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Course Criteria
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: BUS 320, EGL 300, MGT 405, Senior Class Standing Behavioral and psychological aspects of leadership in the business environment are the focus of this course. Behavioral concepts include practical training in followership, development of skills in leadership, communication, team membership, and management of personal stress. Psychological concepts include attitude development, corporate culture values, and personality assessment.
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8.00 Credits
CREDIT: 8 Prerequisite: Sophomore Class Standing This course is the first of two summer co-ops required for some students in the Mechanical Engineering program. It requires the student to work onsite in an industry, research facility, or research institution under a cooperative education training agreement for a 2-3 month period. Students will encounter practical work and current research experiences. These experiences will vary with the participating companies, facilities, and institutions. The student will work in a paid position under a degreed engineering supervisor in cooperation with the Career Development Center.
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8.00 Credits
CREDIT: 8 Prerequisites: CRU 150, Sophomore Class Standing This course is the first of two summer co-ops required for the Facilities Engineering Technology major. It requires the student to work in industry under a cooperative education training agreement by working onsite for a 2-month period. Students will encounter current and practical work experience with various facilities.
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3.00 Credits
CREDIT: 3 Prerequisites: Permission of the Chair, MGT 100, MGT 205, ECO 100 This course allows the student to spend time in a domestic work environment that has been setup by the Business Department. The student is expected to acquire practical learning outcomes in management, resource allocation, and business communications. The focus of this experience is to get employment in a company that will enhance the theoretical knowledge, improve the practical learning and build leadership and management skills.
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8.00 Credits
CREDIT: 8 Prerequisites: CEP 250, Junior Class Standing This course is the second and final of two summer co-ops required for some students in the Mechanical Engineering program. It requires the student to work onsite in an industry, research facility, or research institution under a cooperative education training agreement for a 2-3 month period. Students will encounter practical work and current research experiences. Experiences vary with the participating companies, facilities, and institutions but should include teamwork, communication, and engineering design problem-solving opportunities. The student will work in a paid position under a degreed engineering supervisor in cooperation with the Career Development Center.
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8.00 Credits
CREDIT: 8 Prerequisites: CEP 270, Junior Class Standing CEP 370 is the second and final of two summer cooperative education courses required by the Facilities Engineering Technology Program. This course requires the student to work in industry under a cooperative education training agreement by working onsite for a 2-month period. Students will encounter current and practical work experience with various facilities.
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3.00 Credits
Independent Study
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3.00 Credits
Special Topics
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3.00 Credits
CREDIT: 3 Prerequisite: CEP 300 This elective course allows the student to spend time in an overseas work environment that has been setup by the Business Department. The student is expected to acquire practical learning outcomes in management, resource allocation, and business communications. The focus of this experience is to get employment in a foreign company and improve language skills in conversation language and business language.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: CHE 100, CHE 100L This course examines the role that water plays in both production and power plant processes. Emphases within the course focus on the nature of liquid mixtures, including equilibrium concepts as they relate to solution chemistry, sources and types of organic and inorganic water contamination, the quantification of water contamination and the pre-treatment and post-treatment of water utilized in plant processes.
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