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MASTER SYLLABUS |
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CET 2112 |
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| Class Hours: 3.0 | Credit Hours: 4.0 | ||||||||
| Laboratory Hours: 3.0 | Revised: Spring 05 | ||||||||
| Catalog Course Description: | |||||||||
| This course covers basic soil mechanics including index properties of fine and coarse soil, soil classification, stress analysis, permeability, compaction, strength concepts, and settlement and compressibility. The laboratory covers standard ASTM soil tests. Word processing and spreadsheet software are used to prepare professional technical reports that include text, tables, data reduction and graphs. Spreadsheet templates are developed for use in data reduction. | |||||||||
| Entry Level Standards: | |||||||||
| Students should be capable of critical and analytical thinking and should have sufficient mathematical skills to formulate and solve algebraic equations. They should have the ability to perform laboratory tests, record data draw conclusions and prepare reports that meet prescribed technical and grammatical standards. | |||||||||
| Prerequisites: | |||||||||
| MATH 1730 | |||||||||
| Textbook(s) and Other Course Materials: | |||||||||
| Textbook:
Shroeder, W. L. and Dickenson, S. E., Soils in Construction, Prentice Hall, Englewood Cliffs, New Jersey, 1996 Reference: American Society for Testing and Materials Laboratory Instructions Instructor Handout |
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| I. Week/Unit/Topic Basis: | |||||||||
| Week | Topic | ||||||||
| 1 | Lecture:
Physical Character of Soil Lab: Excel Spreadsheets |
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| 2 | Lecture:
Specific Gravity and Unit Weight Lab: Excel Spreadsheets |
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| 3 | Lecture:
Soil Index Properties Lab: Introduction to the Soils Laboratory |
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| 4 | Lecture:
Soil Index Properties; Exam I Lab: Water Content |
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| 5 | Lecture:
Basic Tests on Soil Lab: Specific Gravity |
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| 6 | Lecture:
Soil Classification Lab: Gradation Analysis-Mechanical |
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| 7 | Lecture:
Soil and Water Relations Lab: Gradation analysis (Hydrometer) |
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| 8 | Lecture:
Soil and Water Relations; Exam II Lab: Atterberg Limits |
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| 9 | Lecture:
Soil and Water Relations Lab: Compaction |
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| 10 | Lecture:
Strength Concepts Lab: Field Trip to a Soils Laboratory |
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| 11 | Lecture:
Strength Concepts Lab: Permeability |
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| 12 | Lecture:
Strength Concepts Lab: Direct Shear-Granular Soil |
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| 13 | Lecture:
Design of Footings; Exam III Lab: Direct Shear-Cohesive Soil |
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| 14 | Lecture:
Design of Footings Lab: Field Trip |
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| 15 | FINAL EXAM | ||||||||
| II. Course Objectives*: | |||||||||
| A. | Understand the physical condition of a soil mass and the associated descriptive terms. (A, C, F, I, J) | ||||||||
| B. | Perform the basic tests on soils using standard procedures and prepare a professional report. (A, C, D, E, F) | ||||||||
| C. | Determine soil classifications, names and descriptive adjectives according to standard classification procedures. (A, C, I, J) | ||||||||
| D. | Understand the stresses created by water, the effect of buoyancy and the movement of water through soil. ( A, C, I, J) | ||||||||
| E. | Understand the concept of strength in a soil mass. ( A, C, I, J) | ||||||||
| F. | Understand settlement and compressibility of a soil mass. ( A, C, I, J) | ||||||||
| G. | Present oral reports. (G) | ||||||||
| H. | Demonstrate self initiative to complete all assignments on time. (E) | ||||||||
| *Letters after course objectives reference CET Program Outcomes (as required by ABET). | |||||||||
| III. Instructional Processes*: | |||||||||
| Students will: | |||||||||
| 1. | Participate in classroom discussions which challenge the students' ability to think creatively. Communication Outcome, Active Learning Strategies | ||||||||
| 2. | Visit commercial soil laboratories and construction sites and hear guest lecturers from the engineering community to help in the transition from the classroom and laboratory to work. Transitional Strategies, Communication Outcome, Active Learning Strategies | ||||||||
| 3. | Work in teams to conduct laboratory tests and solve special problems to foster interpersonal skills of teamwork . Frequently this leads to development and refinement of leadership skills and the ability to express ones' thoughts and ideas and seek, through negotiation, consensus of the team. Communication Outcome, Technological Literacy Outcome, Informational Literacy Outcome, Active Learning Strategies | ||||||||
| 4. | Use computers to process information obtained through laboratory tests and problem assignments to enhance information literacy skills. Spreadsheets are used to record laboratory data, to perform data reduction and to prepare logical tabular and graphical presentations of the laboratory results. Word processing software is used to prepare reports and the Internet is used for special assignments. Communication Outcome, Technological Literacy Outcome, Active Learning Strategies | ||||||||
| 5. | Prepare professional level reports describing standard soil laboratory tests requiring mathematical analysis as well as written communication to advance the basic skills of writing and mathematics. Communication Outcome, Mathematics Outcome, Active Learning Strateies | ||||||||
| 6. | Discuss the importance of such personal qualities as ethics and personal responsibility in school and in the workplace. Communication Outcome, Active Learning Strategies, Transitional Strategies | ||||||||
| *Strategies and outcomes listed after instructional processes reference TBR’s goals for strengthening general education knowledge and skills, connecting coursework to experiences beyond the classroom, and encouraging students to take active and responsible roles in the educational process. | |||||||||
| IV. Expectations for Student Performance*: | |||||||||
| Upon successful completion of this course, the student should be able to: | |||||||||
| 1. | Understand and use the terminology. A,B,C,D,E&F | ||||||||
| 2. | Determine the different phases of a soil. A | ||||||||
| 3. | Determine the void ratio and porosity of a dry two-phase soil. A | ||||||||
| 4. | Determine the significance of unit weight, specific gravity and water content. A,B | ||||||||
| 5. | Determine the significance of the degree of saturation of a soil mass. A,B | ||||||||
| 6. | Describe the Interrelationship of soil mass properties. A | ||||||||
| 7. | Determine the importance of Grain Size Distribution. A, B | ||||||||
| 8. | Determine the importance of Liquid, Plastic and Shrinkage Limits. B | ||||||||
| 9. | Determine the importance of Compactibility. B | ||||||||
| 10. | Determine the importance of Permeability. B | ||||||||
| 11. | Determine the importance of Direct Shear. B | ||||||||
| 12. | Determine the engineering classification of soil by the major classification systems. C | ||||||||
| 13. | Calculate the total stress, effective stress and hydraulic stress. D | ||||||||
| 14. | Calculate the movement of water through soil. D | ||||||||
| 15. | Describe the use of flow nets to estimate seepage, uplift pressure on dams and piping and creep ratios. D | ||||||||
| 16. | Calculate the stresses on a soil mass using Mohr's Circle. E | ||||||||
| 17. | Apply Coulomb's Law. E | ||||||||
| 18. | Discuss the performance of strength tests: compression, penetration and direct shear. B,E | ||||||||
| 19. | Calculate the settlement due to loads on cohesive and cohesionless soils. F | ||||||||
| 20. | Determine the time-settlement relationships for a cohesive soil. F | ||||||||
| 21. | Prepare reports to meet professional standards. G | ||||||||
| *Letters after performance expectations reference the course objectives listed above. | |||||||||
| V. Evaluation: | |||||||||
| A. Testing Procedures: | |||||||||
| Four
examinations will be given covering the lecture materials. These exams
will be given as shown on the schedule above. The examinations may
consist of problems and essay, short answer or multiple choice questions.
One examination may be made up if the student has a valid excuse for missing
the examination. The examination must be made up within one week.
The four examinations will account for 60 percent of the final grade. |
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| B. Laboratory Expectations: | |||||||||
| A
number of laboratory tests are scheduled and at one or more field trips will
be scheduled. A laboratory journal will be kept by each student and
reports prepared in accordance with the procedure described in Appendix
A for all laboratory tests. The student will be graded on laboratory
technique, the journal and the reports. Reports will be graded for
technical content but they must meet acceptable grammar standards or they
will be returned to the student to be redone. It is suggested that
the student consult with an English tutor in the Learning Center regarding
the preparation of reports. A short quiz will be given at the beginning of each laboratory period on the procedure for the test being conducted that day. The score on the quiz will be added to the grade of the report. The student must complete all laboratory assignments and submit an acceptable report to receive a passing grade in the course The laboratory grade will account for 30 percent of the final grade. |
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| C. Field Work: | |||||||||
| Quizzes
and Homework: Unscheduled short quizzes may be given covering the previous class lecture or the assignment for the current day. Quizzes may not be made up. Homework will be assigned regularly. Quizzes and homework will account for 10 percent of the final grade. |
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| D. Other Evaluation Methods: | |||||||||
| N/A | |||||||||
| E. Grading Scale: | |||||||||
| 90-100
A 86-89 B+ 80-85 B 76-79 C+ 70-75 C 60-69 D 0-59 F |
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| VI. Policies: | |||||||||
| A. Attendance Policy: | |||||||||
| Pellissippi
State Technical Community College expects students to attend all scheduled
instructional activities. As a minimum, students in all courses must
be present for at least 75 percent of their scheduled class and laboratory
meetings in order to receive credit for the course (Pellissippi State Catalog).
Individual departments/programs/disciplines, with the approval of the vice
president of Academic and Student Affairs, may have requirements that are
more stringent.
It is the student's responsibility to attend every
scheduled class activity on time. |
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| B. Academic and Classroom Misconduct: | |||||||||
| Academic misconduct committed either directly or indirectly by an individual or group is subject to disciplinary action. Prohibited activities include but are not limited to the following practices: Cheating, including but not limited to unauthorized assistance from material, people, or devices when taking a test, quiz, or examination; writing papers or reports; solving problems; or completing academic assignments. In addition to other possible disciplinary sanctions that may be imposed as a result of academic misconduct, the instructor has the authority to assign either (1) an F or zero for the assignment or (2) an F for the course. | |||||||||
| C. Accommodations for disabilities: | |||||||||
| If
you need accommodation because of a disability, if you have emergency medical
information to share, or if you need special arrangements in case the building
must be evacuated, please inform the instructor immediately. Privately
after class or in the instructor's office. To request accommodations students must register with Services for Students with Disabilities: Goins 127 or 131, Phone: (865) 539-7153 or (865) 694-6751 Voice/TDD. |
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