Aerospace Engineering | Penn State (2024)

The title of the table
Graduate Program HeadAmy Pritchett
Program CodeAERSP
Campus(es)University Park (Ph.D., M.S., M.Eng.)
Degrees Conferred

Doctor of Philosophy (Ph.D.)

Master of Science (M.S.)

Master of Engineering (M.Eng.)

The Graduate Faculty

View

Opportunities for graduate study are available in the following areas:

  • low-speed aerodynamics
  • airplane and helicopter aerodynamics
  • V/STOL aircraft
  • turbulence
  • astrodynamics
  • turbomachinery
  • air breathing propulsion
  • aeroacoustics
  • gas dynamics
  • stability and control of aerospace vehicles
  • aerospace structures
  • structural dynamics
  • aeroelasticity
  • rotorcraft engineering
  • computational fluid dynamics
  • experimental fluid dynamics
  • space propulsion
  • space vehicle dynamics
  • high-performance computing

Admission Requirements

Applicants apply for admission to the program via the Graduate School application for admission. Requirements listed here are in addition to Graduate Council policies listed under GCAC-300 Admissions Policies.

The entering M.Eng. or M.S. student must hold a bachelor's degree in engineering, physical science, or mathematics, and may be required to complete (without degree credit) undergraduate course work in fluid and solid mechanics and intermediate mathematical analysis, if not already completed. The department will consider students with a 3.0 junior/senior grade-point average (GPA) on a 4.0 scale; students with special backgrounds, abilities, or interests may request a waiver to this GPA requirement. The best-qualified applicants will be accepted up to the number of spaces that are available.

Admission to the Ph.D. program requires satisfactory completion of a master's program in engineering, physical science, or mathematics. Admission to the Ph.D. program prior to completion of a master's degree may be considered upon the student passing the Ph.D. qualifying exam. A student must have completed at least 18 course credits beyond the baccalaureate degree in order to take the Ph.D. qualifying exam, and is not granted official status as a doctoral candidate until the comprehensive exam has been passed.

Degree Requirements

Master of Engineering (M.Eng.)

Requirements listed here are in addition to Graduate Council policies listed under GCAC-700 Professional Degree Policies.

Core Requirements

  1. Basic field theory. Complete three courses for 9 credits, one from a prescribed list in each of the following categories: fluid dynamics, solid mechanics, and dynamics & control.
  2. Applied mathematics. Complete one 3-credit, 500-level course from a prescribed list.
  3. Teaching assistants and teaching aides who have classroom or laboratory instructional responsibilities must satisfactorily complete ENGR888. Those with responsibilities limited to grading, holding office hours, and offering problem sessions must take ENGR888 or a grading seminar.

The M.Eng. degree is a non-thesis professional master’s degree. A total of 32 credits at the 400, 500, and 800 level is required, including courses in the core requirements. Students must take two credits of AERSP590 Colloquium. A minimum of 18 credits must be taken at the 500 level, in addition to the two credits in AERSP590. At least 18 credits in Aerospace Engineering courses are required in addition to AERSP590. Students may count a maximum of 9 credits of 400-level course work toward the degree. Each student must either take the capstone course EDSGN558 or complete a capstone project supervised by a member of the Graduate Faculty, completed while enrolled in AERSP596. The capstone project requires students to work individually or within a group on an aspect of aerospace engineering of their choosing. The project should demonstrate the ability of the student to integrate and apply concepts and techniques learned in the program courses.

Master of Science (M.S.)

Requirements listed here are in addition to Graduate Council policies listed under GCAC-600 Research Degree Policies.

Core Requirements

  1. Basic field theory. Complete three courses for 9 credits, one from a prescribed list in each of the following categories: fluid dynamics, solid mechanics, and dynamics & control.
  2. Applied mathematics. Complete one 3-credit, 500-level course from a prescribed list.
  3. Teaching assistants and teaching aides who have classroom or laboratory instructional responsibilities must satisfactorily complete ENGR888. Those with responsibilities limited to grading, holding office hours, and offering problem sessions must take ENGR888 or a grading seminar.

A total of 32 credits at the 400, 500, 600, and 800 level is required, including courses in the core requirements, with least 18 credits at the 500 and 600 level, combined. Fourteen credits must be in Aerospace Engineering courses, with at the least 8 credits at the 500 level. Students must take two credits of AERSP590. Students may count a maximum of 6 credits of 400-level course work toward the degree. Six credits of thesis research (AERSP600 or AERSP610) are also required. A completed M.S. thesis and its public presentation is required for graduation. The thesis must be accepted by the student’s advisers and/or committee members, the head of the graduate program, and the Graduate School.

Doctor of Philosophy (Ph.D.)

Requirements listed here are in addition to Graduate Council policies listed under GCAC-600 Research Degree Policies.

Core Requirements

  1. Basic field theory. Complete three courses for 9 credits, one from a prescribed list in each of the following categories: fluid dynamics, solid mechanics, and dynamics & control.
  2. Applied mathematics. Complete one 3-credit, 500-level course from a prescribed list.
  3. Teaching assistants and teaching aides who have classroom or laboratory instructional responsibilities must satisfactorily complete ENGR888. Those with responsibilities limited to grading, holding office hours, and offering problem sessions must take ENGR888 or a grading seminar.

There is no foreign language requirement for the Ph.D. degree; however, students must demonstrate proficiency in reading, writing, and speaking English through an examination administered by the department. This must be completed to satisfy the Graduate Council requirement before taking the comprehensive exam. The student's Ph.D. committee decides which, if any, courses are required in addition to those specified in the core requirements; this typically involves 24 course credits beyond the M.S. degree. Ph.D. students must also demonstrate evidence of experimental experience.

Over the course of a Ph.D. program, the department and Ph.D. committee administer three examinations: The qualifying examination is given as a preliminary aptitude test before the end of the second semester following admission to the program. A comprehensive examination, which covers the major and minor fields of study, is administered after the student has substantially completed the required course work. The final oral examination, which is related mainly to the dissertation, is given after the candidate has satisfied all other degree requirements. All Ph.D. students must maintain continuous registration until the dissertation is approved. A completed Ph.D. dissertation and its public defense (the Final Oral Examination) are required for graduation. The dissertation must be accepted by the Ph.D. committee, the head of the graduate program, and the Graduate School.

Minor

A graduate minor is available in any approved graduate major or dual-title program. The default requirements for a graduate minor are stated in Graduate Council policies listed under GCAC-600 Research Degree Policies and GCAC-700 Professional Degree Policies, depending on the type of degree the student is pursuing:

Student Aid

Graduate assistantships available to students in this program and other forms of student aid are described in the Tuition & Funding section of the J. Jeffrey and Ann Marie Fox Graduate School’s website. Students on graduate assistantships must adhere to the course load limits set by the Fox Graduate School.

Courses

Graduate courses carry numbers from 500 to 699 and 800 to 899. Advanced undergraduate courses numbered between 400 and 499 may be used to meet some graduate degree requirements when taken by graduate students. Courses below the 400 level may not. A graduate student may register for or audit these courses in order to make up deficiencies or to fill in gaps in previous education but not to meet requirements for an advanced degree.

Aerospace Engineering (AERSP) Course List

Learning Outcomes

Master of Engineering (M.Eng.)

  1. Graduates will be able to demonstrate an understanding of advanced core principles and methods from selected sub-fields of Aerospace Engineering at a depth appropriate with their course of study.
  2. Graduates will be able to analyze and synthesize knowledge within the field of Aerospace Engineering to address a complex problem of practical relevance.
  3. Graduates will be able to apply their knowledge of selected sub-fields of Aerospace Engineering to formulate and solve engineering problems.
  4. Graduates will be able to demonstrate high level of proficiency in oral and written communication.
  5. Graduates will be able to demonstrate an understanding of, and a commitment to, the standards for scholarship and research integrity.

Master of Science (M.S.)

  1. Graduates will be able to demonstrate an understanding of advanced core principles and methods from selected sub-fields of Aerospace Engineering at a depth appropriate with their course of study.
  2. Graduates will be able to analyze and synthesize knowledge within the field of Aerospace Engineering to extend existing knowledge through a research experience.
  3. Graduates will be able to apply their knowledge of selected sub-fields of Aerospace Engineering to formulate and solve engineering problems.
  4. Graduates will be able to demonstrate high level of proficiency in oral and written communication.
  5. Graduates will be able to demonstrate an understanding of, and a commitment to, the standards for scholarship and research integrity.

Doctor of Philosophy (Ph.D.)

  1. Graduates will be able to demonstrate an understanding of advanced core principles and methods as well as modern research findings from different sub-fields of Aerospace Engineering at a depth appropriate for a Ph.D. candidate.
  2. Graduates will be able to demonstrate the ability to analyze and synthesize appropriate literature, to critically review their work in context of the literature, and to formulate and defend conclusions based on their research that represent new scholarly findings.
  3. Graduates will be able to apply their knowledge of selected sub-fields of Aerospace Engineering in formulating and executing a research plan.
  4. Graduates will be able to demonstrate high level of proficiency in oral and written communication.
  5. Graduates will be able to demonstrate an understanding of, and a commitment to, the standards for scholarship and research integrity.

Contact

University Park Program and Contact Information
CampusUniversity Park
Graduate Program HeadAmy Ruth Pritchett
Director of Graduate Studies (DGS) or Professor-in-Charge (PIC)Jacob Willem Langelaan
Program Contact

Harry Bozas
229 Hammond Building
University Park PA 16802
hqb5322@psu.edu
(814) 865-6431

Program WebsiteView
Aerospace Engineering | Penn State (2024)

FAQs

How hard is it to get into Penn State aerospace engineering? ›

General Requirements

Applicants must have a cumulative GPA of 2.60 or higher and completion of a direct transfer equivalency to PSU course Math 140 (4 credits of college calculus with analytic geometry) with a grade of “C” or better.

What is the hardest class in aerospace engineering? ›

What Is The Hardest Subject In Aerospace Engineering?
  • Fluid Dynamics.
  • Thermodynamics.
  • Control Systems.
  • Structural Analysis and Design.
  • Astrodynamics/Orbital Mechanics.
  • Aerodynamics.

What is Penn State ranked in aerospace engineering? ›

Our undergraduate program was ranked 12th and our graduate programs were ranked 15th nationally by U.S. News & World Report, in 2020 and 2022, respectively. One in 25 holders of a B.S. degree in aerospace engineering in the U.S. earned it at Penn State.

What is the minimum GPA for PSU aerospace? ›

earned a minimum cumulative grade-point average (GPA) of 2.90.

What is a good GPA for aerospace engineering? ›

Undergraduate students in the aerospace concentration must maintain an overall average GPA of 3.0 with no more than two grades lower than a B in any of the concentration courses.

What state hires the most aerospace engineers? ›

Geographic profile for Aerospace Engineers:
StateEmployment (1)Location quotient (9)
California11,1301.41
Texas6,2501.05
Washington5,4303.54
Alabama4,9505.49
1 more row

Is aerospace engineering math heavy? ›

Different schools have different requirements for their degree programs, but generally speaking, all aerospace engineering programs require a lot of advanced math courses.

Is aerospace engineering actually hard? ›

Aerospace engineering can involve high-pressure situations, tight deadlines and complex projects. However, professionals often find fulfillment in overcoming challenges and seeing their work contribute to significant advancements in the field.

Which is harder computer engineering or aerospace engineering? ›

It very much depends on the individual's aptitude. Computer science tends to be a more focused discipline centered around software engineering and discrete mathematics. The engineering disciplines are broader, taking in a much wider range of mathematics, in addition to physics, chemistry, and other areas of science.

Is Penn State prestigious for engineering? ›

Pennsylvania State University--University Park is ranked No. 31 (tie) out of 199 in Best Engineering Schools. Schools were assessed on their performance across a set of widely accepted indicators of excellence.

What College do most aerospace engineers go to? ›

Here are the Best Aerospace Engineering Programs
  • Georgia Institute of Technology.
  • Purdue University--Main Campus.
  • Stanford University.
  • University of Michigan--Ann Arbor.
  • University of Illinois Urbana-Champaign (Grainger)
  • University of Colorado--Boulder.
  • University of Texas--Austin (Cockrell)

Is architecture harder than aerospace engineering? ›

Ultimately, determining which is "easier" depends on individual strengths, interests, and the specific aspects of each field that resonate with an individual. Some might find the artistic challenges of architecture more daunting, while others may find the precision and technical demands of engineering more challenging.

Can I get into Penn State with a 2.8 GPA? ›

Penn State does not have any minimum GPA or test score requirements. Please refer to our admitted student admission statistics.

Can I get into Penn State with a 3.8 GPA? ›

Penn State does not have a minimum GPA or standardized test score used for admission. There are no such things as “cut-offs.”

What is the Penn State acceptance rate? ›

Penn State admissions is selective with an acceptance rate of 55%. Students that get into Penn State have an average SAT score between 1210-1390 or an average ACT score of 26-31. The regular admissions application deadline for Penn State is rolling.

Is Penn State engineering hard to get into? ›

However, the overall acceptance rate for Penn State is around 49% and the College of Engineering is generally considered more competitive compared to some other majors at the university.

How hard is it to get an aerospace engineering degree? ›

Both aerospace and mechanical engineering require strong analytical skills and a solid understanding of physics and mathematics. However, aerospace engineering may involve additional complexities related to aerodynamics, propulsion and space exploration.

What is the acceptance rate for aerospace engineering? ›

What is the acceptance rate for this major? The rate varies year to year, but on average for Aerospace, we end up with about 25% admitted who apply; for Computational, the acceptance rate is about 10%.

What GPA do you need for Penn State engineering? ›

A minimum of a 2.0 cumulative GPA is required for consideration. No transfer admission at University Park. Applicants who will have up to 2 semesters of work attempted may apply for admission to the College of Engineering pre-major status (ENGR) at a campus other than University Park.

Top Articles
Latest Posts
Recommended Articles
Article information

Author: Dean Jakubowski Ret

Last Updated:

Views: 5405

Rating: 5 / 5 (50 voted)

Reviews: 89% of readers found this page helpful

Author information

Name: Dean Jakubowski Ret

Birthday: 1996-05-10

Address: Apt. 425 4346 Santiago Islands, Shariside, AK 38830-1874

Phone: +96313309894162

Job: Legacy Sales Designer

Hobby: Baseball, Wood carving, Candle making, Jigsaw puzzles, Lacemaking, Parkour, Drawing

Introduction: My name is Dean Jakubowski Ret, I am a enthusiastic, friendly, homely, handsome, zealous, brainy, elegant person who loves writing and wants to share my knowledge and understanding with you.