Aerospace engineers are at the forefront of exciting advances in rockets, advanced air-mobility, drone development and logistics and advanced aircraft. Our program prepares students to contribute to these exciting developments through theoretical and practical courses; internships; group projects; and a multiple major, two-semester capstone experience.
Aerospace Engineering - B.S.
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Bachelor鈥檚 Degree in Aerospace Engineering
黑料网鈥檚 Bachelor of Science in Aerospace Engineering provides a comprehensive education in the application of engineering principles to the design, manufacturing and functionality of aerospace vehicles such as aircraft, missiles and spacecraft.
Program Information for Aerospace Engineering - B.S.
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Program Description
Full Description
The Bachelor of Science degree in Aerospace Engineering successfully prepares the aerospace engineers of the future to work in multidisciplinary teams to design products and perform research in innovative ways that affect positive change on a regional, national and global scale. The program focuses on the application of engineering principles to the design, manufacturing and functionality of aerospace vehicles such as aircraft, missiles and spacecraft. Students gain in-depth knowledge of aerodynamics, engineering materials and processes, structures, propulsion, flight mechanics and control, while being exposed to orbital mechanics, space structures and rocket propulsion.
Applicants to this program should understand that this is a math-intensive program.
Students may apply early to the and double count 9 credit hours of graduate courses toward both degree programs. See the policy in the University Catalog for more information.
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Admissions
for Aerospace Engineering - B.S.
Admission Requirements
The university affirmatively strives to provide educational opportunities and access to students with varied backgrounds, those with special talents and adult students who graduated from high school three or more years ago.
Admission to the Aerospace Engineering major is selective.
New Students: Admission into this major requires:
- Minimum 3.0 high school GPA
- Clear demonstration of an ability to be placed directly into MATH 12002 (or its equivalent); this will occur if the student is currently taking or has taken a calculus, pre-calculus or trigonometry course with a minimum C grade
Students who do not meet the above requirements will be admitted to the , provided they meet the minimum program requirements.
Note: Applicants should understand that this is a math-intensive program. Students admitted to the program are expected to demonstrate prerequisite knowledge on a math placement exam (the ALEKS exam) prior to starting their first semester. Students who do not obtain the minimum score required to place into will have their major changed to prior to their freshman year.
Current Students: Students accepted into the may request a change in major to Aerospace Engineering as soon as placement into MATH 12002 has been demonstrated (prior to the beginning of freshman year). Otherwise, students may request to change their major to Aerospace Engineering after their freshman year if they meet the following criteria:
- Minimum 3.000 overall Kent State GPA
- Minimum C grade in both MATH 12002 and PHY 23101
Transfer Students: Admission into this major requires:
- Minimum 12 credit hours of college-level coursework
- Minimum 3.000 overall GPA
- Minimum C grade in both MATH 12002 and PHY 23101 (or their equivalents)
Transfer students who have completed fewer than 12 credit hours of college-level coursework will be evaluated on both collegiate and high school records and must submit a final high school transcript.
International Students: All international students must provide proof of English language proficiency (unless they meet specific exceptions to waive) by earning a minimum 71 TOEFL iBT score, minimum 6.0 IELTS score, minimum 47 PTE score or minimum 100 DET score, or by completing the ELS level 112 Intensive English Program. For more information on international admission visit the admissions website for international students.
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Learning Outcomes
Program Learning Outcomes
Graduates of this program will be able to:
- Identify, formulate and solve complex engineering problems by applying principles of engineering, science and mathematics.
- Apply engineering design to produce solutions that meet specified needs with consideration of public health, safety and welfare, as well as global, cultural, social, environmental and economic factors.
- Communicate effectively with a range of audiences.
- Recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental and societal contexts.
- Function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks and meet objectives.
- Develop and conduct appropriate experimentation, analyze and interpret data and use engineering judgment to draw conclusions.
- Acquire and apply new knowledge as needed, using appropriate learning strategies.
The educational objectives of the program are the following:
- Drive positive change in the community by engaging in careers in the field of aerospace engineering and beyond in a manner that promotes excellence and integrity.
- Practice forward-thinking through continued education by way of graduate education, professional development and other continued self-motivated learning.
- Successfully navigate the ever-changing trajectory of the world, practicing compassion as you strive to meet your personal career goals.
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Coursework
On This Page
Program Requirements
Major Requirements
Course List Code Title Credit Hours Major Requirements (courses count in major GPA) AERN 35150 AIRCRAFT STRUCTURES 3 ENGR 11001 INTRODUCTION TO ENGINEERING 2 ENGR 11002 INTRODUCTION TO ENGINEERING LABORATORY 1 ENGR 13586
& ENGR 13587COMPUTER AIDED DESIGN I
and COMPUTER AIDED DESIGN I LABORATORY3 or MERT 12001 COMPUTER-AIDED DESIGN ENGR 15300 INTRODUCTION TO ENGINEERING ANALYSIS USING MATLAB® 2 ENGR 15301 INTRODUCTION TO ENGINEERING ANALYSIS USING MATLAB® LAB 1 ENGR 20000 PROFESSIONAL DEVELOPMENT IN ENGINEERING 1 ENGR 20002 MATERIALS AND PROCESSES 3 ENGR 25200 STATICS (min C grade) 3 ENGR 25400 DYNAMICS (min C grade) 3 ENGR 25500 AERODYNAMICS FOR ENGINEERS I (min C grade) 3 ENGR 33041 CONTROL SYSTEMS 3 ENGR 35200 THERMAL FLUID ENGINEERING 3 ENGR 35201 THERMAL FLUID ENGINEERING LABORATORY 1 ENGR 35300 AIRCRAFT PERFORMANCE AND STABILITY I 3 ENGR 35500 SIGNALS AND CIRCUITS 3 ENGR 35501 SIGNALS AND CIRCUITS LABORATORY 1 ENGR 35600 AERODYNAMICS FOR ENGINEERS II 3 ENGR 42111 STRENGTH OF MATERIALS FOR ENGINEERS 3 ENGR 42363 MATERIALS SELECTION IN DESIGN AND APPLICATIONS 3 ENGR 45121 AEROSPACE PROPULSION FOR ENGINEERING 3 ENGR 45600 AIRCRAFT PERFORMANCE AND STABILITY II 3 ENGR 45901 INTRODUCTION TO FINITE ELEMENT METHOD AND APPLICATIONS 3 ENGR 48001 ORBITAL MECHANICS 3 ENGR 48099 ENGINEERING CAPSTONE I (ELR) 1 3 ENGR 48199 ENGINEERING CAPSTONE II (ELR) (WIC) 1, 2 3 Specialization, choose from the following: 3 Engineering InternshipCAE 45092AERONAUTICS AND ENGINEERING INTERNSHIP/COOPERATIVE EDUCATION (ELR) (WIC) 2 Machine DesignENGR 43580COMPUTER-AIDED MACHINE DESIGN MaterialsENGR 42710
& ENGR 42711ADDITIVE MANUFACTURING
and ADDITIVE MANUFACTURING LABORATORYPatent and Engineering LawENGR 35550LAW AND ETHICS FOR ENGINEERS Space ApplicationsENGR 48002SPACECRAFT ATTITUDE DYNAMICS, DETERMINATION AND CONTROL ENGR 48003SPACECRAFT DESIGN Systems Engineering and OptimizationENGR 42410ENGINEERING OPTIMIZATION ENGR 47200SYSTEMS ENGINEERING Undergraduate ResearchCAE 45096INDIVIDUAL INVESTIGATION IN AERONAUTICS AND ENGINEERING Additional Requirements (courses do not count in major GPA) CHEM 10060 GENERAL CHEMISTRY I (KBS) 4 ECON 22060 PRINCIPLES OF MICROECONOMICS (KSS) 3 MATH 12002 ANALYTIC GEOMETRY AND CALCULUS I (KMCR) 5 MATH 12003 ANALYTIC GEOMETRY AND CALCULUS II 5 PHY 23101 GENERAL UNIVERSITY PHYSICS I (KBS) (KLAB) 5 PHY 23102 GENERAL UNIVERSITY PHYSICS II (KBS) (KLAB) 5 UC 10001 FLASHES 101 1 Additional Mathematics Electives, choose from the following: 3 8-10 MATH 21001
& MATH 22005
& MATH 32044LINEAR ALGEBRA
and ANALYTIC GEOMETRY AND CALCULUS III
and ORDINARY DIFFERENTIAL EQUATIONSMATH 32051
& MATH 32052MATHEMATICAL METHODS IN THE PHYSICAL SCIENCES I
and MATHEMATICAL METHODS IN THE PHYSICAL SCIENCES II6 9 3 1 Minimum Total Credit Hours: 124 - 1
ENGR 48099 and ENGR 48199 must be taken during the same academic year.
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A minimum C grade must be earned to fulfill the writing-intensive requirement.
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To reduce the total number of required credit hours, students are advised to take MATH 32051 and MATH 32052. The other alternative courses are listed for students who have already taken college coursework elsewhere or are off track with respect to the roadmap.
Graduation Requirements
Graduation Requirements Summary Minimum Major GPA Minimum Overall GPA 2.750 2.500 -
Roadmap
Roadmap
This roadmap is a recommended semester-by-semester plan of study for this major. However, courses designated as critical (!) must be completed in the semester listed to ensure a timely graduation.
Plan of Study Grid Semester One Credits ENGR 11001 INTRODUCTION TO ENGINEERING 2 ENGR 11002 INTRODUCTION TO ENGINEERING LABORATORY 1 ENGR 15300 INTRODUCTION TO ENGINEERING ANALYSIS USING MATLAB® 2 ENGR 15301 INTRODUCTION TO ENGINEERING ANALYSIS USING MATLAB® LAB 1 ! MATH 12002 ANALYTIC GEOMETRY AND CALCULUS I (KMCR) 5 UC 10001 FLASHES 101 1 Kent Core Requirement 3 Credit Hours 15 Semester Two CHEM 10060 GENERAL CHEMISTRY I (KBS) 4 ENGR 13586
& ENGR 13587or MERT 12001COMPUTER AIDED DESIGN I
and COMPUTER AIDED DESIGN I LABORATORYor COMPUTER-AIDED DESIGN3 ! MATH 12003 ANALYTIC GEOMETRY AND CALCULUS II 5 ! PHY 23101 GENERAL UNIVERSITY PHYSICS I (KBS) (KLAB) 5 Credit Hours 17 Semester Three ENGR 20000 PROFESSIONAL DEVELOPMENT IN ENGINEERING 1 ! ENGR 25200 STATICS 3 ! PHY 23102 GENERAL UNIVERSITY PHYSICS II (KBS) (KLAB) 5 ! Additional Mathematics Elective 4 ! Additional Mathematics Elective or Kent Core Requirement 3 Credit Hours 16 Semester Four ECON 22060 PRINCIPLES OF MICROECONOMICS (KSS) 3 ENGR 20002 MATERIALS AND PROCESSES 3 ! ENGR 25400 DYNAMICS 3 ! ENGR 25500 AERODYNAMICS FOR ENGINEERS I 3 ! Additional Mathematics Elective 3-4 Credit Hours 16 Semester Five ENGR 35200 THERMAL FLUID ENGINEERING 3 ENGR 35201 THERMAL FLUID ENGINEERING LABORATORY 1 ENGR 35500 SIGNALS AND CIRCUITS 3 ENGR 35501 SIGNALS AND CIRCUITS LABORATORY 1 ! ENGR 35600 AERODYNAMICS FOR ENGINEERS II 3 ENGR 42111 STRENGTH OF MATERIALS FOR ENGINEERS 3 Kent Core Requirement 0-3 Credit Hours 14 Semester Six ENGR 33041 CONTROL SYSTEMS 3 ! ENGR 35300 AIRCRAFT PERFORMANCE AND STABILITY I 3 ENGR 42363 MATERIALS SELECTION IN DESIGN AND APPLICATIONS 3 ENGR 45121 AEROSPACE PROPULSION FOR ENGINEERING 3 Kent Core Requirement 3 Credit Hours 15 Semester Seven AERN 35150 AIRCRAFT STRUCTURES 3 ! ENGR 45600 AIRCRAFT PERFORMANCE AND STABILITY II 3 ! ENGR 48099 ENGINEERING CAPSTONE I (ELR) 3 Specialization 3 Kent Core Requirement 3 Credit Hours 15 Semester Eight ! ENGR 45901 INTRODUCTION TO FINITE ELEMENT METHOD AND APPLICATIONS 3 ! ENGR 48001 ORBITAL MECHANICS 3 ! ENGR 48199 ENGINEERING CAPSTONE II (ELR) (WIC) 3 Kent Core Requirement 3 Kent Core Requirement 3 Kent Core Requirement 1 Credit Hours 16 Minimum Total Credit Hours: 124 -
Program Delivery
- Delivery:
- In person
- Location:
- Kent Campus
- Delivery:
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Accreditation
for Aerospace Engineering - B.S.
The Bachelor of Science degree in Aerospace Engineering is accredited by the Engineering Accreditation Commission of ABET, www.abet.org, under the General Criteria and the Program Criteria for Aerospace Engineering and Similarly Named Programs.
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Student Achievement Data
Aerospace Engineering; Enrolled
2018
2019
2020
2021
2022
2023
41 63 73 88 111 139 Aerospace Engineering; Graduated
2018
2019
2020
2021
2022
2023
- - 12 11 15 TBA
Examples of Possible Careers and Salaries for Aerospace Engineering - B.S.
Graduates of 黑料网's Bachelor of Science in Aerospace Engineering have in-depth knowledge of aerodynamics, engineering materials and processes, structures, propulsion, flight mechanics and control.
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Aerospace engineers
2.8%
slower than the average
66,400
number of jobs
$118,610
potential earnings
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Mechanical engineers
3.9%
about as fast as the average
316,300
number of jobs
$90,160
potential earnings
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Architectural and engineering managers
2.6%
slower than the average
198,100
number of jobs
$149,530
potential earnings
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Notice: Career Information Source
* Source of occupation titles and labor data comes from the U.S. Bureau of Labor Statistics' . Data comprises projected percent change in employment over the next 10 years; nation-wide employment numbers; and the yearly median wage at which half of the workers in the occupation earned more than that amount and half earned less.