch of the profession of engineering that deals with planning, design, construction and maintenance of the built environment on which society depends. Many of the life sustaining important things in our lives are the product of Civil Engineering. There are two broad types of civil engineer leaders:  those who work in creating visible infrastructures such as  buildings, highways, bridges, airports, ports, waterways, and dams; and those who work behind the scenes such as in building foundations, water treatment plants, water supply pipe systems, ecological restoration and underground drainage systems. The program for the Bachelor of Science in Civil Engineering offers courses in the several sub-disciplines of Civil Engineering that include structural engineering, water resources engineering, geotechnical engineering, transportation engineering, and construction engineering. The Civil Engineering Program is accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org . The objective of the Civil Engineering Program is to prepare students for engineering careers and/or advanced study in Civil Engineering and to offer research and service programs for the general public. Civil Engineers have responsibility for designing various structures, including bridges, highways, and infrastructure facilities. The program places special emphasis on solving problems in urban areas, particularly in the Washington, D.C. metropolitan area. Civil Engineers are employed in both industry and governmental agencies. The demand is significantly higher than the number of graduates. The expertise of the Civil Engineering faculty, combined with their dedication to quality of instruction, their willingness to provide individual attention to students, and their experience provide the basis for a solid fundamental engineering education. Program of Study Model Plan of Study – Entering Fall 2018 Model Plan of Study – Entering Fall 2016 Handout  –  One sheet Program enrollment & graduation data. Fall 2016 Fall 2017 Fall 2018 Fall 2019 Fall 2020 Fall 2021 Fall 2022 Fall 2023 91 86  74  61 46 35 24 28 July 2015- June 2016 July 2016 – June 2017  July 2017 – June 2018 July 2018 – June 2019 July 2019 – June 2020 July 2020 – June 2021 July 2021 – June 2022 July 2022 – June 2023 8 11 13  28 22 17 15 6 ABET Accreditation Information Program Educational Objectives In accordance with ABET accreditation criteria and pursuant to the University’s mission statement, the following Program Educational Objectives (PEOs) have been established. During the initial years of their careers, graduates will: PEO 1: Be successfully employed in civil engineering within the general areas of civil engineering or closely related field with companies and organizations in industry, government, non-governmental organizations, and entrepreneurial ventures. PEO 2: Advance their knowledge of civil engineering or closely related fields to pursue graduate studies and/or professional studies. PEO 3: Pursue professional development opportunities and career advancement through successfully earning their professional licensure [by passing Fundamentals of Engineering (FE) examination and subsequent licensure as a Professional Engineer (PE)] within six years of graduation, and/or certifications, continuing education credits, or leadership training, research opportunities, or post-graduate study. PEO 4: Be active in service to the profession and serve as effective professional role models based on commitment to lifelong learning to meet evolving engineering challenges facing society. Student Outcomes Students graduating from the civil engineering program are expected to acquire the following: An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics. An ability to apply the engineering design to produce solutions that meet specified needs with consideration for public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors. An ability to communicate effectively with a range of audiences. An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts. An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives. An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions. An ability to acquire and apply new knowledge as needed, using appropriate learning strategies. Contact the Program Director Dr. Bryan Higgs [email protected] Department Pages Civil Engineering Home Page Faculty & Staff in Civil Engineering External Advisory Board Opportunities News in the Civil Engineering Department Degree Programs MS in Civil Engineering Ph.D. in Computer Science and Engineering with a Specialization in Civil Engineering CVEN Civil Course Descriptions Civil Engineering – Bachelor’s (BS) Get more information, how to apply. Prospective students applying to the B.S. in Civil Engineering program must first apply to UTA through the Office of Admissions. Scholarships UTA offers merit-based scholarships and financial aid for incoming students who meet eligibility criteria. Transfer Students UTA welcomes transfer students to start in fall, spring, or summer terms through guaranteed admissions or a holistic admissions review process. International Students We welcome international and non-U.S. students and help them navigate the process of applying and enrolling at UTA as international students. Civil Engineering Our Civil Engineering bachelor’s degree program is the oldest and most comprehensive in North Texas. Students may choose to enhance their skills with a minor in sustainable engineering, making them even more attractive to future employers. Undergraduate 130 credit hours, college of engineering, program overview. Learn what to expect and what the program offers. About the Program UTA’s Bachelor of Science in Civil Engineering degree program is the oldest and most comprehensive in North Texas. Students may choose to enhance their skills with a minor in sustainable engineering, making them even more attractive to future employers. For more information about the program, including admission requirements, academic requirements, course lists, educational program objectives, and student outcomes, visit the Civil Engineering catalog page. Degree Plans The College of Engineering advisors and faculty work with students on their four-year course sequence to ensure progress toward degree completion. Degree plans for all Engineering programs are available here. Certificate Programs Certificates are offered in key areas desired by industry, and many of the courses can be completed online to accommodate students’ busy schedules. Undergraduate certificate programs are offered in conjunction with bachelor’s degree programs, while graduate certificates can be completed while enrolled in a master’s degree program or separately as a non-degree-seeking student. Learn more about the College of Engineering’s Certificate Programs . Program Accreditation The program is accredited  by the Engineering Accreditation Commission of ABET, www.abet.org , under the commission's General Criteria and the Program Criteria for Civil Engineering. All discipline specific programs in the College of Engineering meet educational requirements for professional licensure or certification in all U.S. states, territories, and the District of Columbia. How To Apply Engineering programs follow the admissions criteria and deadlines set by UTA’s Office of Admissions. Prospective students applying to the B.S. in Civil Engineering program must first apply to UTA through ApplyTexas or The Common Application, submit SAT/ACT scores and transcripts, and pay the application fee or provide a fee waiver. Learn more about UTA’s application criteria as well as next steps in the enrollment process here.   The Blaze Forward Scholarship Program Using a combination of grants, tuition waivers, and scholarships, UTA’s Blaze Forward Program provides students meeting all eligibility requirements with funding to cover 100% of their tuition and course fees. Eligibility criteria includes: Be a Texas resident paying the in-state tuition rate Be eligible to receive awards through the Federal Pell Grant and the TEXAS Grant Have a yearly family income of $85,000 or less Enroll as a full-time student at UTA (minimum of 12 undergraduate hours each long semester) For more information, visit the Blaze Forward Program page . Merit-Based Scholarships The Blaze Forward Program is one of many financial assistance programs offered at UTA. Merit-based scholarships are available to the highest academically achieving incoming freshmen and transfer students. The Scholarship Committee reviews students’ academic records based on a variety of factors including high school rank, GPA, test scores and difficulty of high school courses. Submission of an SAT or ACT test score is required to be considered for the highest academic scholarships. We encourage students to apply to UTA and submit their FAFSA/TAFSA to determine eligibility for scholarships and financial aid. Complete the FAFSA online at StudentAid.gov. UTA school code: 003656. For more information, visit the UTA Scholarships page . Other Ways to Fund Your College Education Undergraduate students are eligible for federal loans and can borrow up to $12,500 each year in Direct Unsubsidized Loans , which may be partially subsidized. Direct PLUS Loans , which are available to parents of undergraduate students, also can be used for the remainder of costs not covered by other financial aid. Students are encouraged to complete the FAFSA to see if they qualify for federal loans. Banks and credit unions offer private student loans. Students may apply directly with the lender. To calculate your approximate tuition and costs, use our Tuition Estimator . Through our guaranteed admissions requirements or holistic review process, we welcome transfer students to start in the fall, spring, and summer terms. For information on how to apply, required documents to submit, and application deadlines, visit our Transfer Students page . UTA Course Equivalency Tool Transfer students can use UTA’s Course Equivalency Tool to look up courses from another college or university and view their transfer equivalencies at UTA. Official transfer evaluations are conducted for current and admitted students after receipt of an official transcript as part of the admissions process. The course equivalency tool provides an unofficial transfer evaluation and is not guaranteed as transfer equivalencies are revised frequently. Transfer Scholarships UTA offers support to high performing, incoming, undergraduate transfer students who are working on their first baccalaureate degree. For scholarship amounts, criteria, and deadlines, visit our Transfer Scholarship page . Career Resources Students come to the College of Engineering to learn the skills they need to begin a fulfilling career. The College hosts two career fairs each year with more than 200 employers and also provides mentorship, mock interviews, résumé writing and résumé reviews by alumni who are working in industry. Engaged, Supportive Faculty Our faculty have a wide array of research interests and specialties. Most invite undergraduate students interested in research to participate in their labs and are willing to spend time after class discussing questions and particular interests. Get to Know Us College of Engineering Doctoral Degrees College of Engineering Master's Programs College of Engineering News and Events College of Engineering Student Organizations College of Engineering Innovation Day Living and Learning in the DFW Metroplex The DFW Metroplex is known for its diverse culture, active job market, vibrant restaurant and cultural scene, and extensive outdoor recreation activities. With 24 Fortune 500 companies including Lockheed Martin, Bell Textron, Alcon, McKesson, AT&T, and CBRE headquartered here, UTA students have access to an extensive network of opportunities for internships and jobs. Carnegie R-1 Institution for Research UTA students benefit from an immersive, undergraduate and graduate research experience where they can actively contribute to a vibrant intellectual community. Engineering-related research expenditures contribute more than $64 million of the $125 million total in university research expenditures. Makerspaces Across Campus UTA’s Central Library FabLab boasts 8,000-square-feet of makerspace featuring 3D printers, laser cutters, screen printers, kilns, and much more for learners from any discipline or experience level. In addition to the FabLab, the College of Engineering boasts four makerspaces with a variety of equipment available to students who wish to create prototypes or complete projects. MORE INFORMATION Engineering Recruiter We offer individual tours and small group tours or meetings with a College recruiter or student ambassador. Check out the College of Engineering website to learn more about the college and all it has to offer. Parents & Family Parents and families are critical partners in a student’s academic success. Check out our parent and family resources including newsletters, special programming, and events. Skip to main content Skip to accessibility statement Student portal Staff portal Course Guide My Shortlist Save to shortlist Foundation Apprenticeship: Civil Engineering (Schools Pupils Only) This Foundation Apprenticeship (FA) is made up of National Certificate: Civil Engineering, selected SVQ units, and an Industry Challenge Project work placement where you will gain invaluable work experience whilst undertaking a Vocational Qualification (VQ).Together, these aspects ensure that you gain knowledge, skills and competence, and ensures that you gain the relevant theories and reasons behind the work-based actions which complement the vocational elements of the programme. You will also be registered with the Institution of Civil Engineers (ICE) as student members as part of the Foundation Apprenticeship. Course information Who is this course for, what skills will i learn, what will i study, application information, application process, what are the entry requirements, what further study options are available, what career opportunities are there. Share on Facebook Share on LinkedIn  »  Orenburg Oblast Civil engineering Civil engineering in Totskoye, Orenburg Oblast 1.  4.5   ·  2.  3.5   ·  3.  4.  4.0   ·  5.  6.  7.  8.  9.  5.0  10.  Top 200 Universities in the World Top 200 Universities in North America Top 200 Universities in Latin America Top 200 Universities in Europe Top 200 Universities in Africa Top 200 Universities in Asia Top 50 Universities in Oceania Top 200 English-speaking Universities Top 200 Spanish-speaking Universities Top 200 Arabic-speaking Universities Top 200 Universities on Facebook Top 200 Universities on Twitter Top 200 Universities on Instagram Top 200 Universities on YouTube Top religiously affiliated Universities Universities in North America Universities in Latin America Universities in Europe Universities in Africa Universities in Asia Universities in Oceania A-Z Guide to University Programs, Courses and Degrees University Guides and Articles Universities on Facebook Universities on Twitter Universities on Instagram Universities on YouTube Universities on TikTok Universities on LinkedIn Free online courses by OEG Universities Higher Education-related Organizations Directory of University Libraries Religiously Affiliated Universities Higher Education Glossary A-Z list of World Universities Orenburg State Medical University Publish your uniRank University Ranking ™ <!-- uniRank University Ranking -- > <iframe src ="https://www.4icu.org/reviews/rankings/university-ranking-10964.htm" width="150" height="80" frameborder="0" scrolling="no" > </iframe > <!-- end -- > Established in 1944, the Orenburg State Medical University is a non-profit public higher education institution located in the urban setting of the large city of Orenburg (population range of 500,000-1,000,000 inhabitants), Orenburg Oblast. Officially recognized by the Ministry of Health of the Russian Federation, Orenburg State Medical University (OrSMA) is a small-sized (uniRank enrollment range: 3,000-3,999 students) coeducational Russian higher education institution. Orenburg State Medical University (OrSMA) offers courses and programs leading to officially recognized higher education degrees such as bachelor's degrees, master's degrees and doctorate degrees in several areas of study. See the uniRank degree levels and areas of study table below for further details. This 80-year-old Russian higher-education institution has a selective admission policy based on entrance examinations and students' past academic records and grades. International applicants are eligible to apply for enrollment. OrSMA also provides several academic and non-academic facilities and services to students including a library, housing, sports facilities, financial aids and/or scholarships, online courses and distance learning opportunities, as well as administrative services. University Snapshot Selectivity University Identity Name Name (Non Latin) Acronym Founded Screenshot Video Presentation n.a.; please an official Orenburg State Medical University general video presentation. University Location Address ul. Sovetskaya, 6 Orenburg 460000 Orenburg Oblast Russia +7 (3532) 776 103 +7 (3532) 772 459 Search Engine Fields of study / degree levels, introduction. What is the difference between comprehensive/generalist and specialized universities in terms of the range of fields of study they offer, degree levels available and academic and carreer paths pros and cons? Read our guide article about generalist and specialized universities to learn more. Fields of Study and Degree Levels Matrix The following Orenburg State Medical University's Fields of Study/Degree Levels Matrix is divided into 6 main fields of study and 4 levels of degrees, from the lowest undergraduate degree to the highest postgraduate degree. This matrix aims to help quickly identify Orenburg State Medical University's academic range and degree level offering. Orenburg State Medical University: Fields of Study/Degree Levels Matrix         This University offers courses in at least one of the following subjects: Applied Arts Museum Studies Performing Arts Religion and Theology Visual Arts Other Arts & Humanities Studies Accounting / Finance Anthropology / Archaeology Business / Commerce / Management Communication and Media Studies Development Studies Library and Information Science Physical Education / Sport Science Political and International Studies Social Policy / Public Administration Social Work Sociology / Psychology Tourism / Hospitality Other Business & Social Science Studies Aboriginal / Indigenous People Studies African Studies American & Caribbean Studies Ancient and Modern Languages Asian Studies English Studies European Studies French Studies Germanic Studies Indian / South Asian Studies Italian Studies Middle Eastern Studies Portuguese Studies Russian / Eastern European Studies Spanish Studies Other Language & Cultural Studies Anaesthesia Biomedical Science Dermatology Medicine / Surgery Natural / Alternative Medicine Obstetrics / Gynaecology Optometry / Ophthalmology Orthopaedics Otorhinolaryngology Radiography Speech / Rehabilitation / Physiotherapy Other Medical & Health Studies Aeronautical Engineering Agricultural Engineering Architectural Engineering Biomedical Engineering Chemical Engineering Civil and Environmental Engineering Computer and IT Engineering Electronic and Electrical Engineering General Engineering Geological Engineering Industrial Engineering Mechanical / Manufacturing Engineering Mining and Metallurgical Engineering Other Engineering Studies Agriculture / Forestry / Botany Aquaculture / Marine Science Architecture Biology / Biochemistry / Microbiology Computer / Information Technology Energy / Environmental Studies Food Science Mathematics / Statistics Neuroscience Pharmacy / Pharmacology Textiles and Fibre Science Zoology / Veterinary Science Other Science & Technology Studies Notice : please contact or visit the university website for detailed information on Orenburg State Medical University's areas of study and degree levels currently offered; the above matrix may not be complete or up-to-date. Programs and Courses Courses and programs. Click here to explore a list of Orenburg State Medical University courses and programs or, if not available yet, search for them with our Search Engine powered by Google. We are constantly adding university courses and programs worldwide with the cooperation of university representatives. You can also explore our new A-Z Guide to 8,100 University Programs, Courses and Degrees to learn more about study outlines and typical duration, tuition ranges, career prospects, salary expectations of each course/program/degree. Tuition Fees Yearly tuition fees refers to the amount of money that a student is charged by a University for one academic year of full-time study. Read our guide article about tuition fees and financial aid options to learn more. Yearly Tuition Fees Range Matrix Orenburg State Medical University: Tuition Fees Range Matrix Undergraduate Postgraduate Local students International students Tip: search for Orenburg State Medical University's tuition fees with the uniRank Search Engine Notice : please contact the university's Admission Office for detailed information on Orenburg State Medical University's yearly tuition fees which apply to your specific situation and study interest; tuition fees may vary by program, citizenship/residency, study mode (i.e. face to face or online, part time or full time), as well as other factors. The above matrix is indicative only and may not be up-to-date. Applying for admission is the first step towards achieving students' academic and career goals and accessing the many opportunities and resources that a university has to offer. Read our " Introduction to University Admissions " article to learn more. Admission Information uniRank publishes below some basic Orenburg State Medical University's admission information. Gender Admission This institution admits Men and Women (coed). Admission Selection Has Orenburg State Medical University a selective admission policy? Yes, based on entrance examinations and students' past academic records and grades. Admission Rate Orenburg State Medical University's acceptance rate range is not reported. International Students Admission International students are welcome to apply for admission at this institution. Admission Office Tip: search for Orenburg State Medical University's admission policy with the uniRank Search Engine Notice : admission policy and acceptance rate may vary by areas of study, degree level, student nationality or residence and other criteria. Please contact Orenburg State Medical University's Admission Office for detailed information on their admission selection policy and acceptance rate; the above information may not be complete or up-to-date. Size and Profile University size and profile can be important factors to consider when choosing a university. Here are some potential reasons why University size and profile can affect students when choosing a university . uniRank publishes below some major size and profile indicators for Orenburg State Medical University. Student Enrollment Orenburg State Medical University has an enrollment range of 3,000-3,999 students making it a small-sized institution. Academic Staff Not reported Control Type Orenburg State Medical University is a public higher education institution. Entity Type Orenburg State Medical University is a non-profit higher education institution. Campus Setting This institution's main campus is located in a Urban setting. Academic Calendar This institution adopts a Semesters type of academic calendar. Religious Affiliation Orenburg State Medical University does not have any religious affiliation. Facilities and Services What are the most common University facilities and services? Read our two guide articles about University Facilities and University Services to learn more. University Facilities uniRank provides below an overview of Orenburg State Medical University's main facilities: University Library University housing. This institution provides housing services such as on-campus residences or dormitories. Sport Facilities/Activities This institution features sporting facilities and organizes sports activities for its students. University Services uniRank provides below an overview of Orenburg State Medical University's main services: Financial Aid This institution offers one or more of the following financial aid for eligible students: scholarships, grants, loans, tuition waivers, emergency financial aid etc. Study Abroad Distance learning. This institution provides a distance learning mode for certain programs or courses. Academic Counseling Career services. Notice : please contact or visit the university website for detailed information on Orenburg State Medical University's facilities and services; the information above is indicative only and may not be complete or up-to-date. Recognition and Accreditation There are different types of legal recognition and quality assessment of higher education institutions around the world, depending on the country and its legal and higher education system... read our article about university accreditation and recognition to learn more. Institutional Recognition or Accreditation Orenburg State Medical University is legally recognized and/or institutionally accredited by: Ministry of Health of the Russian Federation Specialized or Programmatic Accreditations Not available; please use the Feedback/Error report form at the end of this page to submit a list of Orenburg State Medical University's official programmatic or specialized accreditations. If you are an official representative of this university you can also claim and update this entire university profile free of charge (UPDATE ALL). Tip: search for Orenburg State Medical University's accreditations with the uniRank Search Engine Important : the above section is intended to include only those reputable organizations (e.g. Ministries or Departments of Higher Education) that have the legal authority to officially charter, license, register or, more generally, recognize Orenburg State Medical University as a whole (institutional legal recognition), accredit the institution as a whole (institutional accreditation) or accredit its specific programs/courses (programmatic accreditation). Memberships and Affiliations University memberships and affiliations to external organizations can be important for several reasons... read our article about university affiliations and memberships to learn more. Affiliations and Memberships Not available; please use the Feedback/Error report form at the end of this page to submit a list of Orenburg State Medical University's official affiliations and memberships to higher education-related organizations. If you are an official representative of this university you can also claim and update this entire university profile free of charge (UPDATE ALL). Academic Structure Academic divisions can provide valuable insights into the range of fields of study and disciplines a University focuses on and the institution's level of specialization. Comprehensive or Generalist Universities typically offer a wide range of academic programs and have many academic divisions and subdivisions across different disciplines, while Specialized Universities tend to focus on a narrower range of programs within a specific field or industry and have fewer academic divisions and a simplified organizational structure. Read our guide article " Understanding Academic Divisions in Universities - Colleges, Faculties, Schools " to learn more about academic divisions and typical university organizational structures. uniRank shows a structural diagram of the first-level academic divisions of the Orenburg State Medical University 's organizational structure; feel free to submit any relevant missing division. | Social Media Social media can be a powerful tool for Universities to communicate with current students, alumni, faculty, staff and the wider community. But how can social media be important for prospective students? Read our article about the importance of Social Media for universities and prospective students to learn more. uniRank publishes brief reviews, rankings and metrics of some Orenburg State Medical University's social media channels as a starting point for comparison and an additional selection tool for potential applicants. X (Twitter) Free online courses, open education global. This higher education institution is not a member of the Open Education Global (OEGlobal) organization that is developing, implementing and supporting free open education and free online courses. View a list of Open Education Global members by country . Wikipedia Article Orenburg State Medical University's Wikipedia article Country Featured Universities Unlock your University's potential: spotlight your Institution on UniRank for leads, local recognition and branding. Enquiry now to feature your University here . Related Resources Discover uniRank rankings and reviews of all Universities in Russia Search for courses, scholarships and much more anywhere in the world with the uniRank's World Universities Search Engine Read our university guides and articles including: A-Z Guide to 8,100 University Courses, Degrees and Programs Where is higher education free? What are University Rankings? 2023 Guide and Review of World University Rankings Discover uniRank's world's largest directories of higher education related organizations and university libraries Learn definitions, jargon and acronyms with the uniRank's A-Z Higher Education Glossary Feedback, Errors and Update We appreciate your feedback and error reports. Orenburg State Medical University's official representatives can claim this institution and request to update this entire university profile free of charge by clicking on UPDATE ALL Site last updated: Wednesday, 28 August 2024 Disclaimer : please visit Orenburg State Medical University 's official website to review that the information provided above is up-to-date. The uniRank World University Ranking ™ is not an academic ranking and should not be adopted as the main criteria for selecting a higher education organization where to apply for enrollment. © uniRank since 2005 University rankings, universities by country, universities on social media, more resources. About | Methodology | Contact | Advertise | Terms | Privacy | Change privacy settings ©uniRank 2005-2024 457 COMMENTS How To Become A Civil Engineer: Job Outlook And Specializations Employment for civil engineers is expected to increase by 5% from 2022 to 2032, which amounts to about 21,200 new job openings each year. Civil engineers earn a median annual salary of $95,890 ... Certificate Programs Certificate Programs. ASCE Certificate Programs are designed for a working professional to enhance and add to their skillset for the in-demand industries of engineering. 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Civil Engineering Courses and Certifications Best online courses in Civil Engineering from Harvard, Stanford, MIT, UC Berkeley and other top universities around the world ... Social Work; Early Childhood Development; Structural Equation Modeling; Cultural Studies; ... Learn Civil Engineering, earn certificates with free online courses from Harvard, Stanford, MIT, UC Berkeley and other top ... Civil Engineering Careers & Degrees The civil engineering test takes six hours to complete and is comprised of 110 multiple-choice questions covering 18 different areas. Some of these include mathematics; probability and statistics; computational tools; ethics and professional practice; engineering economics; statics; dynamics; and surveying. Learn Civil Engineering: Best Courses, Training, and Other Resources As of 2019, civil engineers were earning a median pay of $87,060, according to the Bureau of Labor Statistics. Civil engineers working for the federal government earned the most at $95,380. The job outlook is relatively strong in the field with the projected addition of 5,500 civil engineering jobs by 2029. Program: Civil Engineering, BSCE About the Program. Civil engineers design and construct the world's infrastructure: buildings and bridges; tunnels, dams, and levees; harbors and canals; water-supply and waste-disposal systems; airports, highways, and railroads; pipelines and power lines. As a Civil Engineering undergraduate student you have many opportunities to plan your ... Civil Engineering Description. As a civil engineer, you'll play a crucial role in designing and maintaining essential public works like roads, bridges, water supply systems, and more. In this program, you'll gain a solid foundation in basic sciences, social sciences, humanities, and engineering sciences and have the flexibility to delve deeper into areas that ... How to Become a Civil Engineer Civil engineers often work alongside architects and contribute to a variety of construction projects, ... there are basic courses every civil engineer student should take including Surveying ... Civil Engineering Civil Engineering. You may ask how are roads and bridges built? Well, the answer is civil engineering. Civil Engineers design, build, and supervise major infrastructure projects and systems. This may include buildings, parks, roads, bridges, canals, dams, airports, pipelines, railways and water supply/sewage treatment systems. How To Become a Civil Engineer (With Skills and Salary) 1. Earn a relevant bachelor's degree. The first step to becoming a civil engineer is to earn a bachelor's degree program that has accreditation from the Engineering Accreditation Commission of the Accreditation Board for Engineering and Technology (ABET). An aspiring civil engineer may choose from several different subjects for their bachelor's ... Civil Engineering Major The College of Engineering also offers accelerated +1 Bachelor-Master programs. Qualifying students earn a bachelor's and a master's degree in one five-year course of study, instead of the usual six years. Civil Engineering undergraduate majors can earn a Master of Science in Civil Engineering or Environmental Engineering in one year. BS in Civil Engineering Contact the Program Director. Dr. Bryan Higgs. [email protected]. The program for the Bachelor of Science in Civil Engineering offers courses in the several sub-disciplines of civil engineering that include structural engineering, water resources engineering, geotechnical engineering, transportation engineering, and construction engineering. 20 Jobs You Can Get With a Civil Engineering Degree 20 high-paying civil engineering jobs. Here are top jobs you can get with a civil engineering degree. For the most up-to-date salary information from Indeed, click on each salary link below: 1. Surveyor. National average salary: $73,189 per year Primary duties: Surveyors measure and note property boundaries and locations to determine building ... Civil Engineering COURSEWORK. Civil engineering students are given a solid foundation in mathematics, physics and chemistry and explore the fundamentals of materials science, construction, water, soils, structural, and transportation systems to assure that civil engineers are educated in all branches of the profession. View Plan of Study Civil Engineering The College of Engineering advisors and faculty work with students on their four-year course sequence to ensure progress toward degree completion. ... Prospective students applying to the B.S. in Civil Engineering program must first apply to UTA through ApplyTexas or The Common Application, submit SAT/ACT scores and transcripts, and pay the ... Civil Engineering The most common disciplines in engineering are the following: Civil Engineering: Designs, builds, and maintains the infrastructure of our environment, including roads, bridges, buildings, and water systems. Mechanical Engineering: Focuses on the design, manufacturing, and operation of mechanical systems, such as engines, machines, and tools. Electrical Engineering: Deals with the design ... Civil Engineering Foundation Apprenticeship Back to all courses Foundation Apprenticeship: Civil Engineering (Schools Pupils Only) This Foundation Apprenticeship (FA) is made up of National Certificate: Civil Engineering, selected SVQ units, and an Industry Challenge Project work placement where you will gain invaluable work experience whilst undertaking a Vocational Qualification (VQ).Together, these aspects ensure that you gain ... How to Become a Civil Engineer Civil engineering coursework will include classes in mathematics, statistics, fluid dynamics, and engineering mechanics and systems. ... Most civil engineers work in the private sector, but a significant portion work for local, state, or federal governments. Indeed, the Bureau of Labor Statistics (BLS) reports that 11% of civil engineers work ... How to Become a Profession Design Engineer What is Designing | How to Become a Profession Design Engineer || By CivilGurujiOffer के लिए Call करे : 9111001234Start Your Training NOW 👇👇👇To Join COPS ... Novotroitsk Novotroitsk (Russian: Новотро́ицк) is a town in Orenburg Oblast, Russia, located on the right bank of and along the Ural River, 276 kilometers (171 mi) from Orenburg, on the border with Kazakhstan.In the east Novotroitsk almost borders Orsk: the distance between the two cities is less than 2 kilometers (1.2 mi).Population: 98,173 (2010 Census); [3] 106,315 (2002 Census); [7] 106,084 ... Civil engineering in Totskoye, Orenburg Oblast Civil engineering. Civil engineering in Totskoye, Orenburg Oblast. Open 1-3 Filter. Show businesses that are open now Open Now: 7:16 AM. 2 and up 3 and up 4 and up. Business has a Google Maps Profile. Civil engineering. 1. Orenburg State Medical University Ranking & Overview 2024 Overview. Established in 1944, the Orenburg State Medical University is a non-profit public higher education institution located in the urban setting of the large city of Orenburg (population range of 500,000-1,000,000 inhabitants), Orenburg Oblast. Officially recognized by the Ministry of Health of the Russian Federation, Orenburg State ... Orenburg State Medical University To be eligible for admission in Orenburg State Medical University, applicants must have a good academic record. International students are also eligible for admission if: Student have passed 10+2 with 50% marks in science subjects. 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