The Packaging Engineering Technology degree program will be a leader in integrating teaching, research, and creative activity in an engaging, challenging, and supportive learning environment preparing productive citizens for Indiana and the world while creating and maintaining a credible presence within the packaging sector of education and industry.
The mission of the Packaging Engineering Technology (PET) degree program at Indiana State University is to prepare graduates with technical and leadership skills necessary for packaging competitiveness and to enter careers in packaging process and systems design, operations, quality, continuous improvement, lean manufacturing, and sustainability.
Guiding Principles (we will)
Inculcate high standards for learning, teaching, and inquiry
Provide a well-rounded education that integrates professional preparation and study in the arts and sciences with co-curricular involvement
Demonstrate integrity through honesty, civility, and fairness
Embrace the diversity of individuals, ideas, and expressions
Foster personal growth within an environment in which every individual matters
Uphold the responsibility of University citizenship
Exercise stewardship of our global community
- Develop and maintain student enrollment and retention strategies responsive to industry
- Develop and maintain a modern laboratory equipment suite
- Develop and maintain a curriculum that addresses both student and industry needs
- Develop and maintain enriching community engagement and outreach programs and activities
- Develop and maintain clear, consistent, and concise faculty development strategies to ensure world class packaging faculty
Defining Engineering Technology:
Engineering and engineering technology are recognized as distinct points on the technical occupational spectrum. For example, ABET’s accreditation criteria defines engineering as “the profession in which a knowledge of the mathematical and natural sciences gained by study, experience, and practice is applied with judgment to develop ways to use economically the materials and forces of nature for the benefit of mankind.” Engineering technology is defined as “that part of the technological field that requires the application of scientific and engineering knowledge and methods combined with technical skills in support of engineering activities; it lies in the occupational spectrum between the craftsman and the engineer at the end of the spectrum closest to the engineer.” In other words, the engineer is the person who conceives the design, while the engineering technologist is the person who implements it.
The distinction between engineering and engineering technology emanates primarily from differences in their educational programs. Engineering programs are geared toward development of conceptual skills, and consist of a sequence of engineering fundamentals and design courses, built on a foundation of complex mathematics and science courses. Engineering technology programs are oriented toward application, and provide their students introductory mathematics and science courses, and only a qualitative introduction to engineering fundamentals. Thus, engineering programs provide their graduates a breadth and depth of knowledge that allows them to function as designers. Engineering technology programs prepare their graduates to apply others’ designs.
The packaging engineering technology (PET) degree program awards a Bachelor of Science (BS) degree to successful students through a four-year curriculum.
The PET program prepares graduates with technical and leadership skills necessary for packaging competitiveness and to enter careers in packaging process and systems design, operations, quality, continuous improvement, lean manufacturing, and sustainability.
The Institute of Packaging Professionals (IoPP) is the lead professional society used in addition to ETAC of ABET for developing program criteria, guiding program relevance, and making continuous improvement.
Program Educational Objectives: graduates two to three years into their career should have the foundation to:
- Apply disciplinary reasoning, critical thinking, and hands-on skills to identify, analyze and solve problems. (Technology).
- Communicate effectively in both oral and written form to articulate technical knowledge, ideas, and proposals (Communication)
- Consider professional, ethical and social responsibility of engineering technology practices. (Global Responsibility).
- Perform effectively, think independently and work collaboratively in a team environment in a membership or leadership role (Management &/or Teamwork).
- Actively participate in professional development, including continuous self-improvement and lifelong learning (Lifelong Learning).
Student Outcomes: students at the time of graduation are prepared to demonstrate:
An ability to select and apply the knowledge, techniques, skills, and modern tools of the discipline to broadly-defined engineering technology activities
An ability to select and apply a knowledge of mathematics, science, engineering, and technology to engineering technology problems that require the application of principles and applied procedures or methodologies
An ability to conduct standard tests and measurements; to conduct, analyze, and interpret experiments; and to apply experimental results to improve processes
An ability to design systems, components, or processes for broadly-defined engineering technology problems appropriate to program educational objectives
An ability to function effectively as a member or leader on a technical team
An ability to identify, analyze, and solve broadly-defined engineering technology problems
An ability to apply written, oral, and graphical communication in both technical and non-technical environments; and an ability to identify and use appropriate technical literature
An understanding of the need for and an ability to engage in self-directed continuing professional development
An understanding of and a commitment to address professional and ethical responsibilities including a respect for diversity
A knowledge of the impact of engineering technology solutions in a societal and global context
A commitment to quality, timeliness, and continuous improvement.