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A career in geological engineering offers opportunities to work outdoors, help communities grow and respond to climate change, and guide the sustainable use of natural resources.

Using geology and engineering to solve challenges in natural and built environments, you'll work with Earth’s most fundamental resources: soils and rocks. These materials are essential for nearly every aspect of infrastructure and sustainability. You’ll use them to:

  • Support structures by designing foundations for structures, energy systems, and other critical infrastructure
  • Build into them when excavating tunnels, canals, and mine passages
  • Source construction materials by mining sand, gravel, and other materials used in roads, embankments, levees, and dams
  • Access natural resources like groundwater for drinking and industrial uses, and mine valuable minerals and economic resources
  • Harvest energy by exploring and developing sites for geothermal, wind, solar, oil, and gas energy
  • Protect the environment when designing systems to contain pollutants, such as those found in landfills or resulting from chemical spills
  • Engineer solutions to manage the risks and impacts of landslides, earthquakes, floods, and other natural hazards

Geological engineers are in demand as society adapts to climate change and resource depletion. Professionals in this field help us sustainably overcome the grand challenges we face in meeting our energy, infrastructure, and resource needs.

At the University of Wisconsin–Madison, geological engineering students excel with hands-on opportunities in well-equipped labs, computer facilities, and field research sites. We study minerals, rocks, soil, and the history of the Earth to understand the natural world and how we can live and work in concert with it.

You will learn from faculty and staff from the College of Engineering and the College of Letters and Science, as well as practicing engineers. You’ll use the tools and technology that geological engineers use every day, and you’ll apply your knowledge to create multidisciplinary solutions for real-world challenges in our capstone design course.

As a student in our program, you can increase your career potential by earning a dual major in geological engineering and geology and geophysics in a single 126-credit program, with no extra coursework. There are also a variety of certificate programs that you can pair with your degree, including two options for sustainable energy, to set yourself up for success.

We encourage students to take the Fundamentals of Engineering (FE) exam before or shortly after graduating, which is the first step in professional engineering licensure. Geological engineering students surpasses the national average, ensuring our graduates are well-prepared for their careers.

Geological engineering alumni from our program find rewarding careers with planning and design consulting firms; the natural resource sector; construction companies; energy developers and providers; and city/county, state, and federal agencies. Typical entry-level position titles include geological engineer, geotechnical engineer, geologist, design engineer, and project engineer.

How to Get in

Admission to the College as a First-Year Student

Students applying to UW–Madison need to indicate an engineering major as their first choice in order to be considered for direct admission to the College of Engineering. Direct admission means that students get to start their college career in the engineering program of their choice and have access to engineering-specific resources and facilities. Students who are directly admitted need to meet progression requirements at the end of the first year to guarantee advancement in that program.

Current UW-Madison Students (Cross-Campus Transfer to Engineering)

 
Requirements Details
How to get in Application required. Meeting the requirements listed below does not guarantee admission. (https://engineering.wisc.edu/admissions/undergraduate/cross-campus-students/)
Application restrictions
  • Students may apply a maximum of two times.
  • Students who have earned more than 72 course credits at UW-Madison (as indicated on the UW-Madison transcript) at the time of application are not eligible to apply for admission to the College of Engineering. Course credits in progress at the time of application are not included in the COE Credit Limit.
  • Students may apply to only one engineering degree program per admissions cycle.
  • Students who meet course/credit requirements and have a Core GPA below 2.500 would not be considered for admission in their selected engineering degree program (major) without an appeal process. All graded UW-Madison courses referenced in the Foundational Courses List and any degree program engineering courses level 200 or higher will be counted in the Core GPA (excludes E P D, INTEREGR, special topics, independent study, and seminar courses). All graded UW-Madison courses count in the Overall GPA. For one and only one of these core courses that a student has repeated, the more recent of the two grades will be used in the calculation of Core and Overall GPAs for admission purposes. Students may not be considered for admission if on academic probation for GPA reasons at time of review.
Credits required to get in 24 graded credits completed at UW-Madison, including at least one full-time (12 credit) semester. English as a Second Language course credits count toward the 24 credit minimum.
Courses required to get in Engr Comm 1 (Comm A) requirement taken on a graded basis at UW-Madison. If the Comm A requirement has been satisfied through placement test, AP/IB, or transfer credit, then a liberal studies course of at least 3 credits (breadth designation of Humanities, Literature, or Social Sciences) must be taken on a graded basis at UW-Madison.

Math course sequence through MATH 222.

Four foundational courses completed on a graded basis at UW-Madison, as defined in the Foundational Courses List below.

Foundational courses list

Four Foundational Courses must be completed at UW-Madison as defined in 1. and 2.
1. Math Foundation

A minimum of two math courses numbered 221 or higher; one math course 300 level or higher; or calculus sequence completed through MATH 234. Excludes MATH 228, MATH/​HIST SCI  473, special topics, independent study, seminar, pass/fail, and credit/no credit courses.

2. Engineering Foundation

A minimum of two courses as defined below:

Chemical Engineering:

(i) one course must be CHEM 104 or higher
(ii) one course must be PHYSICS 201/E M A 201 or higher

If the above two course requirements are completed with transfer or test credit, select from additional engineering foundation courses in (ii) below.

Aerospace Engineering, Biomedical Engineering, Civil Engineering, Computer Engineering, Electrical Engineering, Engineering Mechanics, Engineering Physics, Environmental Engineering, Geological Engineering, Industrial Engineering, Materials Science and Engineering, Mechanical Engineering, Nuclear Engineering:

(i) one course must be CHEM 104 or higher OR PHYSICS 201/E M A 201 or higher
(ii) one other engineering foundation course from the following subject codes:

3. Additional foundational course options, if applicable

If the math and engineering foundational courses for the degree program are complete, then degree program engineering courses 200 level or higher can be taken to complete the Four Foundational Courses requirement. Excludes EPD, InterEGR, special topics, independent study, seminar, pass/fail, and credit/no credit courses.

Additional considerations

Cross-campus admission is selective. The admissions committee considers applicants’ grades/grade trends, academic rigor, and personal statement. The College of Engineering offers an online information tutorial and advising for students to learn about the cross-campus transfer process. 

Semester Deadline to apply Decision notification timeline
To apply for a fall start Mid May Late June
To apply for a spring start Late December/Early January Late January
To apply for a summer start This program does not accept applications to start in the summer.

Off-Campus Transfer to Engineering

With careful planning, students at other accredited institutions can transfer coursework that will apply toward engineering degree requirements at UW–Madison. Off-campus transfer applicants are considered for direct admission to the College of Engineering by applying to the Office of Admissions with an engineering major listed as their first choice. Those who are admitted to their intended engineering program must meet progression requirements at the point of transfer or within their first two semesters at UW–Madison to guarantee advancement in that program. Transfer admission to the College of Engineering is selective. A minimum of 30 credits in residence in the College of Engineering is required after transferring, and all students must meet all requirements for their engineering major. 

The College of Engineering has dual degree transfer agreements with select four-year UW System campuses and a transfer agreement with Madison College. Eligible students in COE's transfer agreements automatically meet progression at the point of transfer.

Off-campus transfer students are encouraged to discuss their interests, academic background, and admission options with the Transfer & Academic Program Manager in the College of Engineering: ugtransfer@engr.wisc.edu.

Second Bachelor's Degree

The College of Engineering does not accept second undergraduate degree applications. Second degree students might explore the Biological Systems Engineering program at UW–Madison, an undergraduate engineering degree elsewhere, or a graduate program in the College of Engineering.

Requirements

On This Page

University Requirements

All undergraduate students must complete both the following Core General Education (Core GenEd) and University Degree and Quality of Work requirements. The requirements below apply to students whose first term at UW-Madison or whose earliest post-high school college attendance at any institution is Summer 2026 or later. 

Students whose first term at UW-Madison or whose earliest post-high school college attendance at any institution occurred before Summer 2026 should refer to the archived Guide for the requirements that apply to them.

Core General Education (Core GenEd) Requirements

Civics & Perspectives 3 credits of Civics & Perspectives coursework.
Communication & Literacy 6 credits of Communication & Literacy coursework. This requirement may be partially satisfied by a qualifying placement test score. For more information see this tiny url: https://go.wisc.edu/qualifyingenglishplacement
Humanities & Arts 6 credits of Humanities & Arts coursework.
Mathematics & Quantitative Reasoning 6 credits of Mathematics & Quantitative Reasoning coursework. This requirement may be partially satisfied by a qualifying placement test score. For more information see this tiny url: https://go.wisc.edu/qualifyingmathplacement
Natural Science & Wellness Complete both:
  • 6 credits of Natural Science & Wellness or Natural Science & Wellness + Laboratory coursework.
  • one course must be in Natural Science & Wellness + Laboratory coursework.
Social & Behavioral Science 3 credits of Social & Behavioral Science coursework.
Total Credits 30 credits.

For more information see the policy.

University Degree and Quality of Work Requirements

All undergraduate degree recipients must complete the following minimum requirements. Requirements for some programs will exceed these requirements; see program requirements for additional information.

Total Degree 120 degree credits.
Residency Complete 30 credits in residence. A course is considered “in residence” if it is taken when in undergraduate degree-seeking status and:
  • is offered by UW-Madison and completed on the UW-Madison campus or at an approved off-site location, or
  • is offered by UW-Madison in an online or distance format, or is completed during participation in a UW-Madison study abroad/study away program.
Quality of Work Achieve at least the minimum grade point average specified by the school, college, and/or academic program.
Math Demonstrate minimal mathematics competence by:
English Language If required to take the UW-Madison English as a Second Language Assessment Test (MSN-ESLAT), demonstrate minimal English language competence by:
  • earning credit for ESL 118 at UW-Madison, or
  • achieving a qualifying MSN-ESLAT placement test score.
Language Complete one:
  • 2 high school units of a single language other than English, or
  • one course with the second semester Language designation.
Major Declaration Declare and complete the requirements for at least one major.

College of Engineering Degree Granting Programs’ Common Requirements 

The College of Engineering departments collaborated and adopted a common set of guidelines in their degree granting program (major) requirements. Engineering departments incorporate specific coursework within their curricula to meet these guidelines. Students should refer to specific coursework detailed below the Summary of Requirements.

College of Engineering Degree Granting Programs’ Common Requirements 

Communication All College of Engineering majors require two levels of communication coursework:
  • Engineering Communication 1: one course with the Communication A designation or satisfaction of Communication A based on eligible UW Placement Score.
  • Engineering Communication 2: each major specifies one course (e.g. INTEREGR 397) which also carries the Communication B designation.
Quantitative Reasoning All College of Engineering majors require a math sequence that incorporates two levels of quantitative reasoning.
Humanities or Literature All College of Engineering majors require a minimum of 6 credits with the Humanities or Literature breadth designations. See major Liberal Studies Electives Requirement below.
Social Sciences All College of Engineering majors require a minimum of 3 credits with the Social Sciences breadth designation. See major Liberal Studies Electives Requirement below.
Natural Sciences All College of Engineering majors require specific coursework that incorporates a minimum of 6 credits with the Biological, Natural, or Physical Science breadth designations.
Ethnic Studies All College of Engineering majors require at least one course of at least 3 credits with the Ethnic Studies designation. This course may also be used to satisfy the Social Sciences or Humanities or Literature requirement.

Geological Engineering, BS Curriculum

Students completing the geological engineering degree are also eligible to earn an additional major in geology and geophysics with no additional coursework. Students must contact an advisor to complete the necessary paperwork to declare the additional geology and geophysics major.

This curriculum applies to students admitted to the degree program this Guide academic year. Curricular requirements for students admitted in previous semesters are available in the Archive section of Guide.

Summary of Requirements

Mathematics13
Engineering Principles and Professional Issues11-14
Physical Science, Engineering Science, and Geoscience44
Required Geological Engineering Courses19
Technical Electives15
Geological Engineering Design
Communication Skills8
Liberal Studies Electives16
Fundamentals of Engineering Exam
Total Credits126

Mathematics

MATH 221Calculus and Analytic Geometry 15
MATH 222Calculus and Analytic Geometry 24
MATH 234Calculus--Functions of Several Variables4
Total Credits13

Engineering Principles and Professional Issues

STAT 324Introduction to Statistics for Science and Engineering3
or STAT 311 Introduction to Theory and Methods of Mathematical Statistics I
or I SY E 210 Introduction to Industrial Statistics
CIV ENGR/​G L E  291Problem Solving Using Computer Tools4
I SY E 313Engineering Economic Analysis3
Select one:1-4
E P D 600
Special Topics in Engineering Professional Development (Topic: Core Competence in Sustainability)
ENVIR ST/​GEOG  339
Conservation and Climate Change - Local to International Strategies
ENVIR ST/​PHILOS  441
Environmental Ethics
G L E 401
Special Topics in Geological Engineering (Topic: Ethics & Professionalism - GLE)
INTEREGR 303
Applied Leadership Competencies in Engineering
Total Credits11-14

Physical Science, Engineering Science and Geoscience 

Select one of the following:5-9
CHEM 109
Advanced General Chemistry
CHEM 103
CHEM 104
General Chemistry I
and General Chemistry II
PHYSICS 202General Physics5
or PHYSICS 208 General Physics
E M A 201Statics (C grade or better)3
E M A 202Dynamics3
E M A 303Mechanics of Materials3
CIV ENGR 310Fluid Mechanics3
GEOSCI 100Introductory Geology: How the Earth Works3
or GEOSCI/​ENVIR ST  106 Environmental Geology
GEOSCI 202Introduction to Geologic Structures4
GEOSCI 204Geologic Evolution of the Earth4
GEOSCI/​G L E  360Principles of Mineralogy3
GEOSCI/​G L E  370Elementary Petrology3
GEOSCI/​G L E  431Sedimentology & Stratigraphy Lab1
GEOSCI/​G L E  455Structural Geology4
Total Credits44-48

Required Geological Engineering Courses

G L E 171Introduction to Geological Engineering1
or INTEREGR 170 Design Practicum
G L E/​CIV ENGR  291Problem Solving Using Computer Tools4
G L E/​CIV ENGR  330Soil Mechanics3
G L E/​CIV ENGR/​GEOSCI/​M S & E  474Rock Mechanics3
G L E 479Geological Engineering Design4
G L E/​GEOSCI  594Introduction to Applied Geophysics3
G L E/​GEOSCI  595Field Methods in Applied and Engineering Geophysics1
G L E/​GEOSCI  627Hydrogeology4
Total Credits23

Technical Electives (15 credits)

Students must take a minimum 15 credits in the Technical Electives category, of which 5-6 credits must be design-focused (noted as ‘D’ in the tracks below), including at least one design-focused course taken prior to G L E 479 Geological Engineering Design. If students take G L E/​CIV ENGR  430 Introduction to Slope Stability and Earth Retention, G L E/​CIV ENGR  432 Introduction to Shallow and Deep Foundation Systems and G L E/​CIV ENGR  434 Introduction to Underground Openings Engineering, these combine to count as one design course. Additionally, if students take G L E/​CIV ENGR  530 Seepage and Slopes, they can use G L E/​CIV ENGR  432 and G L E/​CIV ENGR  434 to count as one design credit; or, if students take G L E/​CIV ENGR  532 Foundations, they can use G L E/​CIV ENGR  430 and G L E/​CIV ENGR  434 to count as one design credit. 

The technical electives are organized into five tracks, described below. Students may select courses within these tracks to focus coursework in a particular area. However, students may complete the technical electives requirement using courses listed in multiple tracks. Suggested technical electives and associated design-focused credits (noted as ‘D’ in the tracks below) for each track are included below. 

Students may take up to 6 credits of directed research credits as technical electives. In addition, one credit of G L E 1 Cooperative Education Program can be used as technical elective.

Energy, Minerals & Mining

Geological engineers possess knowledge and a skill set that serve society's need to manage extraction of traditional energy and mineral resources in more sustainable and efficient ways, develop renewable energy systems such as solar and wind energy sites, and to lead in new technologies to limit carbon emissions through geological sequestration or to develop geothermal exchange fields and reservoirs.

Within this track, the 16 credits of liberal studies can be framed to match those of the Energy Institute certificate in Energy Sustainability.

BSE/​ENVIR ST  367Renewable Energy Systems3
CBE 562Special Topics in Chemical Engineering (Topic: Energy & Sustainability)1-3
CIV ENGR/​ENVIR ST/​GEOG  377An Introduction to Geographic Information Systems4
E M A 405Practicum in Finite Elements3
GEOSCI/​ENVIR ST  411Energy Resources3
GEOSCI 457Conducted Field Trip2
GEOSCI 515Principles of Economic Geology4
G L E 401Special Topics in Geological Engineering (D) 11-3
G L E/​CIV ENGR  430Introduction to Slope Stability and Earth Retention (D)1
G L E/​CIV ENGR  434Introduction to Underground Openings Engineering (D)1
G L E/​CIV ENGR  530Seepage and Slopes (D)3
G L E/​CIV ENGR  535Wind Energy Balance-of-Plant Design (D)3
G L E/​GEOSCI  757Advanced Rock Mechanics3
G L E 801Special Topics in Geological Engineering (Topic: Geomechanics)1-3
1

 Only certain G L E 401 topics count as design courses. Please consult with your academic advisor for details. 

Sustainability & Environment

Methods for quantifying the long-term effects of development, natural resource extraction, and environmental damage are often neglected or misapplied in cost-benefit life cycle analysis. This track intends to educate future professionals capable of leading the field in sustainable design and construction. The Sustainability & Environment track focuses on quantification, design, and optimization in relation to the use of natural resources and construction materials/methods as well as minimizing the long-term impacts of these activities.

BSE/​ENVIR ST  367Renewable Energy Systems3
CBE 562Special Topics in Chemical Engineering (Topic: Energy & Sustainability)1-3
CIV ENGR 320Environmental Engineering3
CIV ENGR/​G L E  421Environmental Sustainability Engineering3
CIV ENGR 427Solid and Hazardous Wastes Engineering (D)3
CIV ENGR 522Hazardous Waste Management3
CIV ENGR 619Special Topics in Hydrology1-3
CIV ENGR 649Special Topics in Structural Engineering (Topic: Sustainable Construction)1-3
GEOSCI/​ENVIR ST  411Energy Resources3
GEOSCI/​G L E  629Contaminant Hydrogeology (D)3
G L E 401Special Topics in Geological Engineering (D) 11-3
G L E/​CIV ENGR  635Remediation Geotechnics (D)3
G L E/​CIV ENGR  732Unsaturated Soil Geoengineering3
SOIL SCI/​ENVIR ST  324Soils and Environmental Quality3
1

 Only certain G L E 401 Special Topics in Geological Engineering topics count as design courses. Please consult with your academic advisor for details.

Geohazards

The number of fatalities and the amount of economic loss due to natural and human-driven geohazards continue to increase. These losses may result from various geohazards, such as landslides, flooding, tsunamis, earthquakes, and volcanic eruptions. The Geohazards track aims to provide students with the necessary skills to perform analyses that minimize loss of life and economic costs associated with geohazards.

CIV ENGR/​ENVIR ST/​GEOG  377An Introduction to Geographic Information Systems4
CIV ENGR 514Coastal Engineering (D)2-3
E M A 405Practicum in Finite Elements3
GEOSCI/​GEOG  320Geomorphology3
GEOSCI/​G L E  350Introduction to Geophysics: The Dynamic Earth3
G L E/​CIV ENGR  430Introduction to Slope Stability and Earth Retention (D)1
G L E/​CIV ENGR/​ENVIR ST/​GEOSCI  444Practical Applications of GPS Surveying2
G L E/​CIV ENGR  530Seepage and Slopes (D)3

Water

Water is an essential resource for humans and ecosystems. Water is also linked to mineral and energy resource production, waste management, and land reclamation. Population growth and climate change are creating increasing challenges to this resource. Development and sustainable management of groundwater and surface water, including prevention and mitigation of water quality problems, require combined expertise in geoscience, hydrology, and water resources engineering offered through the Water track.

CIV ENGR 311Hydroscience3
CIV ENGR 412Groundwater Hydraulics3
CIV ENGR 414Hydrologic Design (D)3
CIV ENGR 415Hydrology3
CIV ENGR 500Water Chemistry3
CIV ENGR 618Special Topics in Hydraulics and Fluid Mechanics (D) 11-3
CIV ENGR 619Special Topics in Hydrology1-3
GEOSCI/​GEOG  320Geomorphology3
GEOSCI/​GEOG  420Glacial and Pleistocene Geology3
GEOSCI 430Sedimentology and Stratigraphy3
GEOSCI/​G L E  629Contaminant Hydrogeology (D)3
G L E 401Special Topics in Geological Engineering (D) 21-3
G L E/​CIV ENGR  430Introduction to Slope Stability and Earth Retention (D)1
G L E/CIV ENGR 511Mixing and Transport in the Environment3
G L E/​CIV ENGR  530Seepage and Slopes (D)3
G L E/​CIV ENGR  732Unsaturated Soil Geoengineering3
1

 Must take one of these topics: "Waterfront & Coastal Planning" or "Lake & River Rehabilitation."

2

Only certain G L E 401 Special Topics in Geological Engineering topics count as design courses. Please consult with your academic advisor for details.

Infrastructure

There are many challenges that need to be overcome to address the aging infrastructure of this country as well as to develop cost effective solutions for new infrastructure in developing nations. The Infrastructure track is developed to provide students a background that enables them to perform engineering calculations to design, construct, assess the current condition (level of safety), and develop repair and retrofit solutions for civil engineering structures resting on, or constructed in, soil or rock.

CIV ENGR 649Special Topics in Structural Engineering (Topic: Sustainable Construction)1-3
E M A 405Practicum in Finite Elements3
GEOSCI/​GEOG  320Geomorphology3
GEOSCI/​GEOG  420Glacial and Pleistocene Geology3
GEOSCI 430Sedimentology and Stratigraphy3
G L E 401Special Topics in Geological Engineering (D) 11-3
G L E/​CIV ENGR  430Introduction to Slope Stability and Earth Retention (D)1
G L E/​CIV ENGR  432Introduction to Shallow and Deep Foundation Systems (D)1
G L E/​CIV ENGR  434Introduction to Underground Openings Engineering (D)1
G L E/​CIV ENGR/​ENVIR ST/​GEOSCI  444Practical Applications of GPS Surveying2
G L E/​CIV ENGR  530Seepage and Slopes (D)3
G L E/​CIV ENGR  532Foundations (D)3
CIV ENGR/​G L E  534Nondestructive Evaluation3
G L E/​CIV ENGR  535Wind Energy Balance-of-Plant Design (D)3
G L E/​CIV ENGR  730Engineering Properties of Soils3
1

 Only certain G L E 401 topics count as design courses. Please consult with your academic advisor for details.

Communication Skills

Engr Comm 1
INTEREGR 156Introduction to Writing, Speaking, and Ethics for Engineers3
or ENGL 100 Introduction to College Composition
or COM ARTS 100 Introduction to Speech Composition
or LSC 100 Science and Storytelling
or ESL 118 Academic Writing II
Speech Related
INTEREGR 275Technical Presentations2
or COM ARTS 181 Elements of Speech-Honors Course
or COM ARTS 262 Argumentation and Debate
or COM ARTS 266 Theory and Practice of Group Discussion
Engr Comm 2
INTEREGR 397Engineering Communication3
Total Credits8

Liberal Studies Electives 

Students must complete 16 credits of College of Engineering Liberal Studies Electives Requirements.

Fundamentals of Engineering Exam

All students must take the Fundamentals of Engineering exam. 

Honors in Research

Students in geological engineering that have completed at least two semesters on the Madison campus with a cumulative GPA of at least 3.5 may apply to participate in the Honors in Research program. Students may register for 1 to 3 credits per semester. A grade of P (Progress) will be assigned each semester until the student completes the honors in research program or drops out of the program, at which time a final grade is assigned (based on research progress and the written thesis, if completed). This becomes the grade for all credits taken in G L E 489 Honors in Research.

A senior thesis worth 3 credits of G L E 489 Honors in Research is required. The senior thesis is a written document reporting on a substantial piece of work that is prepared in the style of a graduate thesis. The thesis advisor determines the grade which the student receives for the thesis. A bound copy of the thesis must be submitted to the geological engineering office to complete the program.

The designation "Honors in Research" will be recorded on the student's transcript if the following criteria are met:

  1. Satisfaction of requirements for an undergraduate degree in Geological Engineering.
  2. A cumulative grade-point average of at least 3.3.
  3. Completion of a total of at least 8 credits in G L E 489 Honors in Research.
  4. Completion of a senior honors thesis with a final grade of B or better.

Students interested in the Honors in Research program should contact their advisor or the G L E director for more information. Applications to the program are to be submitted to the G L E director with a supporting letter from the student’s academic and thesis advisors. Decisions regarding acceptance are made by the G L E director.

Learning Outcomes

  1. an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  2. an ability to 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
  3. an ability to communicate effectively with a range of audiences
  4. an ability to 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
  5. an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
  6. an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
  7. an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

Four-Year Plan

Sample Four-Year Plan

First Year
FallCreditsSpringCredits
MATH 2215MATH 2224
CHEM 1095E M A 2013
GEOSCI 100 or 1063GEOSCI 2044
Engr Comm 13G L E 1711
 Liberal Studies Elective4
 16 16
Second Year
FallCreditsSpringCredits
MATH 2344CIV ENGR 3103
E M A 2023E M A 3033
GEOSCI/​G L E  3603PHYSICS 202 or 2085
GEOSCI 2024GEOSCI/​G L E  3703
CIV ENGR/​G L E  2914Liberal Studies Elective3
 18 17
Third Year
FallCreditsSpringCredits
STAT 324 or 3113Technical Elective3
Technical Elective3Professional Issues1-4
CIV ENGR/​G L E  3303G L E/​CIV ENGR/​GEOSCI/​M S & E  4743
G L E/​GEOSCI  4311GEOSCI/​G L E  4554
Liberal Studies Elective3INTEREGR 3973
INTEREGR 2752 
 15 14-17
Fourth Year
FallCreditsSpringCredits
Ethnic Studies3G L E 4794
G L E/​GEOSCI  5943Liberal Studies Elective3
G L E/​GEOSCI  5951I SY E 3133
G L E/​GEOSCI  6274Technical Elective3
Technical Elective (design)3Technical Elective (design)3
 14 16
Total Credits 126-129

Advising and Careers

Advising

Every College of Engineering undergraduate has an assigned academic advisor. Academic advisors support and coach students through their transition to college and their academic program all the way through graduation. 

Advisors help students navigate the highly structured engineering curricula and course sequencing, working with them to select courses each semester.  

When facing a challenge or making a plan toward a goal, students can start with their academic advisor. There are many outstanding resources at UWMadison, and academic advisors are trained to help students navigate these resources. Advisors not only inform students about the various resources, but they help reduce the barriers between students and campus resources to help students feel empowered to pursue their goals and communicate their needs. 

Students can find their assigned advisor in their MyUW Student Center.

Engineering Career Services

Engineering Career Services (ECS) assists students in finding work-based learning experiences such as co-ops and summer internships, exploring and applying to graduate or professional school, and finding full-time professional employment. 

ECS offers two large career fairs per year, assists students with resume building and developing interviewing skills, hosts skill-building workshops, and meets one-on-one with students to discuss offer negotiations. 

Students are encouraged to engage with the ECS office early in their academic careers. For more information on ECS programs and workshops, visit: https://ecs.wisc.edu. 

Resources and Scholarships

Labs and Facilities

The geological engineering program utilizes laboratories that are shared with other departments. They include:

Land Information and Surveying Laboratories
Fluid Mechanics Laboratory
Materials Testing Laboratory
Geology and Hydrogeology Laboratories
Rock Mechanics Laboratory
Geoengineering Laboratories

Scholarships

For department and college-wide scholarship information, visit College of Engineering Scholarships.

Accreditation

Accredited by the Engineering Accreditation Commission of ABET, https://www.abet.org, under the commission's General Criteria and Program Criteria for Geological and Similarly Named Engineering Programs. 

Program Educational Objectives for the Bachelor of Science in Geological Engineering 

We recognize that our graduates will choose to use the knowledge and skills that they have acquired during their undergraduate years to pursue a wide variety of career and life goals, and we encourage this diversity of paths. Whatever path our graduates may choose, we expect them to be meeting the following objectives at least three to five years after graduation: 

  1. apply geological engineering principles, analyses, and synthesis to design and implement projects in the natural and built environment; 
  2. incorporate economic, environmental, political, ethical, social, safety, and global considerations to generate sustainable solutions in the natural and built environment; 
  3. exhibit strong communication, leadership, and teamwork skills; 
  4. serve others through professional responsibility and participation in professional and public activities and good citizenship; and 
  5. demonstrate a continuing commitment to and interest in their own and others’ education. 

Note: Undergraduate Student Outcomes, number of degrees conferred, and enrollment data are made publicly available at the Geological Engineering Undergraduate Program website. (In this Guide, the program's Student Outcomes are available through the "Learning Outcomes" tab.)