What is meaning of engineering geology?
What is meaning of engineering geology?
engineering geology, also called Geological Engineering, the scientific discipline concerned with the application of geological knowledge to engineering problems—e.g., to reservoir design and location, determination of slope stability for construction purposes, and determination of earthquake, flood, or subsidence …
What is the difference between geology and engineering geology?
Geologists are students of the planet – its processes and make-up. Geotechnical engineers are civil engineers who utilize their knowledge of geology to aid in the design and construction of structures, depending on the mechanics of the surrounding geology.
What is the importance of engineering geology?
Engineering Geology helps to ensure a stable and cost-effective model for construction projects. Gathering geological information for a project site is important in the planning, design, and construction phase of an engineering project.
What is the term of igneous?
Definition of igneous 1a : formed by solidification of magma igneous rock. b : relating to, resulting from, or suggestive of the intrusion or extrusion of magma or volcanic activity. 2 : of, relating to, or resembling fire : fiery.
What are the principles of engineering geology?
Engineers use the principles of geology to study the soil and rock mechanics, analyze the features of the land and assess risk factors. They study soil and rock quality, the land stability, potential for landslides and flooding, and seismic risk factors among others.
Is engineering geology the same as geotechnical engineering?
The fields of geotechnical engineering and engineering geology have knowledge areas that overlap, however, while geotechnical engineering is a specialty of civil engineering, engineering geology is a specialty of geology: They share the same principles of soil mechanics and rock mechanics, but differ in the application …
What is advanced engineering geology?
Advanced engineering geology focused on engineering practice. Interpretation of in-situ testing and laboratory test data (including groundwater) for the derivation of design parameters for input into numerical modeling software.