College Prep for Industrial Engineering Major
Industrial engineering is all about systems- people, environment and equipment. Industrial Engineers design, develop, test, and evaluate integrated systems for managing processes. Industrial engineers determine the most effective way to use the basics of any production - people, machines, materials, information, money, and energy - in order to make a product or provide a service.
Industrial Engineers use mathematical methods and models to gather, analyze, and interpret statistical data to determine standards and establish quality and reliability objectives of systems. In a rapidly changing technological landscape, one of the most significant aspects of engineering is the creation of new approaches and solutions. To this end, the Industrial Engineering Program prepares students who enjoy working with ideas that require an extensive amount of thinking and are able to search for facts using a variety of sources in order to figure out problems. The industrial engineering provides the student the key to achieve the performance goals of ownership or management.
College Preparation for Industrial Engineering Major
Mathematical and Scientific Ability: All applicants are expected to have completed a minimal core of mathematics, science and engineering courses. The core background includes math calculus I, II and III, Differential Equations/Engineering math, Probability and Statistics. Additional industrial engineering classes may include asset allocation in technical decision making, elements of electrical engineering, strength of materials, and vector statics.
Compulsory Subjects: Mathematics, Physical Sciences
Recommended Subjects: Economics, Computers, Engineering and Technology.
Electives in electronics, business administration, and computer science will also provide valuable knowledge for a successful career in industrial engineering.
Hold a baccalaureate degree in industrial engineering or its equivalent from an accredited college or university.
Academic Standing: Have an undergraduate grade point average of at least 3.0. Strive for high grades, they make a difference.
Test Scores: GRE and TOEFL play a vital role in evaluating your academic readiness.
- GRE score: Applicants are required to take the GRE aptitude test (verbal, quantitative, and analytical). Provide official GRE scores from an examination taken within the last 5 years.
- TOEFL/IELTS score High proficiency in the English language is essential for admission to our graduate program. Applicants whose native language is not English are required to take the TOEFL exam. Applicants must meet or exceed the minimum on the Internet-based test. TOEFL results must be from an examination taken within the last eighteen months.
Letters of recommendation: Three letters of recommendation are required. At least two letters must be from an academic source.
Statement of Purpose (SoP): Your statement of purpose should describe succinctly your reasons for applying to the Industrial engineering. It would be helpful to include what you have done to prepare for this degree program. Also, describe your research interests, future career plans, and other details of your background and interests that will serve as evaluation pointers to thrive in the program.
Practical Experiences: Applicants who receive real world/practical experience often are viewed as a graduate school material. These experiences combined with classroom instruction can prepare students to diagnose problems and develop different solutions.
Skill Development: Students should also possess extensive knowledge of analytical, mathematical and problem-solving skills. Advanced computer skills are also vital to the Industrial Engineering education.
Intellectual Courses: Humanities, Liberal Arts classes and Creative Development Courses: It is important that students learn and know about modes of thought and areas of human accomplishment beyond the purely technical. Therefore, intellectual courses at the undergrad level will help students to understand the system- people and environment. These intellectual courses make students more flexible, creative and better able to work with diverse groups.
Tools and Technology: Industrial Engineering involves the use a variety of tools including computers, hydraulic motors, microcontrollers, and motion control systems. The technologies include various types of software, such as analytical or scientific, computer-aided design (CAD), computer-aided manufacturing (CAM), program testing, and project management. Students must focus and learn about those scientific and laboratory equipments and advanced technologies
Academic Transcripts: Transcripts that include the courses undertaken at the undergrad level, and grades or scores along with the application for initial departmental review are required. You can also attach a brief, one-page note describing any inconsistencies in your transcripts such as bad semester or medical problems.
Undergraduate coursework includes:
- Differential equations
- Computer science
- Engineering design
- Engineering mechanics
- Operations research
- Supply chain management/logistics
- Quality control
- Facilities design
- Basic business courses
These College Preparation essentials will position you to increase your chances of success in Industrial Engineering program.