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What is VMS? Assemblages of mostly sulfide minerals that develop on the seafloor at locations of concentrated hydrothermal discharge, relates to a kind of ore deposit that’s mined from existing oceanic crust formed underwater are Volcanogenic Massive Sulfides (VMS) Deposit. ...
Geology 101 is the study of the Earth and its materials, structures, processes, and history. It is a broad field that encompasses many different disciplines, including mineralogy, petrology, paleontology, and geophysics. Geologists study the Earth’s physical features, including its rocks, ...
What is geology definition? Geology is the scientific study of the Earth, its rocks, minerals, and the processes that shape it. It is a branch of Earth science that focuses on understanding the Earth’s history, structure, and the processes that ...
Vein deposits are geological formations characterized by the concentration of minerals within distinct fractures or cracks, creating vein-like structures. These deposits play a significant role in the global mining industry, contributing to the extraction of various valuable metals. Understanding the ...
Porosity Definition Porosity refers to the amount of empty space or voids within a material or substance. It is often expressed as a percentage of the total volume of the material, with the remaining percentage being occupied by the solid ...
Geologic mapping is a crucial process in the field of geology, which involves creating a detailed representation of the Earth’s surface based on the study of its rocks, minerals, and physical features. This article will provide a comprehensive overview of ...
Geological Time Scale The geological time scale is a system of chronological measurement that relates geological events and geological time to a numerical scale. It is used to describe the timing and relationships between events that have occurred throughout Earth’s ...
Metamorphic rocks are classified based on their texture, mineralogy, and composition. The facies classification of metamorphic rocks is based on the conditions of temperature and pressure under which the rock formed. The following are the facies classification of metamorphic rocks: ...
Metamorphic rock is a category of rock that undergoes significant changes in its mineral composition and texture during the process of metamorphism. This transformation occurs due to the high pressure and temperature conditions experienced deep within the Earth’s crust. Metamorphic ...
The difference between mineral, metal and ores Many people confuse three completely different classes of substances (minerals, ores, and metals), so that metal becomes a mineral, and all minerals become ores. Minerals Minerals are inorganic solids (elements or compounds) that ...
Placer deposits are natural occurring concentrations of minerals and metals that are found in sedimentary rock formations. These deposits are formed through a series of geological processes that involve the movement, deposition, and alteration of minerals. They are an important ...
The physical and engineering properties of rock can vary widely depending on factors such as composition, structure, porosity, and moisture content. Some key properties include: 1. **Density**: The mass per unit volume of the rock. It's typically measured in grams per cubic centimeter (g/cm³) or kilRead more
The physical and engineering properties of rock can vary widely depending on factors such as composition, structure, porosity, and moisture content. Some key properties include:
1. **Density**: The mass per unit volume of the rock. It’s typically measured in grams per cubic centimeter (g/cm³) or kilograms per cubic meter (kg/m³).
2. **Porosity**: The percentage of void spaces (pores) within the rock. It affects the rock’s ability to hold fluids and can influence its strength and durability.
3. **Permeability**: The ability of fluids to flow through the rock. It depends on factors such as pore size, connectivity, and fluid viscosity.
4. **Compressive Strength**: The ability of the rock to withstand axial loads without failure. It’s typically measured in units of pressure, such as megapascals (MPa) or pounds per square inch (psi).
5. **Tensile Strength**: The ability of the rock to withstand tension forces without breaking. It’s usually lower than compressive strength and varies greatly depending on the type of rock.
6. **Shear Strength**: The resistance of the rock to sliding along internal planes. It’s important in engineering for stability analysis of slopes and foundations.
7. **Weathering Resistance**: The rock’s ability to withstand weathering processes such as freeze-thaw cycles, chemical dissolution, and abrasion.
8. **Abrasion Resistance**: The resistance of the rock to wearing away due to frictional forces.
9. **Elasticity**: The ability of the rock to deform reversibly under stress and return to its original shape when the stress is removed.
10. **Anisotropy**: Some rocks exhibit different properties depending on the direction of measurement due to their layered or foliated structure.
Understanding these properties is crucial in various fields such as civil engineering, geology, mining, and construction, as they dictate the suitability of the rock for specific applications and the methods needed for excavation, reinforcement, and support.
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