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CTC/MTC 101 Academic Requirements

CTC/MTC 101 Academic Requirements. Objectives. An ability to: Understand the academic requirements you need to obtain your degree Calculate your GPA Prepare a draft schedule. Academic Requirements. Catalog in use at the time of matriculation Courses that must be taken

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CTC/MTC 101 Academic Requirements

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  1. CTC/MTC 101 Academic Requirements

  2. Objectives An ability to: • Understand the academic requirements you need to obtain your degree • Calculate your GPA • Prepare a draft schedule

  3. Academic Requirements • Catalog in use at the time of matriculation • Courses that must be taken • Other requirements (CAD test) • General education requirements • Program of Study shows Transfer

  4. Program of Study • Shows transfer credit and remaining requirements • Transfer Credit • Another school • AP credit • CLEP • Others (see catalog) • Transfer varies by program • Grade • Maximum transfer • Equivalency

  5. Transfer • Maximum of 64 lower level credits prior to matriculation • Additional 12 may be taken via petition • Schedule • Graduation • Maximum of 90 credits (upper/lower) can be transferred • C or better • Civil (soils/surveying)

  6. Program Specific Requirements • Civil Engineering Technology • Mechanical Engineering Technology • Details can be found in the undergraduate catalog http://www.sunyit.edu/pdf/UGCat.pdf

  7. Planning your Schedule

  8. Graduation Requirement Details • General education • http://www.sunyit.edu/registrar/gen_ed • http://www.suny.edu/provost/GeneralEducation/CourseList/mastercampuslist.cfm • Courses with labs (see catalog descriptions) • Course pre- and co- requisites (see catalog descriptions) • Course availability (check past schedules) • Courses taken at another college • http://www.sunyit.edu/pdf/registrar/petition_classes_othercollege.pdf • SUNY Learning Network • Petition to Graduate (semester before you graduate) http://www.sunyit.edu/pdf/registrar/graduation_application.pdf

  9. Accreditation • The civil and mechanical engineering technology programs are accredited by TAC-ABET (Technology Accreditation Commission-Accreditation Board for Engineering and Technology) • History of ABET and relevant documents can be found at http://www.abet.org/

  10. Student Outcomes (a-k) For baccalaureate degree programs, these student outcomes must include, but are not limited to, the following learned capabilities: • a. an ability to select and apply the knowledge, techniques, skills, and modern tools of the discipline to broadly-defined engineering technology activities;b. 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;c. an ability to conduct standard tests and measurements; to conduct, analyze, and interpret experiments; and to apply experimental results to improve processes; d. an ability to design systems, components, or processes for broadly-defined engineering technology problems appropriate to program educational objectives; e. an ability to function effectively as a member or leader on a technical team;f. an ability to identify, analyze, and solve broadly-defined engineering technology problems;g. 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; h. an understanding of the need for and an ability to engage in self-directed continuing professional development; i. an understanding of and a commitment to address professional and ethical responsibilities including a respect for diversity; j. a knowledge of the impact of engineering technology solutions in a societal and global context; andk. a commitment to quality, timeliness, and continuous improvement. Source: http://www.abet.org

  11. Program Educational Outcomes: Civil Graduates of the CET program at SUNY Institute of Technology will have an ability to: • Utilize graphic techniques to produce engineering documents. • Utilize modern surveying methods for land measurement and/or construction layout. • Determine forces and stresses in elementary structural systems. • Employ industry related software to solve technical problems. • Plan and prepare design and construction documents. • Perform economic analyses and cost estimates related to planning, design, construction, and management of civil engineering projects. • Apply basic mathematical, scientific and technical concepts to the solution of civil problems, including hydraulics, hydrology, geotechnics, structures, material behavior, transportation systems, and water and wastewater systems. • Perform standard analysis and design in at least three of the recognized technical specialties within civil engineering technology. • Communicate effectively, both orally and in writing. • Function effectively as part of a project team. • Recognize the need for professionalism, excellence, and lifelong learning. Source: http://www.sunyit.edu/undergraduate.ctc.mission_outcomes

  12. Program Educational Outcomes: Mechanical Graduates will demonstrate the ability to: • Design and modify components of mechanical systems • Apply principles of solid mechanics to existing and new mechanical systems • Apply principles of fluid mechanics and thermal sciences to existing and new mechanical systems • Generate computer-aided engineering graphics using commercial packages • Conduct experiments; analyze and interpret data • Work effectively in small teams • Communicate orally; write effective technical documents Source: http://www.sunyit.edu/undergraduate/mtc/tac_abet

  13. Calculating GPA • Weighted • Quality Points per Credit Hour

  14. GPA Example • CTC 101; 2 cr; A • MTC 218; 2 cr; B • MTC 162; 4 cr; A- • MAT 121; 4 cr; C • PHY 101; 4 cr; B- GPA=(2*4)+(2*3)+(4*3.67)+4*(2.0)+(4*2.67)= 8+6+14.68+8+10.68= 47.36 (total quality points) 47.36/16=2.96

  15. HW Assignment (individual) • Look up the specific program criteria in your program (civil, or mechanical engineering technology) in the appropriate catalog. Develop a draft schedule showing the classes you plan to take each semester. Check: • Prerequisites • Course availability (only offered in the spring or fall?) • Course load • General education requirements • Choose another major that you think would be interesting and develop a draft schedule if you should change majors. List the courses you have taken (or are currently taking) that would count towards the new major and which would not count.

  16. HW Assignment (individual) • Using the SUNYIT undergraduate catalog answer the following questions: • What is the test-out policy used for? • What is Advanced Placement credit? • What is the difference between a dual baccalaureate degree and a second major? • What is the “writing requirement” and which courses fulfill the requirement? • What is the minimum upper division credit requirement?

  17. Next Lecture • Student and Engineering Ethics

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