In this page, we explore the details of Clarkson Aeronautical Engineering, aeronautical engineering salary, bachelor of aeronautical engineering, degree in aeronautical engineering and aeronautical engineering problems.

Clarkson Aeronautical Engineering is a division of Clarkson University, in Potsdam, New York. The department was founded in 1987 and has since grown to include undergraduate and graduate programs in aeronautical engineering. Read on as we discuss Clarkson Aeronautical Engineering, aeronautical engineering salary, bachelor of aeronautical engineering, degree in aeronautical engineering and aeronautical engineering problems.

Aeronautical engineers are tasked with designing aircraft, including their engines and fuselages. They often work on projects that require them to develop new technologies or solve problems related to existing technology. They may also be responsible for testing the design once it is complete, as well as overseeing production of the final product.

The median salary for aeronautical engineers is $105,110 per year. This can vary depending on location and employer.

Clarkson Aeronautical Engineering

We begin with Clarkson Aeronautical Engineering, then aeronautical engineering salary, bachelor of aeronautical engineering, degree in aeronautical engineering and aeronautical engineering problems.

Aerospace engineering teaches you to apply engineering methods for solving professional problems. In the world of designing, manufacturing and maintaining aircraft and related systems, aerospace engineers are essential.

Our undergraduate bachelor’s degree program in aerospace engineering prepares you for a career in the aerospace industry by providing the knowledge to understand the social, ethical and environmental context of aircraft workings. Courses in areas such as aerodynamics, propulsion, aircraft structures, flight mechanics, stability, flight control and aircraft design are key for successful program completion. In the aerospace engineering capstone course, you work in teams to design an aircraft and apply the solution process to a real-life problem.

Aerospace Engineering Careers

Many graduates of our undergraduate bachelor’s degree program in aerospace engineering will go on to become aerospace engineers. However, the career opportunities for our aerospace engineering majors can also include roles such as:

• manufacturing engineer
• design engineer
• simulator
• modeling engineer

According to PayScale, the average aerospace engineer salary is currently over $85,000 per year. Clarkson aeronautical (now aerospace) engineering graduates from the Class of 2020 had an average starting salary of over $67,800, with the highest starting salary at $77,000. They have recently gone on to work for companies such as Amphenol Aerospace, Belcan Engineering, BMPI, GE Aviation, General Dynamics, GKN Aerospace, Husky IMS, kW mission critical engineering, Lockheed Martin, Moog, Norfolk Naval Shipyard, Northrup Grumman Corporation, Pratt & Whitney and United Technologies Corporation.

As a graduate of the aerospace engineering major, you will also be prepared for graduate school work, should you choose that route. In recent years, Clarkson aeronautical (now aerospace) engineering majors have gone on to graduate programs at Massachusetts Institute of Technology (MIT), KTH Royal Institute of Technology, and Clarkson’s own M.S. and Ph.D. programs in Mechanical Engineering.https://www.youtube.com/embed/uPXZXNkObDM?autoplay=0&start=0&rel=0

Aerospace engineering undergraduate student Will Duma shares why he chose Clarkson’s aeronautical engineering program (now aerospace) and talks about some of the incredible opportunities he’s had so far.  

Aerospace Engineering Curriculum & Academic Options

Major in Aerospace Engineering

The Aerospace Engineering undergraduate bachelor’s degree program consists of 87 credit hours out of 120 credit hours. Those 87 credit hours in aeronautical engineering include classes in applied physics, applied mathematics, engineering science and mechanical engineering. Aerospace engineering majors take courses such as:

• Aircraft Structural Analysis
• Orbital Mechanics
• Spacecraft Design
• Space Robotics
• Design of Propulsion Systems
• Aircraft Performance and Flight Mechanics
• Aircraft Design I and II
• Design of Aircraft Structures
• Stability and Control of Aerospace Vehicles
• Intro to Spacecraft Engineering

Core RequirementsCore ElectivesElectivesSchool of Engineering Common First YearRelevant Minors

Aerospace engineering majors have the opportunity to explore minors that will complement the aeronautical engineering bachelor’s degree. View our recommendations below or learn more about all of Clarkson’s minors, concentrations and professional advising tracks.

Aerospace Engineering Undergraduate Research

Aerospace engineering majors benefit from having a wide variety of research projects consistently being pursued by faculty and graduate students within the department – from optimizing luge sleds for the US Olympic Luge Association (USLA) and creating the newest ducted wind turbine technology, to improving the operation and design of engineering systems for industry partners and understanding the laryngeal aerodynamics of voiced speech. Any undergraduate student looking to have a research experience has the opportunity to do so.

There are directed and independent study courses available in our curriculum, including research courses, that provide you with opportunities to pursue your own interests while being mentored by an expert faculty member. 

Internships and Co-ops

Nearly 200 companies come to campus to recruit Clarkson students for employment, internships and co-ops biannually at our career fairs and you’ll have chances to meet with many of them throughout your years at Clarkson as an aerospace engineering major. Internships and co-ops are an important aspect in gaining real-world experience. Students often take a semester off from Clarkson to pursue six- to nine-month paid co-op opportunities at many of our corporate partners and, in many cases, are offered full-time positions after completion of their co-op. Aerospace engineering students are in demand for a large number of these companies, including:

• Collins Aerospace
• GKN Aerospace
• General Dynamics Mission Systems
• Northrop Grumman Corporation

Engineering Project Teams

Undergraduate aerospace engineering students get hands-on experience through our SPEED (Student Projects for Engineering Experience & Design) teams, especially representing the department on our Design, Build, Fly team, which competes in the international American Institute of Aeronautics and Astronautics (AIAA) Competition each year. Any major can join any of our 12 SPEED teams, with aerospace engineers joining other teams like FIRST Robotics, Baja SAE, Concrete Canoe, Formula SAE and Human-Powered Vehicle.

In 2018, Clarkson’s Design, Build, Fly team won the AIAA Competition, beating out nearly 80 teams from around the world. Watch their winning flight!

The Student Prototyping Machine Shop is a fully equipped engineering machine shop for student use. Manual lathes and mills, an extensive welding lab, water jet cutting, as well as computer driven machining centers are provided for students to use for research and engineering competitions. Multidisciplinary Project Team Undergraduate Courses (MT Courses) are offered to all students who are interested in learning everything from basic shop skills, lathes, milling, welding, MasterCam and CNC Machining. Students also use the Innovation Hub, a University-wide resource hosted by Clarkson Ignite, to hone their skills and ideas using state-of-the-art technology.

The Design-Build-Fly SPEED Team is preparing for the 25th annual Design, Build, Fly Competition. Read about their project and watch a test flight!

aeronautical engineering salary

Now we consider aeronautical engineering salary, bachelor of aeronautical engineering, degree in aeronautical engineering and aeronautical engineering problems.

How much does an Aeronautical Engineer make?

As of May 25, 2022, the average annual pay for an Aeronautical Engineer in the United States is $107,435 a year.

Just in case you need a simple salary calculator, that works out to be approximately $51.65 an hour. This is the equivalent of $2,066/week or $8,953/month.

While ZipRecruiter is seeing annual salaries as high as $154,000 and as low as $66,000, the majority of Aeronautical Engineer salaries currently range between $85,000 (25th percentile) to $130,000 (75th percentile) with top earners (90th percentile) making $151,000 annually across the United States. The average pay range for an Aeronautical Engineer varies greatly (by as much as $45,000), which suggests there may be many opportunities for advancement and increased pay based on skill level, location and years of experience.

Based on recent job posting activity on ZipRecruiter, the Aeronautical Engineer job market in both Lagos, NG and throughout the entire state of is not very active as few companies are currently hiring. An Aeronautical Engineer in your area makes on average $111,997 per year, or $4,562 (4%) more than the national average annual salary of $107,435. ranks number 1 out of 50 states nationwide for Aeronautical Engineer salaries.

To estimate the most accurate annual salary range for Aeronautical Engineer jobs, ZipRecruiter continuously scans its database of millions of active jobs published locally throughout America.

What are Top 10 Highest Paying Cities for Aeronautical Engineer Jobs

We’ve identified 10 cities where the typical salary for an Aeronautical Engineer job is above the national average. Topping the list is Lakes, AK, with San Francisco, CA and Santa Clara, CA close behind in the second and third positions. Santa Clara, CA beats the national average by $15,604 (14.5%), and Lakes, AK furthers that trend with another $17,555 (16.3%) above the $107,435 average.

With these 10 cities having average salaries higher than the national average, the opportunities for economic advancement by changing locations as an Aeronautical Engineer appears to be exceedingly fruitful.

Finally, another factor to consider is the average salary for these top ten cities varies very little at 5% between Lakes, AK and San Jose, CA, reinforcing the limited potential for much wage advancement. The possibility of a lower cost of living may be the best factor to use when considering location and salary for an Aeronautical Engineer role.

City	Annual Salary	Monthly Pay	Weekly Pay	Hourly Wage
Lakes, AK	$124,990	$10,416	$2,404	$60.09
San Francisco, CA	$124,482	$10,374	$2,394	$59.85
Santa Clara, CA	$123,039	$10,253	$2,366	$59.15
Washington, DC	$121,380	$10,115	$2,334	$58.36
Los Angeles, CA	$119,983	$9,999	$2,307	$57.68
Fremont, CA	$119,793	$9,983	$2,304	$57.59
Jersey City, NJ	$118,417	$9,868	$2,277	$56.93
Green River, WY	$117,814	$9,818	$2,266	$56.64
San Buenaventura, CA	$117,811	$9,818	$2,266	$56.64
San Jose, CA	$117,751	$9,813	$2,264	$56.61

What are Top 5 Best Paying Related Aeronautical Engineer Jobs in the U.S.

Analyzing similar jobs related to the Aeronautical Engineer job category, we found five that were relevant. However, none pay more than the $107,435 average for Aeronautical Engineer jobs. Nevertheless Aeronautical Design Engineer, Junior Aeronautical Engineer, or Aeronautics Engineer may still be interesting positions to explore.

Job Title	Annual Salary	Monthly Pay	Weekly Pay	Hourly Wage
Aeronautics Engineer	$100,408	$8,367	$1,931	$48.27
Junior Aeronautical Engineer	$94,239	$7,853	$1,812	$45.31
Aeronautical Design Engineer	$88,269	$7,356	$1,697	$42.44
Aeronautical Engineer Part Time	$86,141	$7,178	$1,657	$41.41
Aeronautical Information	$85,290	$7,108	$1,640	$41.00

bachelor of aeronautical engineering

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Introduction

See your Future Take Off with Liberty’s Commercial/Corporate Aeronautics Degree

Stand out for all the right reasons. Liberty University is recognized as one of the largest faith-based collegiate aviation programs in North America. If you are looking to fly for commercial airlines or corporate organizations, we provide aeronautics programs designed to set you up for success!

The aviation industry is positioned to grow extensively over the next 20 years, so now is the time to begin your career in flight. There is a projected need worldwide for over 637,000 pilots, so begin the journey now and earn an aeronautics bachelor’s degree to train in the skills and knowledge you need to impress future employers. Many airline and military recruiters look for Liberty University students to fill the need due to our strong Christian foundation and standard of academic excellence.

Why Choose Liberty’s Commercial/Corporate Bachelor’s Degree?

Earn your bachelor’s from a school that hands you more than a degree. Liberty University’s School of Aeronautics has seen tremendous growth since 2002. What began as four students and one rented aircraft has now developed into almost 400 students and 27 available modern aircraft!

We believe our success comes from our mission toTrain Champions for Christ and the incredible men and women who have championed the program with us, including many retired military aviators. Pursue a degree that prepares you for more with our state-of-the-art training devices, planes, and simulators.

Certifications and Licenses

We offer certifications and licensure through our commercial/corporate bachelor’s degree for the following:

• Private Pilot
• Instrument Rating
• Commercial Pilot
• Single engine
• Multi-engine
• Flight Instructor Rating

What Will You Learn in Our B.S. in Aeronautics?

Our Bachelor of Science in Aeronautics – Commercial/Corporate flight will equip you with the vital knowledge and critical flight skills you need to succeed in your aviation career! Your courses will explore ground theory, corporate aviation practices, human factors in aviation, and GPS instrument navigation. Learn the basics in unmanned aerial systems, advanced aviation safety, and leadership during your educational career with Liberty University.

Highlights of Our Commercial/Corporate Bachelor’s Degree

Our aeronautics bachelor’s degrees allow you to obtain licenses even after completing your required commercial pilot. Once you complete your commercial/corporate degree concentration, you have the ability to become a certified flight instructor! While you work, earn pay, and fly with other students, you will be accruing the flight time required to work for an airline and corporate pilot positions.

Because our aeronautics program has been recognized for excellence, we are able to offer students a Restricted Airline Transport Pilot (R-ATP)program that substantially reduces the required flight time. Fast-track your career in commercial and corporate flight so you can focus on what’s important!

Some of the other benefits of our bachelor’s degree in commercial and corporate flight are:

• FAA Part 141 flight instruction
• Financial aid available for courses and flight training (US students)
• Post-9/11 GI Bill® &Yellow Ribbon program (US students)
• Regional Airline Hiring Agreements

Admissions

Admission Requirements for Undergraduate Degrees

Every application is reviewed by the admission committee on a case-by-case basis, meaning there are no set minimums for acceptance. However, all applications must submit the following documents* for admission:

• Admission application
• Official high school transcripts
• Official college transcripts (if applicable)
• SAT, ACT, or CLT scores (Liberty University has been offering test-optional admission-check for details)
• Admission essay
• English Proficiency Score Report (TOEFL, IELTS, iTEP, etc.) for non-native English speakers

*Note that additional documentation may be requested by the admission committee after your application has been received.

Curriculum

Featured Courses

• AVIA 325 – Commercial Flight I
• AVIA 350 – Airline Operations
• AVIA 435 – Advanced Jet Systems
• AVIA 436 – Advanced Jet Training

Career Opportunities

Career Opportunities for Aeronautics Graduates

Liberty University’s Bachelor of Science in Aeronautics with a specialization in Commercial/Corporate will prepare you for positions as a:

• Certified flight instructor
• Commercial pilot
• Corporate pilot
• Private pilot

degree in aeronautical engineering

Aeronautical engineering degrees represent the branch of engineering that deals with the research, design, development, construction, testing, science and technology of aircraft.

Aeronautical engineers work on a variety of projects in their careers. They may design new aircraft or parts for existing aircraft, or they may be involved in research and development programs related to aviation. Aeronautical engineers often work with aerospace companies and other types of businesses that use airplanes in their operations.

Aeronautical engineers typically need at least a bachelor’s degree in aeronautical engineering to get started in this field. However, some employers may require applicants to have an associate’s degree or even a master’s degree as well.

aeronautical engineering problems

From lengthy sales processes and aggressive delivery cycles to highly scrutinised compliance regulations and changing regulations, the aerospace industry faces many obstacles in its day-to-day supply chains and workflow management. But what challenges pose the biggest risks to continuity, efficiency and productivity? And how can firms overcome them?

Here, we’re taking a look at eight challenges facing the aviation industry, from cybersecurity and digital transformation to the fallout of the coronavirus pandemic.

1.     COVID-19 and Its Fallout

The ongoing coronavirus pandemic has led to unprecedented disruption in the aerospace arena. With planes grounded and production grinding to a halt, there’s no telling what the long-term impact of COVID-19 on the aerospace sector will be.

While the uncertainty of successive lockdowns brought aeronautics to its knees, it’s perhaps the long-term outlook that is now of most concern. The pandemic may have changed people’s habits for good, with long-distance Zoom calls and cloud-supported collaboration replacing frequent flyers and corporate overseas travel.

Of course, things could go the other way. As countries reopen their borders to increased travel, demand for flights is expected to soar – marking a significant boon for the aeronautics sector.

2.     Manufacturing Digitalisation

Manufacturing is changing. As digital transformation accelerates and high-tech start-ups disrupt the status quo, aeronautics manufacturers must continue to innovate and modernise if they’re to land contracts and keep pace with the changing climate.

3D printing, modular design and cloud-enabled automated production – these are just some of the transformative trends which look set to shake up the aeronautics industry in the coming years. Manufacturers throughout the aeronautics supply chain should sure-up their business strategy for the long term, setting funds aside to invest in technologies as they emerge.

3.     Climate Change

Climate change, and the actions introduced to kerb it, presents major short and long-term challenges for the aeronautics sector. As awareness around the impact of flying continues to proliferate, it’s up to manufacturers to come up with innovative new solutions which will render air travel sustainable for future generations.

And don’t forget, it isn’t just climate action that will affect the aeronautics industry; climate change itself could have major repercussions. For example, should temperatures continue to rise, this will have a major impact on the performance and efficiency of aircraft. It’s expected that an increase in storm systems, coupled with unpredictable atmospheric changes, will also need to be factored into the future of air travel.

4.     Weak Supply Chains

The aeronautics industry relies on an intense, high-demand supply chain. Alone, major players like Boeing, Lockheed Martin and Airbus place a huge demand on the wider industry – with aggressive delivery cycles and complex, multinational supply infrastructures.

As globalisation continues, the aeronautics sector could see a weakening of its collective supply chain. Convoluted sales processing, coupled with bureaucracy and compliance issues between overseas trading partners, mean that manufacturers must invest time and resources in developing a watertight supply chain strategy if they’re to maintain a competitive advantage in their market space.

5.     Cybersecurity

Cybersecurity is the single biggest threat facing the aeronautics industry. Why? Because cybercriminals recognise that firms within the sector are asset-rich, with vast swathes of high-value data and digital assets. This makes them attractive targets for hackers, who target vulnerabilities at every level of the manufacturing supply chain.

Given the serious threat cybercriminals pose from a privacy and monetary standpoint, aeronautics specialists should invest time, money and resources in the very latest cybersecurity technology. And this extends beyond antivirus software; an across-the-board approach to safety, supported by a modern ERP system, can help maintain digital security across a complex supply chain.