M.S. in Aerospace Engineering
Embry-Riddle Aeronautical University's Master of Science (M.S.) in Aerospace Engine...
Prescott, Arizona
INTAKE: Jan, May & Aug
The B.S. in Aerospace Physiology at Embry-Riddle Aeronautical University is a unique program designed to bridge the gap between aerospace engineering and human physiology. This program focuses on understanding how space and aviation environments affect human health and performance. Students are equipped with knowledge about physiological responses to extreme conditions such as high altitudes, low gravity, and high-speed travel. The degree prepares graduates for careers in fields where human factors are critical, including space exploration, aviation safety, and military operations.
STEM Designated: The B.S. in Aerospace Physiology is designated as a STEM (Science, Technology, Engineering, and Mathematics) program. This designation reflects the program’s emphasis on technical and scientific principles essential for understanding and managing human physiological responses in aerospace environments. The STEM designation also supports extended Optional Practical Training (OPT) for international students, allowing them to gain additional practical experience in the U.S. after completing their degree.
Curriculum: The curriculum for the B.S. in Aerospace Physiology combines coursework in physiology, aerospace science, and engineering. Core courses include Human Physiology, Aerospace Medicine, Environmental Physiology, and Biomechanics. Students also study subjects like space medicine, human factors engineering, and the effects of various environmental stressors on the human body. The program integrates practical laboratory work and hands-on projects to provide students with real-world experience and a comprehensive understanding of how physiological principles apply to aerospace contexts.
Research Focus: Research in the B.S. in Aerospace Physiology program is concentrated on studying the effects of aerospace environments on human health and performance. Key research areas include the impact of microgravity on the human body, the physiological challenges of high-altitude flight, and the development of countermeasures to mitigate adverse health effects. Students have opportunities to engage in research projects that explore topics such as cardiovascular and musculoskeletal adaptations in space, sensory and cognitive performance under stress, and the development of medical technologies for use in space exploration.
Industry Engagement: The program emphasizes industry engagement through partnerships with aerospace organizations, space agencies, and military institutions. Students have opportunities to participate in internships, cooperative education programs, and industry-sponsored projects, gaining practical experience and networking with professionals in the field. These industry connections provide valuable insights into current practices and emerging trends in aerospace physiology, enhancing students' readiness for their future careers.
Global Perspective: The B.S. in Aerospace Physiology incorporates a global perspective by addressing international standards and practices related to human health in aerospace environments. Students learn about global space missions, international aerospace regulations, and the worldwide impact of physiological research. The program’s global outlook prepares graduates to work in diverse international settings and contribute to global aerospace initiatives, ensuring they are well-versed in the challenges and opportunities of the global aerospace industry.
Prescott, Arizona
IELTS 6
USD 44324
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
Embry-Riddle Aeronautical University offers several scholarships and financial aid options to international students to help make their education more affordable. Scholarships are typically awarded based on academic achievement, leadership, and other criteria.
International Presidential Scholarship: This scholarship is awarded to exceptional international students who demonstrate strong academic achievement. It's typically based on a student's high school GPA, standardized test scores, and leadership qualities. The scholarship amount may vary.
International Student Academic Scholarships: These scholarships are offered to international students who have achieved high academic performance. Eligibility is usually determined based on the applicant's high school or previous college academic record.
Talent-Based Scholarships: Embry-Riddle offers scholarships to students with exceptional talents in areas like aviation, engineering, and related fields. These scholarships are often awarded to students who have demonstrated outstanding achievements or contributions in their respective areas.
Aviation Scholarships: Given the university's strong focus on aviation, there are specific scholarships available for students pursuing degrees in aviation-related fields. These scholarships may be awarded based on factors like flight hours, certifications, or specialized skills.
Diversity Scholarships: Embry-Riddle is committed to promoting diversity and inclusion. Scholarships may be available to students from underrepresented backgrounds who can contribute to the university's diverse community.
Athletic Scholarships: For international students who excel in sports, athletic scholarships may be an option. These scholarships are typically awarded based on athletic performance and skills.
Study Abroad Scholarships: Embry-Riddle encourages international students to participate in study abroad programs. Scholarships may be available to help students fund these global learning experiences.
Endowed Scholarships: The university may have a variety of endowed scholarships funded by alumni and donors. These scholarships can cover a wide range of criteria and may have specific requirements.
Assistantships: While not traditional scholarships, assistantships provide opportunities for students to work part-time in various roles on campus. These roles can come with financial benefits, helping students cover their educational expenses.
External Scholarships: International students can also explore scholarship opportunities offered by external organizations, foundations, and government agencies in their home countries.
It's crucial for prospective international students to thoroughly research scholarship opportunities, understand the eligibility criteria, and meet application deadlines.
Graduates of the B.S. in Aerospace Physiology from Embry-Riddle Aeronautical University are well-equipped to pursue a variety of specialized and impactful careers within the aerospace and healthcare sectors. The program’s unique focus on the interaction between human physiology and aerospace environments prepares students for roles that address the challenges of extreme conditions on human health and performance.
Aerospace Physiologist: Aerospace Physiologists apply their expertise in human physiology to address the effects of space and aviation environments on the human body. They work on developing countermeasures to mitigate adverse health effects, optimizing performance in high-stress environments, and ensuring the well-being of astronauts and aviators.
Space Medicine Specialist: Space Medicine Specialists focus on the medical and physiological aspects of human spaceflight. They work on understanding and managing health issues that arise in space, such as bone density loss, muscle atrophy, and cardiovascular changes, and developing medical protocols for space missions.
Aerospace Medical Officer: Aerospace Medical Officers are responsible for overseeing the health and safety of pilots, astronauts, and other aerospace personnel. They conduct medical evaluations, manage health risks, and provide medical support for missions, ensuring that individuals are fit for the demanding conditions of aerospace operations.
Human Factors Engineer: Human Factors Engineers analyze how people interact with systems and environments to improve safety, performance, and usability. In the context of aerospace, they work on optimizing cockpit designs, flight control systems, and other technologies to enhance user experience and reduce errors.
Environmental Stress Researcher: Environmental Stress Researchers study how extreme environmental conditions, such as high altitude or microgravity, affect human physiology and performance. They conduct experiments and develop solutions to mitigate the effects of these stressors on individuals working in challenging aerospace environments.
Medical Device Developer: Medical Device Developers design and create technologies that support human health in aerospace contexts. This includes developing monitoring equipment, life support systems, and diagnostic tools tailored to the unique needs of astronauts and pilots.
Aerospace Safety Specialist: Aerospace Safety Specialists focus on ensuring the safety of aerospace operations by analyzing potential health and safety risks. They develop safety protocols, conduct risk assessments, and implement strategies to prevent accidents and health issues in aviation and space missions.
Health and Performance Consultant: Health and Performance Consultants provide expertise on optimizing physical and mental performance in extreme conditions. They work with aerospace organizations to develop training programs, health management strategies, and performance enhancement techniques for individuals operating in high-stress environments.
Academic Researcher: Academic Researchers in aerospace physiology work in academic and research institutions to advance knowledge in the field. They conduct studies on the physiological impacts of aerospace environments, contribute to scientific publications, and educate the next generation of aerospace professionals.
Government and Space Agency Roles: Graduates may find opportunities with government agencies such as NASA, ESA, or other national space organizations, where they contribute to space mission planning, astronaut health management, and research initiatives focused on human spaceflight.