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Explore the science and practice of piloting through hands-on flight and simulation. Focus on navigation, weather and safety to build the technical skills and professional judgment needed to operate aircraft and contribute to aviation mission success.

Examine the aviation industry through operations, safety, maintenance and air transportation systems. Develop technical understanding and applied problem solving that supports advancement across airports, flight organizations and aerospace networks.

Where operational insight meets data interpretation. Study performance modeling, forecasting and analytical tools to enhance planning, efficiency and strategic outcomes in airlines, airports and aerospace organizations.

Explore flight and space systems through aerodynamics, propulsion, structures and controls. Apply engineering methods in labs, design projects that advance aircraft performance and contribute to the future of space exploration.

Where human performance intersects with extreme environments. Study the effects of altitude, acceleration and microgravity to support crew health and mission readiness in aviation and spaceflight operations.

Explore airspace coordination through navigation, communication and radar technologies. Focus on maintaining safety and efficiency while developing the decision-making skills needed to guide aircraft in complex environments.

Coordinate flight operations through weather analysis, routing and regulatory knowledge. Support flight crews by evaluating conditions and making informed go or no-go recommendations that promote safety and schedule stability. Note: This program is offered alongside the pursuit of a degree and not as separate training.

Where business systems connect with global air travel operations. Study scheduling, revenue, safety oversight and service quality to support efficient and passenger-centered airline management.

Explore airport operations and emerging air mobility systems through logistics, infrastructure design and sustainability planning. Prepare to contribute to efficient and future-focused air transportation networks.

Focus on the flow of passengers and cargo through automated baggage systems. Learn integration, safety and operational coordination to support reliable airport movement and service continuity.

Where innovation must meet safety and regulatory standards. Study certification, compliance and reliability evaluation to ensure aircraft and space systems perform dependably throughout their operational life.

Explore living systems through cellular biology, physiology and ecology. Focus on how biological processes impact environments, health and aerospace contexts. Build a scientific foundation that supports research, biotechnology, environmental work or medical pathways.

Where atmospheric science meets operational decision making. Study weather systems, climate patterns and forecasting tools. Apply analysis to aviation and environmental planning to support safety, routing and mission outcomes across weather-sensitive operations.

Explore intelligent systems through ethical reasoning and creative problem solving. Examine how AI interacts with human values, cultural impacts and responsible innovation. Prepare to guide technology development that supports society rather than replaces it.

Investigate celestial objects and cosmic systems through observation, physics and data analysis. Work with telescopes and imaging tools to study stellar evolution, planetary motion and galactic structure while developing scientific reasoning used in research and exploration.

Explore the universe through theoretical models and observational data. Study the behavior of stars, planets and galaxies along with the forces that shape them. Apply physics, computation and mathematical methods that support research in space science and cosmology.

Study the principles that connect flight operations, safety, management and technology across the aviation industry. You’ll analyze systems and strategies that shape air transport and prepare to lead advancements in an evolving global aerospace environment.

Focus on preventing accidents and improving operational safety across flight and space environments. Study human factors, risk management, investigation techniques and safety program design to support organizations working to maintain safe and reliable operations.

Explore sustainability through the lens of aviation and space operations. Examine environmental impacts, energy use and system design to develop strategies that balance technological progress with global responsibility and long-term operational resilience.

Examine business operations through the lens of the aviation industry. Study management, finance, marketing and supply chain strategy in aviation contexts. You’ll build analytical and leadership skills that support decision making in airlines, airports and aerospace organizations.

Where aviation operations meet digital protection. Study how aircraft systems, communication networks and air traffic environments can be secured. You’ll learn methods for assessing vulnerabilities and supporting reliable, protected aviation systems.

Examine how financial decisions shape airlines and aerospace operations. You’ll learn how organizations evaluate costs, manage resources and make strategic choices across the global aviation market.

Develop the knowledge required to maintain and manage aircraft systems. Study airframe and powerplant technology along with maintenance planning and safety practices, and apply technical training to support reliable, efficient and compliant aviation operations.

Explore aircraft inspection, repair and troubleshooting through hands-on technical training. Prepare for the FAA Airframe and Powerplant certification while gaining experience in avionics, safety and operational support across various aviation settings.

Prepare to translate prior aviation maintenance experience. Focus on core airframe and powerplant competencies needed for A&P exams, helping you validate your skills for broader professional opportunities.

Study how organizations identify hazards and prevent incidents across aviation operations. Examine system safety, human performance and investigation methods, and learn to assess risk and apply safety principles that support reliable flight and operational continuity.

Study how organizations operate and make decisions. Explore accounting, management, marketing and strategic planning while learning how businesses allocate resources, support teams and respond to changing markets across industries, including aerospace.

Examine business principles through the structure of aviation organizations. You’ll study budgeting, planning, operations and market strategies used by airlines, airports and aviation service providers, preparing you to support leadership and organizational coordination.

Focus on how business and operational systems function within air transportation. Learn how scheduling, service delivery, finance and workforce management connect to aviation outcomes.

Explore how data supports organizational decisions. Study data sourcing, statistical analysis and visualization tools that help clarify patterns and inform planning. You’ll learn to translate data into meaningful insight that supports business strategy.

Build foundations in analytics used to evaluate organizational performance. Learn data interpretation and reporting practices that support continuous improvement and evidence-based decisions across business environments.

Study how infrastructure is planned, designed and built. Explore structural analysis, construction methods and environmental considerations. You’ll learn how engineering decisions shape transportation systems, public works and community development.

Explore how messages shape technology, society and aviation environments. You’ll study media, technical writing and digital platforms to translate complex information into clear communication that engages diverse audiences in aviation, aerospace and STEM-driven settings.

Dive into the mathematical and computational tools used across science and engineering. You’ll develop analysis skills in statistics, programming and problem solving that apply to real-world challenges in data-intensive and technology-driven fields.

Where hardware meets software in aerospace contexts. You’ll study digital systems, embedded programming and electronics while developing the technical knowledge needed to design complex systems integral to aviation, uncrewed vehicles and space applications.

Delve into computing theory, algorithms and software development in a high-tech environment. You’ll build foundational programming skills, tackle challenging problems and develop solutions that power aerospace, defense and global technology industries.

Prepare to communicate effectively under pressure. You’ll explore how messaging and media strategies support organizations in crisis, analyze risk communication frameworks and develop skills to support resilience in high-stakes environments.

Understand how digital threats affect aviation, aerospace and national security. You’ll study network defense, threat analysis and system vulnerabilities to support safe, resilient operations across connected systems and infrastructure.

Translate complex datasets into actionable insight. You’ll develop expertise in programming, statistics and visualization to extract meaning from information and support evidence-based decisions across business, engineering and aviation sectors.

Embry‑Riddle offers high school students a head start through two elite dual enrollment pathways that allow you to earn college credits from Embry‑Riddle while still in high school. Whether you prefer the energy of a classroom or the flexibility of a digital campus, we have a path for you.

Bridge electrical systems and computing design at an advanced level. You’ll explore systems-level integration, signal processing and hardware/software interplay to lead design efforts in aerospace, defense and technology enterprises.

Investigate how electrical systems power and control modern aerospace vehicles and infrastructure. You’ll study circuit theory, electromagnetics and control systems while developing technical knowledge applicable in aviation, industry and research.

Pursue the highest level of research and innovation in computing and electronics. You’ll engage in advanced study and investigation, shaping new technologies and contributing to academic or industry leadership in aerospace systems and software.

Explore how communities prepare for and respond to disasters. You’ll study planning, leadership and coordination across aviation, fire and public safety contexts, developing the skills needed to manage emergencies and support recovery efforts.

Develop leadership and coordination capabilities for emergency response environments. You’ll study risk assessment, operational planning and crisis communication to support organizations preparing for or managing high-impact events.

Focus on modern fire and emergency response systems. You’ll examine leadership, risk reduction and operational planning through aviation and fire service perspectives, earning credentials recognized by national fire and emergency management organizations.

Where innovation meets application. Study mechanical, electrical and systems concepts that shape aerospace technology. You’ll develop a multidisciplinary foundation for designing, testing and improving complex engineering systems used in research and industry.

Gain a strong start in the principles of design, analysis and technical problem solving. You’ll explore topics in mechanical, electrical and systems engineering that prepare you to advance in engineering.

Combine technical expertise with organizational strategy. You’ll learn how to plan projects, manage teams and optimize engineering systems while balancing cost, schedule and performance within aerospace and technology environments.

Explore the physical laws that drive innovation in flight and space systems. Study optics, quantum mechanics and instrumentation, applying physics to research and development projects that advance aerospace and technology.

Apply engineering principles to solve practical industry challenges. You’ll work with virtual labs and simulation tools to analyze systems, improve design efficiency and evaluate results that drive progress across aviation and aerospace operations.

Whether you are an international student coming to Embry‑Riddle or a current student looking to spend a semester or year abroad, our Incoming and Outgoing Student Exchange Programs offer an unforgettable academic journey. By studying in a new country, you will gain unique global experiences, immerse yourself in new cultures, and build the international edge needed to land your dream job.

Develop an understanding of financial principles that guide organizational decision making. You’ll study valuation, investment and resource allocation to strengthen strategic and analytical insight across aviation and business sectors.

Where financial systems meet investigation. Learn to detect, prevent and document fraud using accounting, auditing and analytical techniques that prepare you to support ethical financial practices and investigative processes.

Explore the science of evidence through DNA analysis, tissue sampling and crime-scene investigation. You’ll gain hands-on experience in advanced biology and forensics labs while studying the legal and ethical standards that guide evidence handling and reporting.

Study how human thoughts, emotions and behaviors connect with the law and criminal justice system. Explore the science of psychology — how people think, learn and make decisions — and apply it to real-world issues like investigations, trials and corrections.

At Embry‑Riddle, we prepare you with a strong foundation of core principles to complement your educational journey. Our fundamental General Education courses help students refine life skills in communication, critical thinking and reasoning that will support both their academic and professional careers.

Study how global markets, logistics and cultural awareness shape modern business. You’ll explore management, finance and international strategy to prepare for roles that support global operations, trade and cross-cultural collaboration.

Understand the origins and resolution of global disputes. You’ll study history, politics and international relations to analyze how conflicts emerge and how peacekeeping, diplomacy and policy can address challenges across nations and cultures.

Where intelligence and security converge. Explore how political, economic and technological factors shape global threats. You’ll study analysis, cybersecurity and crisis response to prepare for careers in intelligence, defense and international security.

Examine how national systems protect people and infrastructure. You’ll study emergency planning, intelligence coordination and policy development while learning how to manage threats and strengthen community and organizational resilience.

Explore the coordination between intelligence gathering and homeland defense. You’ll learn analytical, operational and leadership skills that support decision making in public safety, defense and private-sector security environments.

Study how people interact with machines, systems and environments. You’ll apply psychology, engineering and design to improve performance, safety and usability across operations.

Explore cognitive, physical and organizational factors that influence performance. You’ll study perception, decision making and system design to enhance human efficiency and safety.

Study how people shape organizations. You’ll explore staffing, performance, compensation and training while learning to align workforce planning with organizational goals in aviation, business and technical environments.

Where global stability meets community preparedness. Examine how nations and organizations respond to conflict, disaster and environmental change. You’ll learn to design programs that build resilience and reduce vulnerability in complex systems.

Focus on how psychology supports workplace effectiveness. You’ll study motivation, leadership, assessment and organizational behavior to apply evidence-based approaches that improve performance and employee well-being.

Build a flexible academic path that integrates multiple disciplines. You’ll combine coursework from science, business, humanities or aviation to align your education with your personal interests and career goals across emerging global industries.

Where global markets meet strategy. Study cross-cultural communication, trade policy and international finance to understand how businesses expand across borders and navigate the complexities of global commerce.

Focus on the aviation finance and leasing industry through courses developed with the International Society of Transport Aircraft Trading. You’ll study valuation, leasing structures and asset management to prepare for roles in aircraft trading and investment.

Ignite your passion for aviation and aerospace with Embry‑Riddle’s diverse youth programs, offering everything from college-credit dual enrollment and hands-on summer camps to free foundational courses and grant opportunities for teachers.

Focus on the skills that inspire and guide others. Study communication, ethics and team development to strengthen your ability to lead with confidence and clarity in aviation, business and public service environments.

Explore how goods and resources move through global systems. Study forecasting, transportation and inventory management to design supply chains that meet the needs of aviation, aerospace and international commerce.

Study how organizations plan, coordinate and achieve results. You’ll learn about leadership, finance and operations while gaining insight into how people, systems and strategy combine to drive performance.

Where business insight meets technology solutions. Study databases, analytics and cybersecurity to understand how information systems support smarter, faster and more secure decision making in modern organizations.

Explore how organizations communicate value and connect with audiences. Study branding, consumer behavior and digital marketing tools to design strategies that strengthen engagement across aviation and business markets.

Study how motion, energy and materials shape the design of machines and structures. You’ll apply theory to projects that improve aircraft, spacecraft and advanced technologies used across the aerospace industry.

Where weather science meets human impact. Study atmospheric behavior, forecasting and climate systems to understand how weather influences decision making worldwide.

Learn the principles that keep workplaces safe. Study inspections, regulations and risk control methods that help protect employees, equipment and facilities across aviation and industrial environments.

Explore how organizations build safer workplaces. You’ll study hazard recognition, compliance and leadership while learning how to create safety programs that reduce risk and strengthen organizational performance.

Learn the principles that support professional flight operations. Study aerodynamics, meteorology, aircraft systems and crew coordination while gaining practical experience that prepares you for the responsibilities of modern aviation.

Professional education at Embry‑Riddle offers excellent opportunities for professionals and organizations in the evolving aviation and aerospace industry, and is recognized as one of the global leaders in aerospace and aviation education and training.

Where planning meets execution. Study budgeting, scheduling and leadership strategies that help teams complete complex projects on time and within scope across aviation, engineering and business environments.

Focus on preventing workplace incidents and promoting well-being. You’ll study safety planning, risk evaluation and regulatory compliance to build safer environments in aviation industries and beyond.

Explore how science and technology improve safety. You’ll learn about accident analysis, human factors and risk assessment to help organizations make data-driven decisions that protect people and operations.

Where national security meets data analysis. Study intelligence collection, cyber operations and threat assessment to prepare for work in government, defense or private-sector security fields.

Explore how simulation and design create interactive experiences. You’ll study modeling, programming and visual effects to build tools used in flight training, research, gaming and aerospace visualization.

Study how complex software systems are designed, built and maintained. You’ll gain hands-on experience developing secure, high-performance applications that support aviation, aerospace and technology industries.

Where flight meets the frontier. Study orbital mechanics, mission design and space systems management. You’ll learn how spacecraft are planned, launched and supported and how operations teams coordinate payloads, communications and safety for government, commercial and research missions.

Explore how matter and energy behave beyond Earth’s atmosphere. Study plasma physics, space weather and cosmic radiation while learning how physical forces influence spacecraft design, planetary systems and the broader universe.

Where engineering and space science connect. Study orbital mechanics, propulsion, communications and systems integration. You’ll learn how satellites and spacecraft are designed, tested and operated across government, commercial and research sectors.

Explore the world with Embry-Riddle's Study Abroad and Study America programs. Experience diverse cultures while advancing your education.

Available on our beautiful campuses in Florida and Arizona, Embry‑Riddle Summer Camps provide a mix of academic challenge with summer fun for youth ages 7 to 18. Sports and athletics camps are also available.

Focus on how complex projects are planned, built and maintained. Study modeling, integration and process improvement to understand how large engineering systems achieve reliability, efficiency and mission success.

Explore how business and technology work together. You’ll study leadership, resource planning and performance improvement to support technical operations in aviation, aerospace and engineering organizations.

Where flight meets innovation. Study design, operation and safety of uncrewed aircraft while exploring regulatory and ethical considerations. You’ll learn how autonomous systems support applications in mapping, surveillance and logistics.

Examine the growing role of automation in air, land and sea operations. You’ll study systems design, communication networks and mission planning to prepare for work in industries adopting uncrewed and intelligent technologies.

Focus on the engineering that powers next-generation autonomous vehicles. Study control systems, sensor integration and mission reliability to design technologies that expand how humans and machines work together.

Study the systems and software that guide uncrewed operations. You’ll explore autonomy, human-machine teaming and system design to prepare for work in aviation, defense and research environments.

Where technology meets autonomy. Explore operational design, communication systems and flight control to understand how uncrewed platforms are built and used safely across industries.