In this guide, we review all you need to know about Central Michigan University Aerospace Engineering, central michigan university engineering ranking, university of michigan aerospace engineering requirements, central michigan university computer engineering and central michigan university environmental engineering.

Central Michigan University has been offering aerospace engineering as an undergraduate degree since the 1970s. Since then, the program has grown to include a graduate degree and a minor option. Read on to know more about Central Michigan University Aerospace Engineering, central michigan university engineering ranking, university of michigan aerospace engineering requirements, central michigan university computer engineering and central michigan university environmental engineering.

The university offers an undergraduate degree in aerospace engineering, which can be completed in four years. Students must complete at least 130 credit hours and have at least a 2.00 GPA to graduate with the major.

The program emphasizes the use of computers to solve problems related to aircraft and spacecraft design, development, and operation. Students also learn about aerodynamics, propulsion systems, flight mechanics and controls, structures and materials, fluid mechanics, thermodynamics and heat transfer theory.

The Aerospace Engineering program is accredited by the Engineering Accreditation Commission of ABET (Accreditation Board for Engineering & Technology).

Graduate students can choose from three different tracks: aeronautical engineering; astronautical engineering; or space systems engineering. Each track includes a selection of core courses in addition to electives tailored to each individual student’s interests and goals.

Central Michigan University Aerospace Engineering

We begin with Central Michigan University Aerospace Engineering, then central michigan university engineering ranking, university of michigan aerospace engineering requirements, central michigan university computer engineering and central michigan university environmental engineering.

The BSE in aerospace engineering degree has course requirements in several subjects listed below. Rules for choosing “intellectual breadth electives,” “technical electives,” and “general elective” courses are available here (link to requirements document). Most undergraduate AEROSP courses are offered every semester providing flexibility for students to plan their schedule according to their interests and needs, particularly in the junior and senior years. 

Mathematics, Chemistry, Physics, and Engineering (39 Credits)

• MATH 115, 116, 215, and 216
• ENGR 100, Intro to Engr
• ENGR 101, Intro to Computers or
• ENGR 151, Accel Intro to Computers
• CHEM 125/126 and 130, or 210 and 211
• Physics 140 with Lab 141
• Physics 240 with Lab 241

Intellectual Breadth Electives (16 Credits)

Intellectual breadth (16 credits). See the College of Engineering Bulletin for rules in selecting intellectual breadth courses that satisfy this requirement. A 3-credit humanities course and a 3-credit, 300-level or higher humanities or liberal arts course (LAC) are required. The 100-level foreign language credit received by placement exam does not count as intellectual breath.

Related Technical Core (12 Credits)

• ME 240 (4) Introduction to Dynamics and Vibrations
• Engineering Distribution. Select two courses from: MSE 220, MSE 350, EECS 215, EECS 216, EECS 280, EECS 281

Aerospace Science (26 Credits)

• AEROSP 201, Intro to Aerospace Engineering
• AEROSP 215, Intro to Solid Mechanics and Aerospace Structures
• AEROSP 225, Intro to Gas Dynamics
• AEROSP 315, Aircraft and Spacecraft Structures
• AEROSP 325, Aerodynamics
• AEROSP 335, Aircraft and Spacecraft Propulsion
• AEROSP 341, Aircraft Dynamics or AEROSP 343 Spacecraft Dynamics
• AEROSP 350, Introduction to Aerospace Computing
• AEROSP 470, Control of Aerospace Vehicles

Aerospace Engineering (17 Credits)

• AEROSP 200, Introduction to the Aerospace Enterprise
• AEROSP 205, Intro to Aerospace Engr Systems
• AEROSP 305, Aerospace Engr Lab I
• AEROSP 405, Aerospace Engr Lab II
• AEROSP 481, Aircraft Design or Aero 483, Space System Design

Technical Electives (9 Credits)

A total of nine credits of technical elective courses is required. The courses must be upper division (300-level or above) courses from engineering, mathematics, physical science, or other courses approved by an academic adviser, that are chosen to satisfy the following constraints:

• A maximum of 2 credits of seminar, such as AE 585, is allowed for technical elective credit.
• A maximum of 3 credits of directed study is allowed for technical elective credit.
• A maximum of 3 credits of AE 390 or AE 490, based on satisfactory completion of flight certification, can be used to satisfy the technical elective requirement.

One course of three or more credits must be advanced mathematics or advanced science; this could include a course in astronomy, biology, chemistry, computer science, mathematics, or physics.

Recommended courses include; Aero 423, Math 351, Math 371, Math 404, Math 412, Math 416, Math 419, Math 425, Math 450, Math 454, Math 471, Stat 412, Physics 340, Physics 341, Physics 390, Physics 402, Physics 405, Physics 413, Physics 451.

Other courses can be selected if approved by an academic adviser

Pilot Training Technical Electives

Policy on directed study credit for formal aircraft pilot training activities

Aerospace Engineering students can earn directed study credit based on successful completion of pilot training activities according to the following procedures:

AERO 290:

One AERO 290 credit can be earned with a passing score on the FAA Private Pilot Exam, Aircraft Single-Engine Land (ASEL). This exam is typically taken as part of a ground school course that covers basic knowledge required for a private pilot license.

Students requesting this credit must bring their FAA exam paperwork to the cognizant Aerospace Engineering faculty member for approval. A passing exam score will translate to a grade of “pass” for AERO 290.

AERO 390:

Three AERO 390 credits can be earned by students who obtain FAA-issued license for private pilot, Aircraft Single-Engine Land (ASEL) or helicopters.

More advanced FAA-issued ratings such as instrument, instructor, instrument instructor and multi-engine are acceptable but cannot be used to obtain additional credit.

To earn AERO 390 credit, students must bring their pilot’s log book(s), a current medical certificate (Class III or above), and their pilot’s license to the cognizant Aerospace engineering faculty member for approval. Credit for a pilot’s license is offered to enhance the traditional aerospace curriculum with practical study.

Therefore, the AERO 390 “licensed pilot” credit can only be obtained by students who have declared an aerospace Engineering major. Students eligible for this credit must either obtain their license while a University of Michigan student or maintain currency by completing a documented annual or biennial proficiency check after enrollment as a University of Michigan student.

The cognizant faculty member for pilot training activities is currently Professor Carlos Cesnik. Inquiries should be directed to him.

central michigan university engineering ranking

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Central Michigan University is a great place to study aerospace engineering. The bachelor’s program at Central Michigan was ranked #261 on College Factual’s Best Schools for engineering list. It is also ranked #15 in Michigan.

The best part about the program is that it offers an excellent education at an affordable price. The tuition and fees for full-time students are only $17,907 per year, which is less than half of what you would pay at many other schools.

The school offers several scholarships and grants to help out with the cost of tuition, so be sure to apply! You can find more information on the website under “Financial Aid.”

The faculty members at CMU are top notch professionals who know exactly how to teach students how to succeed in this competitive field. They will provide you with all of the tools you need to become a successful engineer!

university of michigan aerospace engineering requirements

More details coming up on university of michigan aerospace engineering requirements, central michigan university computer engineering and central michigan university environmental engineering.

Mathematics, Chemistry, Physics, and Engineering (39 Credits)

• MATH 115, 116, 215, and 216
• ENGR 100, Intro to Engr
• ENGR 101, Intro to Computers or
• ENGR 151, Accel Intro to Computers
• CHEM 125/126 and 130, or 210 and 211
• Physics 140 with Lab 141
• Physics 240 with Lab 241

Intellectual Breadth Electives (16 Credits)

Intellectual breadth (16 credits). See the College of Engineering Bulletin for rules in selecting intellectual breadth courses that satisfy this requirement. A 3-credit humanities course and a 3-credit, 300-level or higher humanities or liberal arts course (LAC) are required. The 100-level foreign language credit received by placement exam does not count as intellectual breath.

Related Technical Core (12 Credits)

• ME 240 (4) Introduction to Dynamics and Vibrations
• Engineering Distribution. Select two courses from: MSE 220, MSE 350, EECS 215, EECS 216, EECS 280, EECS 281

Aerospace Science (26 Credits)

• AEROSP 201, Intro to Aerospace Engineering
• AEROSP 215, Intro to Solid Mechanics and Aerospace Structures
• AEROSP 225, Intro to Gas Dynamics
• AEROSP 315, Aircraft and Spacecraft Structures
• AEROSP 325, Aerodynamics
• AEROSP 335, Aircraft and Spacecraft Propulsion
• AEROSP 341, Aircraft Dynamics or AEROSP 343 Spacecraft Dynamics
• AEROSP 350, Introduction to Aerospace Computing
• AEROSP 470, Control of Aerospace Vehicles

Aerospace Engineering (17 Credits)

• AEROSP 200, Introduction to the Aerospace Enterprise
• AEROSP 205, Intro to Aerospace Engr Systems
• AEROSP 305, Aerospace Engr Lab I
• AEROSP 405, Aerospace Engr Lab II
• AEROSP 481, Aircraft Design or Aero 483, Space System Design

Technical Electives (9 Credits)

A total of nine credits of technical elective courses is required. The courses must be upper division (300-level or above) courses from engineering, mathematics, physical science, or other courses approved by an academic adviser, that are chosen to satisfy the following constraints:

• A maximum of 2 credits of seminar, such as AE 585, is allowed for technical elective credit.
• A maximum of 3 credits of directed study is allowed for technical elective credit.
• A maximum of 3 credits of AE 390 or AE 490, based on satisfactory completion of flight certification, can be used to satisfy the technical elective requirement.

One course of three or more credits must be advanced mathematics or advanced science; this could include a course in astronomy, biology, chemistry, computer science, mathematics, or physics.

Recommended courses include; Aero 423, Math 351, Math 371, Math 404, Math 412, Math 416, Math 419, Math 425, Math 450, Math 454, Math 471, Stat 412, Physics 340, Physics 341, Physics 390, Physics 402, Physics 405, Physics 413, Physics 451.

Other courses can be selected if approved by an academic adviser

Pilot Training Technical Electives

Policy on directed study credit for formal aircraft pilot training activities

Aerospace Engineering students can earn directed study credit based on successful completion of pilot training activities according to the following procedures:

AERO 290:

One AERO 290 credit can be earned with a passing score on the FAA Private Pilot Exam, Aircraft Single-Engine Land (ASEL). This exam is typically taken as part of a ground school course that covers basic knowledge required for a private pilot license.

Students requesting this credit must bring their FAA exam paperwork to the cognizant Aerospace Engineering faculty member for approval. A passing exam score will translate to a grade of “pass” for AERO 290.

AERO 390:

Three AERO 390 credits can be earned by students who obtain FAA-issued license for private pilot, Aircraft Single-Engine Land (ASEL) or helicopters.

More advanced FAA-issued ratings such as instrument, instructor, instrument instructor and multi-engine are acceptable but cannot be used to obtain additional credit.

To earn AERO 390 credit, students must bring their pilot’s log book(s), a current medical certificate (Class III or above), and their pilot’s license to the cognizant Aerospace engineering faculty member for approval. Credit for a pilot’s license is offered to enhance the traditional aerospace curriculum with practical study.

Therefore, the AERO 390 “licensed pilot” credit can only be obtained by students who have declared an aerospace Engineering major. Students eligible for this credit must either obtain their license while a University of Michigan student or maintain currency by completing a documented annual or biennial proficiency check after enrollment as a University of Michigan student.

The cognizant faculty member for pilot training activities is currently Professor Carlos Cesnik. Inquiries should be directed to him.

General Electives (9 Credits)

See College of Engineering Bulletin for rules selecting general elective courses.

central michigan university computer engineering

Engineering Accreditation Commission of ABET.

The requirements for the Bachelor of Science in Computer Engineering include 30-42 hours of general education requirements, 37-41 hours of Mathematics and Science, for a minimum total of 130-136 hours for the degree.

Program Educational Objectives: Graduates of the computer engineering program shall exhibit excellence in their profession in a diverse range of industries, government agencies, and academic institutions as evidenced by:

• career satisfaction;
• ability to function independently and as members of cross functioning teams
• gaining sequential promotions to leadership positions;
• professional visibility (e.g., patents, awards, invention disclosures, publications, presentations)
• engagement in entrepreneurial activities
• matriculation in, and graduation from, high quality graduate programs at the masters or doctoral level
• exhibiting the highest levels of professional ethics

Student Outcomes: Upon graduation, B.S. Cmp E. students are expected to have an ability 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. 

Computer Engineering Student Enrollment/Graduation Data

​	​2013	​2014	​2015	​2016	​2017	​2018	​2019
​Computer Engineering	​	​	​	​	​	​	​
​Degrees Awarded	0	0	2	2	4	1	4
​Student Enrollment	​15	21	25	24	31	35	32

central michigan university environmental engineering

Why This Program & What You’ll Learn

Engineers solve problems and some of today’s biggest are environmental. Lead the charge to improve the human condition and the state of our planet with an environmental engineering degree.

Our program offers you a unique opportunity to apply what you’ve learned in your science and engineering courses to the important work of improving and maintaining the environment. It’s a fine balancing act that requires a unique set of skills that our program will teach you.

Our program provides both breadth and depth across the range of engineering topics in analysis, design and sustainability of waste management techniques. Engineering, soil sciences, biochemistry, and biology are all part of the blend of knowledge you need to do this important work.

Program Highlights

As a student in our environmental engineering program, you’ll:

• Gain the knowledge, skills and laboratory experiences needed to compete successfully in the high-tech sector of the job market.
• Succeed in design and production occupations in the environmental sector while contributing to society.
• Be involved in studies with both breadth and depth across the range of engineering topics.

At CMU our students are working to improve:

• Recycling.
• Waste Disposal.
• Public Health.
• Water and Air Pollution Control.

Main Campus Undergraduate Tuition

​​About 20,000 students a year pursue their future at CMU — including preserving the Earth’s resources, starting businesses, teaching our nation’s youth, and treating and preventing disease.

Central Michigan University has earned distinction as a Carnegie doctoral/research university, known for the research opportunities it gives even to undergraduate students. We offer approximately 200 undergraduate programs led by expert faculty.

Lower level (less than 56 credit hours)

	PER CREDIT HOUR	PER SEMESTER*	PER YEAR*
U.S. resident tuition	$425	$5,100	$10,200
International tuition	$789	$9,468	$18,936

	PER CREDIT HOUR	PER SEMESTER*	PER YEAR*
U.S. resident tuition	$425	$5,100	$10,200
International tuition	$789	$9,468	$18,936

*Based on a 12-credit-hour per semester load
The international rate applies to students who are not eligible for the U.S. resident tuition rates, as outlined by the CMU Resident Status Policy.
Note: The president may vary these tuition rates according to cohorts, markets, programs, locations, or terms of contracts.

Upper level (56 credit hours or more)

	PER CREDIT HOUR	PER SEMESTER*	PER YEAR*
U.S. resident tuition	$450	$5,400	$10,800
International tuition	$815	$9,780	$19,560

	PER CREDIT HOUR	PER SEMESTER*	PER YEAR*
U.S. resident tuition	$450	$5,400	$10,800
International tuition	$815	$9,780	$19,560

*Based on a 12-credit-hour per semester load
The international rate applies to students who are not eligible for the U.S. resident tuition rates, as outlined by the CMU Resident Status Policy.
Note: The president may vary these tuition rates according to cohorts, markets, programs, locations, or terms of contracts.

Continuing students**

	PER CREDIT HOUR	PER SEMESTER*	PER YEAR*
U.S. resident tuition	$445	$6,675	$13,350
International tuition	$789	$11,835	$23,670

	PER CREDIT HOUR	PER SEMESTER*	PER YEAR*
U.S. resident tuition	$445	$6,675	$13,350
International tuition	$789	$11,835	$23,670

*Based on a 15-credit-hour per semester load
**These rates apply to students who matriculated before August 3, 2019.
The international rate applies to students who are not eligible for the U.S. resident tuition rates, as outlined by the CMU Resident Status Policy.
Note: The president may vary these tuition rates according to cohorts, markets, programs, locations, or terms of contracts.

Main Campus Graduate Tuition

With a graduate degree, you’ll open doors for yourself. Along the way, you can apply for fellowships, pursue assistantships, and talk with a graduate counselor or adviser about work study opportunities. Many corporations and organizations also help pay for their employees to pursue advanced degrees.

	MASTER’S/SPECIALIST (PER CREDIT HOUR)	DOCTORAL (PER CREDIT HOUR)
U.S. resident tuition*	$682	​$778
International tuition	​$850	​$940
MSIS / MBA tuition	$725

	MASTER’S/SPECIALIST (PER CREDIT HOUR)	DOCTORAL (PER CREDIT HOUR)
U.S. resident tuition*	$682	​$778
International tuition	​$850	​$940
MSIS / MBA tuition	$725

* This applies to all graduate students who are U.S. residents. This does not apply to specialty programs with unique tuition rates.
The international rate applies to students who are not eligible for the U.S. resident tuition rates, as outlined by the CMU Resident Status Policy.
Note: The president may vary these tuition rates according to cohorts, markets, programs, locations, or terms of contracts.

Central Michigan University’s Bachelor of Science in Aerospace Engineering is ranked #261 on College Factual’s Best Schools for engineering list. It is also ranked #15 in Michigan.

Aerospace engineering is an industry that provides solutions to problems associated with flight and space travel. Aerospace engineers use principles from physics, chemistry, mathematics, and other fields to design aircraft and spacecraft. The field also includes communications satellites, missiles, rockets, satellites, and space stations.