Certificate in Naval Hydrodynamics

Program Overview

Undergraduate students at the University of Iowa can earn a Certificate in Naval Hydrodynamics by completing 18 semester hours of courses selected from a pool of courses focusing on fluid dynamics, experimental and numerical methods, and naval hydrodynamics.  The learning objectives of the certificate are centered around a) providing students with a strong foundation in leadership, problem solving, and naval hydrodynamics, and b) developing knowledge of Navy science and technology challenges, and informing students of possible career paths in the Navy.

While this program would be helpful to students wishing to become commissioned officers in the U.S. Navy, the primary intent of the program is to provide students with a solid technical and leadership background that will help graduates to thrive in civilian careers in Navy science and technology positions, and in supporting industry.  Because of the strong emphasis on fluid dynamics fundamentals, the program also provides effective preparation for work in a broad range of industries and applications not necessarily related to naval hydrodynamics.

Students interested in earning the Certificate in Naval Hydrodynamics are advised to contact Prof. Buchholz or Prof. Carrica to discuss possible plans of study.

Learning Objectives

The Certificate program in Naval Hydrodynamics is built around five learning objectives.  The first three learning objectives are centered around providing students with a strong foundation in the fundamentals of fluid dynamics and associated methods for numerical modeling and experimental measurements.  Specifically, students will achieve the following:

  1. Demonstrate a foundation in the fundamentals of fluid mechanics and relevant analytical, numerical and experimental approaches.
  2. Be able to apply advanced numerical methods and measurement techniques to solve-fluid flow problems related to naval hydrodynamics.
  3. Be able to develop creative and effective solutions to unfamiliar engineering problems, and to ask relevant questions that will allow them to continue to learn and exhibit leadership in advancing science and technology.

The final two learning objectives focus on understanding the challenges faced by the Navy and on helping students to identify related career paths:

  1. Recognize and address current challenges faced by the navy on hydrodynamics.
  2. Be able to make decisions about career paths in the Navy, its contractors and supporting industry.

Certificate Requirements

To earn the Certificate in Naval Hydrodynamics, students must complete 18 S.H. of selected courses from the following categories:

Required Courses

All of the following courses must be completed:

Course Prerequisite Semester
ME:5160 Intermediate Mechanics of Fluids ENGR:2510 Fall
ME:4175 Computational Naval Hydrodynamics ENGR:2510 Spring (even years)
ME:4176 Experimental Naval Hydrodynamics ENGR:2510 Spring (odd years)

Limited Elective Courses

Students must also complete one of two foundational courses in numerical methods:

Course Prerequisite Semester
MATH:3800 Elementary Numerical Analysis MATH:1560 or MATH:1860
and MATH:2700 or MATH:2550
Fall, Spring, Summer
ME:4111 Numerical Calculations MATH:2560 Fall

A capstone project must also be completed. This must either be a naval hydrodynamics design project, or an independent investigation involving research or testing of a system related to naval hydrodynamics. For mechanical engineering students, the qualifying courses include those given in the table below. Note that both courses may be completed for credit toward the Naval Hydrodynamics Certificate.

Course Prerequisite Semester
ME:4186 Enhanced Design Experience* ME:4086 Spring
ME:4098 Independent Investigation N/A Fall, Spring, Summer

*Students must register in the naval hydrodynamics section of ME:4186.

Elective Courses

The remainder of the 18 semester hours may be earned by taking any of the following electives:

Course Prerequisite Semester
ME:4125 Biomimetic Fluid Dynamics ENGR:2510 Spring (odd years)
ME:5143 Computational Fluid and Thermal Engineering ME:3045 Fall
ME:3179 Continuum Mechanics ENGR:2510 or ENGR:2750 Spring
ME:5154 Intermediate Kinematics and Dynamics ENGR:2710 Fall
ECE:2400 Linear Systems I ENGR:2120 and MATH:2560 Spring
ECE:3600 Control Systems ECE:2400 Spring
ECE:5600 Control Theory ECE:3600 Fall