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Applied Engineering - B.S.

The Bachelor of Science in Applied Engineering program teaches practical problem-solving skills and requires hands-on experience to prepare you for a fulfilling career in engineering. With access to state-of-the-art facilities, experienced faculty and real-world challenges, you'll gain the skills needed to solve complex engineering problems and make an impact in industry.

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Bachelor’s Degree in Applied Engineering

СƬƵ’s Bachelor of Science in Applied Engineering provides students instruction in basic math and science, engineering principles, processes, project management and personnel management.

Program Information for Applied Engineering - B.S.

Program Description

Full Description

The Bachelor of Science degree in Applied Engineering successfully prepares graduates to apply basic engineering principles, engineering skills and management practices using a systems approach to provide leadership and solve applied technical problems that provide solutions addressing societal needs and challenges. The program provides students instruction in basic math and science, engineering principles, processes, project management and personnel management. Students learn in the classroom, as well as through hands-on experiments and real-world internships.

Applicants to this program should understand that this is a math-intensive program. The degree program can also function as a completer degree for students with an associate degree in engineering technology.

The Applied Engineering major comprises the following concentrations:

  • The Applied Engineering and Technology Management concentration provides a focus on the application of management, design and technical skills for system integration; the execution of new product designs; the improvement of manufacturing processes; and the management and direction of physical and/or technical functions of an organization. Students also understand materials, facility design, quality and safety.
  • The Foundry Technology concentration prepares students for employment in the metal casting industry. Students complete coursework in materials and processes, cast metals, metallurgy and material science, solid modeling and solidification. In addition, students apply their knowledge and skills in the capstone course on foundry tooling and pattern making. They also gain experience with programmable logic controllers, hydraulics, pneumatics and computer-aided manufacturing.

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.

Admissions for Applied 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.

First-Year Students on the Kent Campus: First-year admission policy on the Kent Campus is selective. Admission decisions are based upon cumulative grade point average, strength of high school college preparatory curriculum and grade trends. Students not admissible to the Kent Campus may be administratively referred to one of the seven regional campuses to begin their college coursework. For more information, visit the .

First-Year Students on the Regional Campuses: First-year admission to СƬƵ’s campuses at Ashtabula, East Liverpool, Geauga, Salem, Stark, Trumbull and Tuscarawas, as well as the Twinsburg Academic Center, is open to anyone with a high school diploma or its equivalent. For more information on admissions, contact the Regional Campuses admissions offices.

International Students: All international students must provide proof of English language proficiency (unless they meet specific exceptions) by earning a minimum 525 TOEFL score (71 on the Internet-based version), minimum 75 MELAB score, minimum 6.0 IELTS score or minimum 48 PTE Academic score, or by completing the ELS level 112 Intensive Program. For more information, visit the admissions website for international students.

Transfer Students: Students who have attended any other educational institution after graduating from high school must apply as undergraduate transfer students. For more information, visit the admissions website for transfer students.

Former Students: Former СƬƵ students or graduates who have not attended another college or university since СƬƵ may complete the reenrollment or reinstatement form on the University Registrar’s website.

Admission policies for undergraduate students may be found in the University Catalog's .

Some programs may require that students meet certain requirements before progressing through the program. For programs with progression requirements, the information is shown on the program's Coursework tab.

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 fail to obtain the minimum score required to place into the required math courses are at risk of delaying graduation.

Learning Outcomes

Program Learning Outcomes

Graduates of this program will be able to:

  1. Apply knowledge, techniques, skills and modern tools of mathematics, science, engineering and technology to solve broadly defined engineering problems appropriate to the discipline.
  2. Design systems, components or processes meeting specified needs for broadly defined engineering problems appropriate to the discipline.
  3. Apply written, oral and graphical communication in broadly defined technical and non-technical environments, and an ability to identify and use appropriate technical literature.
  4. Conduct standard tests, measurements and experiments and analyze and interpret the results to improve processes.
  5. Function effectively as a member as well as a leader on technical teams.

The educational objectives of the program are the following:

  1. Drive positive change in the community by engaging in careers in the areas of manufacturing, quality, engineering management, foundry operations or related fields in a manner that promotes excellence and integrity.
  2. Practice forward-thinking through continued education by way of professional development, graduate education and other continued self-motivated learning.
  3. Successfully navigate the ever-changing trajectory of the world, practicing compassion as you strive to meet your personal and professional goals.
Coursework

Program Requirements

Major Requirements

Major Requirements (courses count in major GPA)
BA 44152PROJECT MANAGEMENT 1,23
or EMAT 41510 PROJECT MANAGEMENT AND TEAM DYNAMICS (WIC)
or ENGR 36620 PROJECT MANAGEMENT IN ENGINEERING
ENG 20002INTRODUCTION TO TECHNICAL WRITING 3
ENGR 11001INTRODUCTION TO ENGINEERING 2
ENGR 11002INTRODUCTION TO ENGINEERING LABORATORY 1
ENGR 13586
ENGR 13587
COMPUTER AIDED DESIGN I
and COMPUTER AIDED DESIGN I LABORATORY
3
or MERT 12001 COMPUTER-AIDED DESIGN
ENGR 20000PROFESSIONAL DEVELOPMENT IN ENGINEERING 1
ENGR 20002MATERIALS AND PROCESSES 3
ENGR 23585COMPUTER AIDED DESIGN II 3
ENGR 30001APPLIED THERMODYNAMICS 3
ENGR 31000CULTURAL DYNAMICS TECHNOLOGY (DIVD) (WIC) 23
ENGR 31016MANUFACTURING TECHNOLOGY 3
ENGR 31065CAST METALS 3
ENGR 33031PROGRAMMABLE LOGIC CONTROLLERS 3
ENGR 33033HYDRAULICS/PNEUMATICS 3
ENGR 33111STATICS AND STRENGTH OF MATERIALS 3-6
or MERT 22005
MERT 22007
STATICS
and STRENGTH OF MATERIALS
ENGR 33700QUALITY TECHNIQUES 3
ENGR 33870FACILITY DESIGN AND MATERIAL HANDLING 3
ENGR 35550LAW AND ETHICS FOR ENGINEERS 3
ENGR 43080INDUSTRIAL AND ENVIRONMENTAL SAFETY 3
ENGR 43550COMPUTER-AIDED MANUFACTURING 3
Electrical Circuits Electives, choose from the following:4-7
EERT 12000
EERT 12001
ELECTRIC CIRCUITS I
and ELECTRIC CIRCUITS II
ENGR 21020
ENGR 21022
SURVEY OF ELECTRICITY AND ELECTRONICS
and SURVEY OF ELECTRICITY AND ELECTRONICS LABORATORY
Additional Requirements (courses do not count in major GPA)
MATH 11010ALGEBRA FOR CALCULUS (KMCR) 3
MATH 11022TRIGONOMETRY (KMCR) 3
PHY 13001GENERAL COLLEGE PHYSICS I (KBS) 4
PHY 13002GENERAL COLLEGE PHYSICS II (KBS) 4
PHY 13021GENERAL COLLEGE PHYSICS LABORATORY I (KBS) (KLAB) 1
PHY 13022GENERAL COLLEGE PHYSICS LABORATORY II (KBS) (KLAB) 1
PSYC 11762GENERAL PSYCHOLOGY (DIVD) (KSS) 3
PSYC 31773INDUSTRIAL PSYCHOLOGY 3
UC 10001FLASHES 101 1
6
9
Concentrations
Choose from the following:23-24
Minimum Total Credit Hours:120
1

Some course options may require coursework outside of this program.

2

A minimum C grade must be earned to fulfill the writing-intensive requirement.

Applied Engineering and Technology Management Concentration Requirements

Concentration Requirements (courses count in major GPA)
BA 24056BUSINESS ANALYTICS I 3
ENGR 27210INTRODUCTION TO SUSTAINABILITY 3
ENGR 43899APPLIED ENGINEERING CAPSTONE (ELR) 3
ENGR 47200SYSTEMS ENGINEERING 3
Additional Requirements (courses do not count in major GPA)
ECON 22060PRINCIPLES OF MICROECONOMICS (KSS) 3
General Electives (total credit hours depends on earning 120 credit hours, including 39 upper-division credit hours) 18
Minimum Total Credit Hours:23
1

Students wishing to complete internships and/or cooperative education opportunities are encouraged to do so during the summer. Those wishing to take off a semester for a co-op will likely delay graduation by a year.

Foundry Technology Concentration Requirements

Concentration Requirements (courses count in major GPA)
ENGR 33364METALLURGY AND MATERIALS SCIENCE 3
ENGR 41065SOLID MODELING AND SOLIDIFICATION SIMULATION 3
ENGR 45099CAPSTONE: FOUNDRY TOOLING AND PATTERN MAKING (ELR) 3
Additional Requirements (courses do not count in major GPA)
CHEM 10050FUNDAMENTALS OF CHEMISTRY (KBS) 3
COMM 15000INTRODUCTION TO HUMAN COMMUNICATION (KADL) 3
HRM 34180HUMAN RESOURCE MANAGEMENT 3
MGMT 24163PRINCIPLES OF MANAGEMENT 3
3
Minimum Total Credit Hours:24

Graduation Requirements

Minimum Major GPA Minimum Overall GPA
2.250 2.000
Roadmap

Roadmaps

Applied Engineering and Technology Management Concentration

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 OneCredits
ENGR 13586
ENGR 13587
or MERT 12001
COMPUTER AIDED DESIGN I
and COMPUTER AIDED DESIGN I LABORATORY
or COMPUTER-AIDED DESIGN
3
ENGR 20002 MATERIALS AND PROCESSES 3
!MATH 11010 ALGEBRA FOR CALCULUS (KMCR) 3
UC 10001 FLASHES 101 1
Kent Core Requirement 3
Kent Core Requirement 3
 Credit Hours16
Semester Two
ENGR 11001 INTRODUCTION TO ENGINEERING 2
ENGR 11002 INTRODUCTION TO ENGINEERING LABORATORY 1
ENGR 23585 COMPUTER AIDED DESIGN II 3
!MATH 11022 TRIGONOMETRY (KMCR) 3
PSYC 11762 GENERAL PSYCHOLOGY (DIVD) (KSS) 3
Kent Core Requirement 3
 Credit Hours15
Semester Three
BA 24056 BUSINESS ANALYTICS I 3
!ENG 20002 INTRODUCTION TO TECHNICAL WRITING 3
ENGR 31016 MANUFACTURING TECHNOLOGY 3
!PHY 13001 GENERAL COLLEGE PHYSICS I (KBS) 4
!PHY 13021 GENERAL COLLEGE PHYSICS LABORATORY I (KBS) (KLAB) 1
 Credit Hours14
Semester Four
!ECON 22060 PRINCIPLES OF MICROECONOMICS (KSS) 3
ENGR 20000 PROFESSIONAL DEVELOPMENT IN ENGINEERING 1
!ENGR 31065 CAST METALS 3
ENGR 33033 HYDRAULICS/PNEUMATICS 3
!PHY 13002 GENERAL COLLEGE PHYSICS II (KBS) 4
!PHY 13022 GENERAL COLLEGE PHYSICS LABORATORY II (KBS) (KLAB) 1
 Credit Hours15
Semester Five
ENGR 33111
or MERT 22005 and MERT 22007
STATICS AND STRENGTH OF MATERIALS
or STATICS and STRENGTH OF MATERIALS
3-6
ENGR 33700 QUALITY TECHNIQUES 3
!PSYC 31773 INDUSTRIAL PSYCHOLOGY 3
Electrical Circuits Electives 4-7
General Elective 3
 Credit Hours16
Semester Six
BA 44152
or EMAT 41510
or ENGR 36620
PROJECT MANAGEMENT
or PROJECT MANAGEMENT AND TEAM DYNAMICS (WIC)
or PROJECT MANAGEMENT IN ENGINEERING
3
!ENGR 33031 PROGRAMMABLE LOGIC CONTROLLERS 3
ENGR 33870 FACILITY DESIGN AND MATERIAL HANDLING 3
Kent Core Requirement 3
Kent Core Requirement 3
 Credit Hours15
Semester Seven
ENGR 27210 INTRODUCTION TO SUSTAINABILITY 3
ENGR 30001 APPLIED THERMODYNAMICS 3
ENGR 35550 LAW AND ETHICS FOR ENGINEERS 3
ENGR 43550 COMPUTER-AIDED MANUFACTURING 3
ENGR 47200 SYSTEMS ENGINEERING 3
 Credit Hours15
Semester Eight
ENGR 31000 CULTURAL DYNAMICS TECHNOLOGY (DIVD) (WIC) 3
ENGR 43080 INDUSTRIAL AND ENVIRONMENTAL SAFETY 3
ENGR 43899 APPLIED ENGINEERING CAPSTONE (ELR) 3
General Electives 5
 Credit Hours14
 Minimum Total Credit Hours:120

Foundry Technology Concentration

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 OneCredits
COMM 15000 INTRODUCTION TO HUMAN COMMUNICATION (KADL) 3
ENGR 13586
ENGR 13587
or MERT 12001
COMPUTER AIDED DESIGN I
and COMPUTER AIDED DESIGN I LABORATORY
or COMPUTER-AIDED DESIGN
3
ENGR 20002 MATERIALS AND PROCESSES 3
!MATH 11010 ALGEBRA FOR CALCULUS (KMCR) 3
UC 10001 FLASHES 101 1
Kent Core Requirement 3
 Credit Hours16
Semester Two
CHEM 10050 FUNDAMENTALS OF CHEMISTRY (KBS) 3
ENGR 11001 INTRODUCTION TO ENGINEERING 2
ENGR 11002 INTRODUCTION TO ENGINEERING LABORATORY 1
ENGR 23585 COMPUTER AIDED DESIGN II 3
!MATH 11022 TRIGONOMETRY (KMCR) 3
Kent Core Requirement 3
 Credit Hours15
Semester Three
!ENG 20002 INTRODUCTION TO TECHNICAL WRITING 3
ENGR 31016 MANUFACTURING TECHNOLOGY 3
!PHY 13001 GENERAL COLLEGE PHYSICS I (KBS) 4
!PHY 13021 GENERAL COLLEGE PHYSICS LABORATORY I (KBS) (KLAB) 1
PSYC 11762 GENERAL PSYCHOLOGY (DIVD) (KSS) 3
 Credit Hours14
Semester Four
ENGR 20000 PROFESSIONAL DEVELOPMENT IN ENGINEERING 1
ENGR 33033 HYDRAULICS/PNEUMATICS 3
MGMT 24163 PRINCIPLES OF MANAGEMENT 3
!PHY 13002 GENERAL COLLEGE PHYSICS II (KBS) 4
!PHY 13022 GENERAL COLLEGE PHYSICS LABORATORY II (KBS) (KLAB) 1
Kent Core Requirement 3
 Credit Hours15
Semester Five
ENGR 30001 APPLIED THERMODYNAMICS 3
ENGR 31000 CULTURAL DYNAMICS TECHNOLOGY (DIVD) (WIC) 3
!PSYC 31773 INDUSTRIAL PSYCHOLOGY 3
Electrical Circuits Electives 4-7
Kent Core Requirement 3
 Credit Hours16
Semester Six
BA 44152
or EMAT 41510
or ENGR 36620
PROJECT MANAGEMENT
or PROJECT MANAGEMENT AND TEAM DYNAMICS (WIC)
or PROJECT MANAGEMENT IN ENGINEERING
3
ENGR 31065 CAST METALS 3
!ENGR 33031 PROGRAMMABLE LOGIC CONTROLLERS 3
ENGR 33364 METALLURGY AND MATERIALS SCIENCE 3
Kent Core Requirement 3
 Credit Hours15
Semester Seven
ENGR 33111
or MERT 22005 and MERT 22007
STATICS AND STRENGTH OF MATERIALS
or STATICS and STRENGTH OF MATERIALS
3-6
ENGR 33700 QUALITY TECHNIQUES 3
ENGR 35550 LAW AND ETHICS FOR ENGINEERS 3
ENGR 41065 SOLID MODELING AND SOLIDIFICATION SIMULATION 3
ENGR 43550 COMPUTER-AIDED MANUFACTURING 3
 Credit Hours15
Semester Eight
ENGR 33870 FACILITY DESIGN AND MATERIAL HANDLING 3
ENGR 43080 INDUSTRIAL AND ENVIRONMENTAL SAFETY 3
ENGR 45099 CAPSTONE: FOUNDRY TOOLING AND PATTERN MAKING (ELR) 3
HRM 34180 HUMAN RESOURCE MANAGEMENT 3
Kent Core Requirement 3
 Credit Hours15
 Minimum Total Credit Hours:121
Program Delivery
  • Delivery:
    • In person
  • Location:
    • Kent Campus
Accreditation for Applied Engineering - B.S.

The B.S. degree in Applied Engineering - Applied Engineering and Technology Management concentration - is accredited by the Association of Technology, Management and Applied Engineering (ATMAE). The College of Aeronautics and Engineering is accredited as a “Certified School” by the Foundry Educational Foundation (fefinc.org).

Student Achievement Data

Applied Engineering; Enrolled

2018

2019

2020

2021

2022

2023

225* 128* 68* 40 31 41

Applied Engineering; Graduated

2018

2019

2020

2021

2022

2023

71* 54* 65* 31 12 1

*Old BS in Applied Engineering with subject concentrations

Examples of Possible Careers and Salaries for Applied Engineering - B.S.

Graduates of СƬƵ's Bachelor of Science in Applied Engineering are able to apply knowledge, techniques, skills and modern tools of mathematics, science, engineering and technology to solve broadly defined engineering problems appropriate to the discipline.

Architectural and engineering managers

2.6%

slower than the average

198,100

number of jobs

$149,530

potential earnings

Industrial engineering technologists and technicians

1.5%

slower than the average

68,500

number of jobs

$57,320

potential earnings

Industrial production managers

0.9%

little or no change

190,100

number of jobs

$108,790

potential earnings

Materials engineers

1.5%

slower than the average

27,500

number of jobs

$95,640

potential earnings

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.

Accreditation

ATMAE logo
Fefinc