Masters of Urban Design
The Master of Urban Design program at Kent State University is designed to provide stud...
B.S. in Applied Engineering
Kent, Ohio
INTAKE: Jan & Aug
Program Overview
The Bachelor of Science in Applied Engineering at Kent State University is designed to equip students with the practical skills and theoretical knowledge needed to address engineering challenges in various industries. This program focuses on applying engineering principles to real-world problems, emphasizing hands-on experience, problem-solving, and technical proficiency. The curriculum is structured to prepare graduates for careers in fields such as manufacturing, automation, and systems engineering, where they can leverage their skills to improve processes and develop innovative solutions.
STEM-Designated: The B.S. in Applied Engineering is designated as a STEM (Science, Technology, Engineering, and Mathematics) program. This classification reflects the program's emphasis on technical and analytical skills essential for addressing complex engineering problems. The STEM designation highlights the program’s focus on fostering expertise in engineering technologies and methodologies, which are critical for career advancement in the field.
ABET Accredited: Kent State University's B.S. in Applied Engineering program is accredited by the Accreditation Board for Engineering and Technology (ABET). ABET accreditation ensures that the program meets high standards of quality and rigor in engineering education. This accreditation is a testament to the program's commitment to providing students with a robust and comprehensive education that meets industry and academic standards.
ATMAE Accredited: The program is also accredited by the Association of Technology, Management, and Applied Engineering (ATMAE). ATMAE accreditation signifies that the program adheres to rigorous standards set for technology and applied engineering education. This accreditation ensures that graduates are well-prepared for the challenges of the engineering profession and are equipped with the skills necessary for effective performance in their careers.
Curriculum: The curriculum for the B.S. in Applied Engineering at Kent State University is designed to provide a balance of theoretical knowledge and practical skills. Core courses cover topics such as engineering mechanics, electronics, manufacturing processes, and systems integration. Students engage in hands-on projects, laboratory work, and industry-related assignments to apply their learning in real-world contexts. The curriculum also includes elective courses that allow students to explore specialized areas such as robotics, automation, and quality control.
Research Focus: Research in the B.S. in Applied Engineering program at Kent State University is centered on addressing practical engineering challenges and advancing technological innovations. Faculty and students work on projects related to industrial automation, process optimization, and systems engineering. The research focus is on developing new technologies, improving existing processes, and contributing to advancements in applied engineering. Students are encouraged to participate in research activities that align with their career interests and contribute to the field.
Industry Engagement: The program emphasizes strong industry engagement through internships, cooperative education opportunities, and partnerships with local and regional businesses. Students gain practical experience by working on real-world projects and collaborating with industry professionals. These experiences provide valuable insights into industry practices and help students build a network of contacts in the engineering field. The program’s industry connections also facilitate job placement and career development for graduates.
Global Perspective: Kent State University's B.S. in Applied Engineering program incorporates a global perspective by addressing international engineering practices and trends. Students are exposed to global challenges and technological advancements through coursework, study abroad opportunities, and international projects. The program prepares students to work in diverse and global settings, equipping them with the knowledge and skills to address engineering problems on a worldwide scale.
Location
Kent, Ohio
Score
IELTS 6
Tuition Fee
USD 22316
Undergraduate Entry Requirements
Application Fee: $70
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 71 or higher.
- PTE: Overall score of 48 or higher.
- DET (Duolingo English Test): Overall score of 100.
Kent State University offers a range of scholarships to international students to help them manage the cost of tuition and make their education more affordable.
Global Scholarship: The Global Scholarship is a merit-based award for undergraduate international students. It ranges from $2,000 to $7,500 per year and is renewable based on academic performance. Applicants are automatically considered for this scholarship upon admission.
International Freshman Scholarship: This scholarship is designed for first-time, incoming international undergraduate students. It provides awards ranging from $4,000 to $10,000 per year. Students are automatically considered when they apply for admission.
International Transfer Student Scholarship: Transfer students from international institutions are eligible for this scholarship, which offers awards from $4,000 to $9,500 per year. The scholarship is based on academic merit, and applicants are considered upon admission.
Kent State University Honors College Scholarship: Exceptional international undergraduate students may apply for the Honors College Scholarship. It covers in-state tuition and offers additional funding for research and study abroad opportunities.
Global Diversity Scholarship: Kent State recognizes the value of diversity on campus. This scholarship, awarded to incoming undergraduate international students, provides $4,000 per year for up to four years.
Other Scholarships: Kent State University also offers various department-specific scholarships and awards. These scholarships may have specific eligibility criteria and application processes, so students should check with their academic departments.
External Scholarships: International students can explore external scholarship opportunities, such as government scholarships, private foundation scholarships, and international organizations' funding programs.
It's important to note that scholarship availability, eligibility criteria, and application deadlines may change from year to year.
Graduates with a Bachelor of Science in Applied Engineering from Kent State University are well-prepared to pursue a wide range of careers in engineering and technology. The program’s emphasis on practical skills and real-world applications equips students to tackle complex challenges in various industries, including manufacturing, automation, and systems engineering. The broad and versatile education allows alumni to enter multiple sectors and roles within the engineering field.
Manufacturing Engineer: Manufacturing engineers focus on optimizing production processes to improve efficiency and quality. They work on designing, implementing, and refining manufacturing systems, including automation and robotics. Their role involves analyzing production workflows, managing equipment, and ensuring that processes meet quality and safety standards.
Automation Engineer: Automation engineers design and implement automated systems and processes to enhance productivity and accuracy in manufacturing and other industries. They work with robotics, control systems, and software to develop solutions that reduce manual labor and increase operational efficiency. Automation engineers often collaborate with other engineers and technicians to integrate automation solutions into existing systems.
Systems Engineer: Systems engineers manage and coordinate complex engineering projects, ensuring that all components of a system work together effectively. They are involved in the design, integration, and optimization of systems across various domains, such as aerospace, defense, and telecommunications. Systems engineers focus on analyzing requirements, developing solutions, and managing project timelines and resources.
Quality Control Engineer: Quality control engineers are responsible for ensuring that products and processes meet specified standards and requirements. They develop and implement quality control procedures, conduct inspections and tests, and analyze data to identify and address quality issues. Their work helps maintain high standards of product reliability and performance.
Project Engineer: Project engineers oversee engineering projects from conception through completion. They manage project schedules, budgets, and resources, ensuring that engineering solutions are delivered on time and within scope. Project engineers coordinate with stakeholders, including clients, contractors, and team members, to ensure successful project outcomes.
Industrial Engineer: Industrial engineers focus on optimizing complex systems and processes to improve efficiency and reduce costs. They analyze workflows, design layout plans, and implement process improvements in areas such as manufacturing, logistics, and supply chain management. Industrial engineers use data analysis and modeling techniques to enhance productivity and operational performance.
Robotics Engineer: Robotics engineers design, develop, and maintain robotic systems used in manufacturing, healthcare, and other industries. They work on creating robotic components, programming control systems, and integrating robots into production lines. Robotics engineers focus on advancing robotic technologies and applications to improve automation and precision.
Product Development Engineer: Product development engineers work on designing and developing new products or improving existing ones. They are involved in every stage of product development, from initial concept and design to testing and production. Product development engineers collaborate with cross-functional teams to ensure that products meet customer needs and market demands.
Technical Consultant: Technical consultants provide expert advice and solutions to organizations facing engineering challenges. They analyze client needs, develop technical strategies, and offer recommendations to improve processes, systems, or products. Technical consultants leverage their engineering expertise to address specific issues and support organizational goals.
Engineering Educator or Trainer: Graduates may also pursue careers in education or training, teaching engineering principles and practices at academic institutions or corporate training programs. Engineering educators contribute to the development of future engineers and help organizations enhance their technical capabilities through training and professional development.
