How to Become an Aviation Engineer (Fly High, Land Success!)

If you’ve ever dreamed of designing aircrafts or wondered what it takes to become an aviation engineer, you’ve come to the right place.

In this guide, we’ll navigate the EXACT steps you need to take to take off in your career as an aviation engineer. We’ll discuss:

The skills you need.
The education that can propel you into this career.
How to land a job in the aviation engineering field.

So, whether you’re a beginner in the world of engineering or an experienced professional looking to specialize, stay tuned.

We’re about to unfold the flight plan to become an aviation engineer.

Let’s take off!

Contents show

Steps to Become an Aviation Engineer

Step 1: Research the Aviation Engineering Field

Before diving into the field of aviation engineering, it’s important to thoroughly research the industry and understand what the role entails.

You will be dealing with the design, development, testing, and maintenance of both civil and military aircraft, missiles, and spacecraft.

It will be beneficial to familiarize yourself with the different specializations within the field, such as aeronautical engineering (focused on aircraft within the Earth’s atmosphere) or astronautical engineering (focused on spacecraft outside the Earth’s atmosphere).

Understand the job market, the demand for aviation engineers, and the industries you can work in.

Aviation engineers often find employment in sectors like defense, transport, and space exploration among others.

Look into the challenges and risks of the job, as well as the rewards and benefits.

This will help you to determine whether this career path aligns with your personal interests, academic abilities, and long-term career goals.

You should also explore what skills are required for this role.

Aviation engineers need a solid foundation in mathematics and physics, strong problem-solving skills, and a keen eye for detail.

Good communication skills are also important as you will often work in teams and may need to present your designs and findings to non-engineers.

Investigating these areas will give you a well-rounded view of what being an aviation engineer entails, and will prepare you for the next steps in your journey.

Step 2: Pursue a Bachelor’s Degree in Aeronautical or Aerospace Engineering

To become an Aviation Engineer, the first academic step after high school is to earn a bachelor’s degree in Aeronautical or Aerospace Engineering.

These programs cover a wide range of subjects, including propulsion, aerodynamics, flight mechanics, and aircraft structures.

During your degree, you will be introduced to different aviation-related subjects which will provide you with the basic knowledge required for an aviation engineer.

You will learn about the design, development, testing, and production of aircraft and aerospace vehicles.

You’ll also study advanced mathematics, engineering, and physical science.

Some universities offer cooperative programs or internships which give students the opportunity to gain practical experience in aviation engineering while still in school.

These programs are highly recommended as they provide real-world experience, networking opportunities, and may even lead to full-time job offers after graduation.

Upon graduation, you will have the fundamental knowledge and skills required to start a career in aviation engineering.

It’s important to note that this is a highly specialized field and most employers require at least a bachelor’s degree for entry-level positions.

Remember that pursuing this degree will require dedication and hard work, but if you have a passion for aviation and engineering, it will be a rewarding journey.

Step 3: Gain Proficiency in Relevant Software and Tools

As an aspiring Aviation Engineer, it’s essential to become proficient in using aviation-specific software and tools.

This could include aircraft design software, flight simulation programs, and maintenance management software.

Some of the popular programs used in the aviation industry are CATIA, AutoCAD, and SolidWorks.

Such software is often used for designing and testing various aircraft components, systems, and structures.

In addition to design software, having a firm grasp on various diagnostic and testing tools is essential.

This might involve learning to use wind tunnels, acoustic chambers, and flight simulators to test the performance and safety of aircraft designs.

Understanding how to use these software and tools will allow you to effectively create, analyze, and improve upon aircraft designs.

It’s advisable to take specific courses or pursue certifications in these software during your college years or through professional training programs.

Having these skills can give you a competitive edge in the job market and prepare you for the technical aspects of your future role as an Aviation Engineer.

Step 4: Participate in Hands-On Projects and Workshops

In the field of aviation engineering, practical knowledge and hands-on experience are as important as theoretical understanding.

Participating in projects and workshops can provide you with a firsthand experience of working with aviation systems and technologies.

While still in school, look out for relevant workshops, seminars, or field trips that offer the opportunity to gain practical experience.

Some schools also offer capstone projects where you can work on real-world aviation problems, which will enable you to apply the theoretical concepts you have learned in your coursework.

In addition to school projects, consider pursuing internships or part-time jobs in aviation companies.

This experience will not only help you understand the day-to-day work of an aviation engineer but also make you more appealing to future employers as you will have industry experience.

Workshops and projects are also great opportunities to network with professionals in the industry and fellow students.

These connections can be beneficial for future job opportunities or collaborative projects.

Remember, the more hands-on experience you have, the better your understanding will be of how aviation systems work, how to troubleshoot problems, and how to design better systems.

This will set you apart in your career as an aviation engineer.

Step 5: Obtain an Internship in the Aviation Industry

Obtaining an internship in the aviation industry is a crucial step for aspiring Aviation Engineers.

This provides hands-on practical experience and a real-world perspective of the industry that can complement the theoretical knowledge gained during your degree.

Internships can be found through university career services, online job boards, aviation companies’ websites, and networking at industry events.

It’s beneficial to apply for internships that align with your specific interests within aviation engineering, whether that be design, maintenance, or systems.

During your internship, you will have the opportunity to work on real aviation projects under the supervision of experienced engineers.

This will help you understand the day-to-day operations, learn about the latest technology and software used, as well as the safety procedures and regulations in the aviation industry.

Not only do internships offer invaluable work experience, but they also provide a foot in the door for future job opportunities.

An outstanding performance during your internship could lead to job offers from the same company post-graduation.

It’s important to remember that an internship is a learning experience, so always ask questions, display a keen interest in learning, and network with professionals in the field.

This will help you gain a comprehensive understanding of the role of an Aviation Engineer and make you better equipped for your future career.

Step 6: Engage with Professional Aviation Organizations

Engaging with professional aviation organizations is a crucial step for anyone pursuing a career in aviation engineering.

These organizations provide an opportunity to network with industry professionals, offer a platform for continuous learning, and often have resources for job opportunities.

This engagement can also help to keep you updated on the latest trends, technologies, and regulatory changes in the aviation industry.

Organizations like the American Institute of Aeronautics and Astronautics (AIAA), the Royal Aeronautical Society (RAeS), or the Aerospace Industries Association (AIA) frequently organize seminars, workshops, and conferences, which are excellent opportunities for learning and networking.

By attending these events, you can connect with like-minded professionals, explore potential job opportunities, and learn from experts in the field.

You might also consider volunteering in these organizations, as it can provide hands-on experience and visibility within the professional community.

Beyond networking and learning opportunities, membership in these organizations often includes access to industry journals and research papers, which can be an invaluable resource for staying up-to-date with the latest advancements in aviation engineering.

Remember, being an active member of professional aviation organizations is not only about taking from the community, but also contributing to it.

Sharing your ideas, experiences, and research can help others in the field and further establish your position as a professional in the aviation engineering industry.

Step 7: Earn Certification and Licensing if Applicable

As an aviation engineer, obtaining professional certifications and licenses can help you stand out in the competitive job market and can also lead to career advancement.

Notably, the Federal Aviation Administration (FAA) offers a range of certifications like the Aircraft Electronics Technician (AET) certificate or the Certified Aerospace Technician (CAT) certificate.

If you’re interested in aircraft maintenance engineering, you may want to pursue the FAA’s Aircraft Mechanic Certificate, which requires passing written, oral, and practical exams.

The certification verifies your expertise in areas like powerplants (engines) and airframes (aircraft structures).

For those who want to specialize in avionics, the FAA offers the Avionics Electronics Technician (AET) certification.

This certification can show your proficiency in avionic systems, including communication, navigation, and autopilots.

If you’re focused on the design and development of aircraft and spacecraft, you might want to consider becoming a Professional Engineer (PE) in aerospace engineering.

This would require you to first pass the Fundamentals of Engineering (FE) exam, gain four years of professional experience, and then pass the PE exam.

Remember, every certification and license requires a different level of experience, and continuing education or regular renewals may be necessary to keep them valid.

It’s crucial to research each certification thoroughly and understand the commitment involved before diving in.

Step 8: Consider a Master’s Degree or Professional Engineer (PE) Licensure

If you’re planning to work in advanced areas of aviation engineering or aiming for leadership roles, you might want to consider pursuing a master’s degree in aviation engineering or a related field.

Master’s degree programs often allow students to concentrate in specific areas such as aerospace, avionics or aircraft design and manufacture.

These advanced degrees provide a deeper understanding and expertise of specific areas, thereby making you more desirable for employers.

Another considerable step is getting the Professional Engineer (PE) licensure.

The PE license is proof of your professional competence and ethical standards in engineering, which can open the door to higher-level responsibility and leadership roles in the industry.

To get this, you would need to pass the Fundamentals of Engineering (FE) exam, gain four years of professional experience, and then pass the Principles and Practice of Engineering (PE) exam.

Whether you decide to pursue a master’s degree or the PE license depends on your long-term career goals.

If you are interested in research, teaching, or a career in academia, a master’s degree or even a doctorate might be more suitable.

On the other hand, if you’re keen on taking on more practical, hands-on work, the PE license can demonstrate your proven expertise in the field.

You could also choose to do both, further enhancing your credentials and increasing your career opportunities.

Step 9: Build a Professional Network in the Aviation Sector

Building a professional network in the aviation sector is crucial to your career as an aviation engineer.

This step helps to expose you to real-life experiences, develop better understanding of the industry, and also create opportunities for future job prospects or collaborations.

Networking can be done through joining professional aviation associations such as the Royal Aeronautical Society or the American Institute of Aeronautics and Astronautics.

These organizations often hold events and conferences where you can meet and connect with other aviation professionals, including engineers, pilots, researchers, and executives.

You can also participate in aviation seminars, workshops or industry trade shows to enhance your knowledge and meet industry peers.

This gives you the chance to learn about new technologies and developments in the aviation sector, discuss common challenges, and find potential solutions.

Don’t forget to leverage online platforms such as LinkedIn, where you can join aviation groups, participate in discussions, and connect with professionals worldwide.

Regularly updating your profile and actively contributing to these discussions will make you more visible to potential employers or collaborators.

Remember, building a network takes time and it’s about building relationships.

Show genuine interest in others, be willing to learn and don’t hesitate to ask for advice or help when needed.

This will help you to build a strong professional network in the aviation sector.

Step 10: Apply for Entry-Level Aviation Engineering Jobs

After you’ve completed your education and obtained the necessary certifications, it’s time to start applying for entry-level aviation engineering jobs.

Look for positions such as junior aviation engineer, aviation design engineer, or associate engineer in the aviation industry.

These positions often involve assisting more experienced engineers and learning hands-on in the field.

You will be expected to utilize the knowledge and skills you’ve acquired during your studies to contribute to the work of the team.

Use your school’s career services, online job search engines, professional networking sites, and aviation industry job boards to find suitable jobs.

Make sure your resume and cover letter highlight your knowledge in aviation engineering, any relevant certifications, internships, co-op experiences, and your willingness to learn and adapt.

Do not be discouraged if you do not land a job immediately.

Remember, the engineering field is highly competitive, and it may take several applications before you receive a job offer.

Keep enhancing your skills and knowledge in the meantime and stay persistent in your job search.

Step 11: Continue Professional Development and Learning

As an Aviation Engineer, you should never stop learning and improving your skills.

The field of aviation is always evolving, with new technologies and methods of aircraft design and manufacturing constantly being developed.

Therefore, it is essential for aviation engineers to stay updated on these changes.

Many professional organizations offer courses, seminars, and workshops that you can take to stay informed about the latest advancements in the field.

You may also attend industry conferences and trade shows where you can learn about new trends, meet other professionals in your field, and network with industry leaders.

In addition, consider furthering your education by pursuing a master’s degree or even a doctorate in aerospace or aviation engineering.

This will allow you to gain more specialized knowledge and could lead to more advanced career opportunities.

Remember, the ultimate aim of professional development is not just to gain knowledge, but to apply it in practical situations.

Hence, always try to use what you learn to improve your performance at work.

Finally, don’t forget to keep up with your certifications and license renewals, as they are critical for maintaining your status as an Aviation Engineer.

Step 12: Specialize in a Subfield of Aviation Engineering

As an aviation engineer, there are numerous subfields you can choose to specialize in, depending on your interest and career goals.

These include but are not limited to aerospace engineering, avionics engineering, and flight systems engineering.

Aerospace engineering focuses on designing and building aircraft and spacecraft.

If you are passionate about the physics of flight and the design of air and spacecraft, this could be the right specialty for you.

Avionics engineering, on the other hand, concentrates on the electronic systems used in aviation.

This could involve designing and maintaining navigation, communication, and flight control systems.

If you have a keen interest in electronics and software development, this subfield may suit you best.

Flight systems engineering is another subfield that deals with the complex systems that ensure the safe operation of the aircraft during flight.

This subfield requires a strong understanding of both mechanical and electrical systems, along with a deep knowledge of computer systems.

Choosing the right subfield is a critical step in shaping your career path.

It’s advisable to gain a broad experience in different areas during your undergraduate studies or early career stages, which can help you decide which specific subfield you enjoy most and where your skills can be best applied.

Remember, specializing does not mean you will be confined to one area forever.

The aviation engineering field is continually evolving, and there are always opportunities for further learning and growth.

Aviation Engineer Roles and Responsibilities

Aviation Engineers are responsible for the safe and efficient design and operation of aircraft, ranging from small airplanes to large-scale jets.

Their work includes designing aircraft and propulsion systems, as well as studying the aerodynamic performance of aircraft and construction materials.

They have the following roles and responsibilities:

Aircraft Design

Design and develop aircraft, spacecraft, and propulsion systems.
Ensure designs meet engineering principles, environmental challenges, and customer requirements.
Research and develop design specifications using both manual and computer-aided design (CAD) methods.

Inspection and Maintenance

Inspect aircraft for any irregularities that may impact performance or safety.
Prepare maintenance procedures and ensure they are carried out accurately.
Diagnose and fix issues in aircraft systems and components.

Testing

Perform system-level and component-level testing.
Assess the functionality and durability of aircraft using both simulations and actual flight tests.
Ensure all testing meets quality and safety standards.

Research and Development

Conduct research to improve the performance and efficiency of aircraft.
Develop and test prototypes of new aircraft or parts.
Evaluate new technologies for potential application in aviation engineering.

Regulatory Compliance

Ensure all designs, maintenance, and operations comply with aviation standards and regulations.
Prepare documentation for certification of aircraft and parts.

Project Management

Manage projects, ensuring they are completed on time and within budget.
Collaborate with multidisciplinary teams, including aerodynamicists, mechanical engineers, and materials specialists.

Technical Reports and Documentation

Prepare detailed reports and documentation on project development, testing, and outcomes.
Maintain up-to-date knowledge of technical developments in the field.

Communication

Communicate effectively with team members, management, and clients on design, testing, and project progress.
Present design and test results to clients, colleagues, and management.

Continuous Learning

Stay up-to-date with the latest advancements and trends in aviation engineering.
Participate in professional development activities, such as attending conferences and workshops.

What Does an Aviation Engineer Do?

Aviation Engineers, also known as Aerospace Engineers, primarily work within the aviation and aerospace industries, although they can also find employment in research facilities, government agencies, and manufacturing sectors.

They play a crucial role in the design, development, testing, and production of aircraft and aerospace products.

They may specialize in areas such as structural design, navigation and control, and aerodynamic fluid flow; or they could focus on a particular type of aircraft.

Aviation Engineers use computer-aided design (CAD) software to create plans and simulations.

They are also responsible for making sure that the aircraft meets all safety regulations and standards set by the Federal Aviation Administration (FAA) and other governing bodies.

Additionally, they work to troubleshoot and solve any issues that arise during the design, development, and testing processes.

This can involve analyzing data from flight tests, making adjustments to designs, and creating solutions to complex aeronautical problems.

Aviation Engineers may also work on the preservation and improvement of existing aircraft, recommending repairs or modifications to enhance performance and safety.

As part of their role, they collaborate with other engineering professionals, pilots, mechanics, and aircraft manufacturers to ensure that projects are completed successfully and safely.

Furthermore, they continuously stay updated on technological advancements and industry trends to innovate and push the boundaries of aviation technology.

Essential Aviation Engineer Skills

Aerodynamics Knowledge: An Aviation Engineer needs a deep understanding of the principles of aerodynamics, flight mechanics, and aircraft structures.
Problem-Solving: Aviation Engineers often deal with complex aircraft problems. They must be capable of identifying issues, analyzing them, and developing effective solutions.
Technical Skills: Proficiency in CAD software, MATLAB, and other engineering tools is essential. These skills allow engineers to design, analyze, and improve aviation systems.
Communication: Aviation Engineers interact with various stakeholders, including pilots, maintenance crew, and manufacturers. They must be able to communicate technical information clearly and effectively.
System Engineering: Understanding the integration of various aircraft systems is critical. This includes knowledge of avionics, propulsion systems, flight controls, and more.
Regulatory Knowledge: Familiarity with aviation safety standards and regulations, such as those from the FAA, EASA, and ICAO, is critical. This knowledge ensures compliance and enhances safety.
Project Management: Aviation Engineers often lead projects involving aircraft design, system improvement, or maintenance. Project management skills, including task prioritization and time management, are important.
Mechanical Skills: Knowledge of mechanical systems is essential for understanding the operation and maintenance of aircraft components.
Quality Assurance: Experience with quality assurance procedures ensures the reliability and safety of aviation systems. Engineers should know how to conduct tests, analyze results, and make necessary adjustments.
Teamwork: Aviation Engineers often work in teams. They need to collaborate effectively, share knowledge, and contribute to the team’s success.
Attention to Detail: The aviation industry requires a high level of precision. Attention to detail is crucial, especially when designing and testing aircraft systems.
Mathematical Skills: Strong mathematical skills are essential for performing complex calculations related to aircraft design and performance.
Software Programming: Programming skills can be useful for simulating aircraft performance, controlling automated systems, and analyzing data.
Physical Stamina: Aviation Engineers often inspect and test aircraft components, which may require physical strength and endurance.
Continual Learning: The aviation field is constantly evolving. Engineers must be committed to ongoing learning to keep up with new technologies and best practices.

Aviation Engineer Career Path Progression

The Foundation: Junior Aviation Engineer

The journey typically begins as a Junior Aviation Engineer.

At this stage, you’re learning the ropes, absorbing knowledge from senior engineers, and working on practical assignments.

Your responsibilities may include designing aircraft and propulsion systems, testing prototypes, and assisting in smaller projects.

For success in this role:

Continuous Learning: Stay updated with the latest aviation engineering technology and techniques.
Seek Mentorship: Learn from experienced professionals and don’t hesitate to ask questions.
Hands-on Experience: Embrace practical work and get involved in a variety of engineering tasks.

The Ascent: Aviation Engineer

As you gain experience and confidence, you’ll transition into the role of an Aviation Engineer.

You’ll work on more complex projects, participate in design and system development, and become a vital part of the engineering team.

Here’s how to thrive in this stage:

Problem Solving: Develop your problem-solving skills by working on challenging projects and optimizing systems for efficiency.
Teamwork: Collaborate effectively with your team and communicate your ideas clearly.
Quality Control: Focus on maintaining the highest standards in your design and testing processes.

Reaching New Heights: Senior Aviation Engineer

The next step is the Senior Aviation Engineer position.

At this stage, you’re recognized for your technical expertise and leadership within the team.

You may oversee projects, guide design and testing processes, and mentor junior engineers.

To excel as a Senior Aviation Engineer:

Mentorship: Share your knowledge and experience with junior engineers.
System Thinking: Consider the larger system when making design and testing decisions.
Leadership: Inspire others with your work ethic and problem-solving abilities.

Beyond the Horizon: Lead Roles and Beyond

As your career advances, you may choose to specialize in a particular area, such as becoming a Lead Engineer, Engineering Manager, or even an Aviation Consultant.

Each of these roles involves greater responsibilities, leadership, and strategic decision-making.

Here’s what to focus on:

Technical Leadership: Drive technical initiatives and guide the technical direction of your projects and teams.
Management Skills: If you transition into management, hone your leadership and communication skills to guide your team effectively.
Innovation: Keep innovating and stay at the forefront of aviation technology.

Pinnacle of Success: Chief Aviation Engineer

You may reach roles like Chief Aviation Engineer at the highest levels of the aviation engineering career ladder.

Here, you’ll be responsible for shaping the overall engineering strategy of the organization, making critical decisions, and managing larger teams.

Aviation Engineer Salary

Entry-Level Aviation Engineer

Median Salary: $60,000 – $80,000 per year
Entry-level aviation engineers typically have 0-2 years of experience and may hold bachelor’s or master’s degrees in aerospace or mechanical engineering.

Mid-Level Aviation Engineer

Median Salary: $80,000 – $110,000 per year
Mid-level aviation engineers have 2-5 years of experience and often take on more complex responsibilities in aircraft design, testing, and maintenance.

Senior Aviation Engineer

Median Salary: $110,000 – $150,000 per year
Senior aviation engineers possess 5+ years of experience and may be responsible for leading projects, supervising testing procedures, and providing technical direction in the development of new aircraft and aerospace systems.

Lead Aviation Engineer / Aviation Engineering Manager

Median Salary: $130,000 – $180,000+ per year
These roles come with significant experience and often involve technical leadership, project management, and decision-making within the context of aerospace engineering.

Principal Engineer / Technical Director / VP of Aviation Engineering

Median Salary: $150,000 – $250,000+ per year
These high-level positions require extensive experience, deep technical expertise and often involve setting technical strategies for a company’s aviation-related projects and initiatives.

Aviation Engineer Work Environment

Aviation Engineers primarily work in offices, aeronautical laboratories, production hangars, and in aircraft repair workshops.

They can be employed by aircraft manufacturers, airlines, government defense sectors, and research agencies.

Aviation Engineers often work on a full-time basis, but depending on the project requirements and deadlines, they may need to work additional hours.

Travel might also be necessary in some instances to test aircraft performance under different conditions.

They usually work in teams and need to coordinate with other engineers, aircraft mechanics, pilots, and ground staff to ensure the safety and efficiency of aircraft.

This work requires high attention to detail, problem-solving skills, and a strong understanding of aerodynamics and aviation systems.

FAQs About Becoming an Aviation Engineer

What is needed to become an aviation engineer?

Becoming an aviation engineer typically requires a strong educational background in aerospace engineering or a related field.

This can be achieved through a bachelor’s degree program, with many professionals going on to earn a master’s degree or higher.

In addition, licensing as a Professional Engineer (PE) can be beneficial.

Key skills for this role include a strong understanding of aerodynamics, structural design, and computer-aided design (CAD) software.

Problem-solving skills, mathematical proficiency, and attention to detail are also crucial in this field.

How long does it take to become an aviation engineer?

The timeframe to become an aviation engineer depends on the individual’s educational path.

A bachelor’s degree in aerospace engineering or a related field generally takes four years to complete.

However, some positions may require a master’s degree or higher, adding an additional 2-3 years.

After graduation, gaining practical experience through internships or entry-level positions is beneficial for further career advancement.

Can I become an aviation engineer without a degree?

Becoming an aviation engineer without a degree can be challenging due to the technical and scientific knowledge required in this field.

Most positions require at least a bachelor’s degree in aerospace engineering or a closely related field.

However, you might be able to start your career in a less specialized role with an associate degree or through vocational training, then work your way up by gaining experience and pursuing additional education.

Is aviation engineering a stressful job?

Aviation engineering can be a high-pressure job due to the critical nature of the work.

Engineers often work to tight deadlines and are responsible for ensuring the safety and efficiency of aircraft and aerospace systems.

However, stress levels can vary depending on the specific role, the employer, and individual coping strategies.

Many aviation engineers find the work to be intellectually stimulating and rewarding, which can help mitigate stress.

What are the prospects for aviation engineers in the next decade?

The job outlook for aviation engineers is generally positive, with steady growth predicted over the next decade.

As the aerospace industry continues to evolve with advancements in technology and increased focus on sustainability, there will likely be a demand for engineers who can innovate and adapt to these changes.

Opportunities in emerging fields such as unmanned aerial vehicles (drones) and private space travel may also drive job growth.

Conclusion

And there you have it.

Venturing into the world of aviation engineering is no easy task, but the rewards are undeniably gratifying.

Equipped with the right skills, education, and perseverance, you’re well on your path to making a significant contribution in the aviation industry.

Remember, the journey may be demanding, but the horizons are endless. Your innovations could lead to the next groundbreaking technological advancement that transforms the way we travel and explore the world.

So, make your move. Immerse yourself in learning. Connect with professionals in the field. And most importantly, never stop innovating.

Because the skies are waiting for what you can engineer.

If you’re seeking personalized guidance on launching or accelerating your career in aviation engineering, consider our AI Career Path Advisor.

This complimentary tool is designed to provide tailored advice and resources to help you effectively navigate your career trajectory.

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