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CEE 323
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Soil Mechanics
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CEE 323: Soil Mechanics (Required for a
BSEnvE degree)
Fundamental engineering properties of soil and their application to
earth structures and foundations. Topics include seepage, compaction,
strength, and deformation characteristics of soils. Lecture 3 hours; 3
credits.
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CEE 230 (Civil Engineering Materials)
Co-requisite: CEE 335 (Soils and Hydraulics Laboratory)
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Principles of Geotechnical Engineering (5th edition), by B. M. Das,
Brooks/Cole, 200
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Students completing this course successfully will be able to
:
- understand the origin, formation, parameters and basic fundamental
behavior of soils.
- classify soils according to AASHTO and Unified System.
- understand the flow of water through soils: seepage, water pressure,
flownet.
- understand the effective stress concept and its application to quick
conditions.
- understand consolidation theory and practice to compute foundation
settlement.
- understand the concept of Mohr's circle and its application to shear
strength and lateral earth pressure theory.
- understand the shear strength parameters of soil and determination
techniques of those.
- understand the theory of lateral earth pressure.
- understand the importance of life-long learning including graduate
school, FE examination and PE license.
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- Introduction (1 hr)
- Soil gradation and composition (three phase) (2 hrs)
- Clay minerals, clay-water system, and soil structures (3 hrs)
- Consistency (Atterberg limits) and activity (1 hr)
- Soil classifications (2 hrs)
- Compaction (2 hrs)
- Flow of water, permeability, flow net, and water pressure along
boundaries (4 hrs)
- Effective stress and capillary rise (3 hrs)
- Heaving due to excavations (1 hr)
- Stress increment due to surface loads (3 hrs)
- Consolidation theory and settlement (7 hrs)
- Mohr's circle(2 hrs)
- Shear strength (6 hrs)
- Lateral earth pressure (3 hrs)
- Life-long learning, FE examination and PE license (1 hr).
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Two 75-minute lecture sessions per week.
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Moderate use of spreadsheet program through homework.
Introduction of commercial seepage software (will be initiated in 2004)
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None
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College-level mathematics and basic sciences: 0 credits
Engineering topics: 3 credits
General education: 0 credits
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This course will enhance the student's
- ability to apply knowledge in mathematics, physics, engineering
science, soil science, fluid mechanics areas to civil and environmental
engineering problems,
- ability to identify and formulate an engineering problem, to collect
and analyze relevant data, and to develop a solution,
- ability to understand the impact of engineering solutions in a
societal and global context,
- ability to understand and appreciate the importance of professional
licensure and commitment to life-long learning,
- knowledge of current issues and awareness of emerging technologies,
- ability to use modern engineering techniques, skills, and tools
including computer- based tools for civil and environmental engineering
analysis and design.
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Isao Ishibashi
<ishibas@odu.edu>
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May 07, 2003
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