M.S. in Aerospace Engineering
Embry-Riddle Aeronautical University's Master of Science (M.S.) in Aerospace Engine...
Daytona Beach, Florida
INTAKE: Jan, May & Aug
The B.S. in Engineering Physics at Embry-Riddle Aeronautical University combines the principles of physics and engineering to prepare students for careers in high-tech and scientific fields. This interdisciplinary program provides a strong foundation in both theoretical and applied physics, integrated with engineering practices. Students gain skills in problem-solving, analytical thinking, and technical design, equipping them to tackle complex challenges in various technological and scientific domains.
STEM Designated: The B.S. in Engineering Physics is designated as a STEM (Science, Technology, Engineering, and Mathematics) program. This classification highlights the program's emphasis on technical and analytical skills, crucial for addressing modern scientific and engineering problems. The STEM designation also provides international students with opportunities for extended Optional Practical Training (OPT), allowing them to gain practical work experience in the U.S. after graduation.
ABET-accredited: Embry-Riddle’s B.S. in Engineering Physics program is accredited by the Accreditation Board for Engineering and Technology (ABET). This accreditation ensures that the program meets high standards of quality and rigor in engineering education. ABET accreditation validates that the program’s curriculum, faculty, and resources meet industry benchmarks and adequately prepare students for professional practice in engineering physics.
Curriculum: The curriculum for the B.S. in Engineering Physics at Embry-Riddle is designed to provide a comprehensive education in both physics and engineering. Core courses include classical mechanics, electromagnetism, quantum mechanics, thermodynamics, and advanced engineering principles. Students also engage in hands-on laboratory work, design projects, and elective courses in specialized areas such as optics, materials science, and aerospace engineering. This blend of theoretical knowledge and practical experience prepares students for a wide range of technical careers.
Research Focus: The Engineering Physics program at Embry-Riddle emphasizes cutting-edge research in areas such as aerospace systems, materials science, and energy technologies. Students have opportunities to collaborate with faculty on innovative research projects, contributing to advancements in fields like nanotechnology, space exploration, and renewable energy. The program fosters a research-driven environment, encouraging students to explore and develop new technologies and solutions.
Industry Engagement: Embry-Riddle’s B.S. in Engineering Physics program features strong industry engagement through partnerships with leading technology and aerospace companies. Students benefit from internships, co-op programs, and industry-sponsored projects that provide practical experience and networking opportunities. These collaborations help students gain real-world insights and prepare for successful careers in technical fields.
Global Perspective: The B.S. in Engineering Physics program incorporates a global perspective by addressing international trends and challenges in science and engineering. Students have opportunities to participate in study abroad programs and international research projects, enhancing their understanding of global scientific and technological issues. This global approach ensures that graduates are prepared to work effectively in diverse and international settings.
Daytona Beach, Florida
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 with a B.S. in Engineering Physics from Embry-Riddle Aeronautical University are well-prepared for a wide range of technical and scientific careers. The program’s rigorous curriculum, which integrates advanced physics with engineering principles, equips students with the skills necessary for roles in diverse and high-impact fields.
Aerospace Engineer: Aerospace engineers design, develop, and test aircraft and spacecraft. They work on projects related to propulsion systems, avionics, and aerospace materials, applying their knowledge of physics and engineering to improve performance and safety in the aerospace sector.
Physicist: Physicists conduct research to understand the fundamental principles governing the physical universe. They may work in academia, government laboratories, or private industry, exploring topics such as quantum mechanics, electromagnetism, and materials science.
Mechanical Engineer: Mechanical engineers design and develop mechanical systems and devices. They apply principles of physics and engineering to solve problems related to machinery, thermal systems, and structural components, often working in industries like manufacturing, automotive, and robotics.
Optical Engineer: Optical engineers focus on the design and development of optical systems and devices, such as lenses, microscopes, and laser systems. They apply their knowledge of optics and physics to create technologies used in imaging, telecommunications, and medical applications.
Materials Scientist: Materials scientists study the properties and behaviors of materials to develop new materials and improve existing ones. They work on applications in fields such as aerospace, electronics, and energy, using their understanding of physics and materials science to solve engineering challenges.
Energy Engineer: Energy engineers work on developing and optimizing energy systems and technologies, including renewable energy sources, power generation, and energy efficiency. They apply principles of physics and engineering to address energy challenges and contribute to sustainable energy solutions.
Systems Engineer: Systems engineers design and manage complex systems that integrate various components and technologies. They ensure that all parts of a system work together effectively, applying their problem-solving skills to industries such as aerospace, defense, and telecommunications.
Quantum Computing Specialist: Quantum computing specialists focus on developing and implementing quantum computing technologies. They work on advancing quantum algorithms, quantum hardware, and quantum information theory, leveraging their background in physics and engineering.
Research and Development (R&D) Engineer: R&D engineers work on innovative projects to advance technology and develop new products. They conduct experiments, analyze data, and collaborate with interdisciplinary teams to drive technological advancements in various fields.
Consulting Engineer: Consulting engineers provide expert advice and solutions to clients across different industries. They use their technical expertise to solve complex engineering problems, optimize systems, and implement best practices.
Electronics Engineer: Electronics engineers design and develop electronic devices and systems. They work on projects involving circuits, communication systems, and embedded systems, applying their understanding of physics and electronics.
Data Scientist: Data scientists analyze and interpret complex data to provide insights and support decision-making. They use statistical methods, machine learning, and data modeling techniques, often working in industries such as finance, healthcare, and technology.