Competency:
The student should understand basic geology for Civil Engineering works and have knowledge of the formation and classification of soils.
Assessment:
Coursework 10%; Continuous tests 20%; Practicals 10%; Examinations 60%
References:
1. Terzghi, R. and Peck. “Soil Mechanics in Engineering Practice”, John Wiley, N.Y.
2. Smith, R.C. “Elements of Soil Mechanics for Civil and Mining Engineers”. Granada Publishers
Geology is the scientific study of the Earth's structure, composition, history, and the processes that shape it. Geologists examine various aspects of the Earth, from its core to its surface, to understand its past, present, and future.
The geological formation of the Earth is a complex and dynamic process that has occurred over billions of years. It involves a series of events, including the formation of the Earth itself, the development of its layers, and the evolution of its surface features.
The Earth is a complex and dynamic planet with a layered structure, consisting of various components that interact to create the environment we know today. Its composition and nature can be understood by examining its layers and the materials that make up these layers:
Soil is a complex and dynamic natural resource that plays a vital role in supporting life on Earth. It is formed through the weathering of rocks and minerals over long periods of time and consists of a mixture of mineral particles, organic matter, water, air, and various microorganisms.
An earthquake is a sudden and violent shaking of the ground caused by the release of energy in the Earth's crust. It is a natural geological phenomenon that occurs when there is a rupture or movement along faults in the Earth's crust. Earthquakes can range in magnitude from very small, imperceptible tremors to extremely powerful and destructive events.