Faults and Folds
Jan 12, 2016
Faults and Folds
UpliftUplift
Mount EverestMount Everest
French AlpsFrench Alps
Normal Fault
In normal faulting, the hanging wall block moves down relative to the footwall block. The fault plane usually makes a high angle with the surface (> 45 degrees). Normal faults are associated with crustal tension.
Reverse Fault
In reverse faulting, the hanging wall block moves up relative to the footwall block. The fault plane usually makes a low angle with the surface (< 45 degrees). Reverse faults are associated with crustal compression and are also known as thrust faults.
Strike-slip Fault
In strike-slip faulting, the two blocks move either to the left or to the right relative to one another.
Joints have many important properties as planes of weakness in rock masses:
Joints and other discontinuities such as faults, cleavage, metamorphic foliation, and bedding planes control many important properties of rock masses including:
Strength
Compressibility
Permeability
GEOLOGIC STRUCTURES
• Importance of geologic structures– Oil and natural gas are formed and found
trapped in subsurface folds– Faults, joints, and fractures can act as a
passageway for groundwater and host for valuable mineral deposits as ores of gold, silver and copper, etc.
– Unconformities can be used to mark geologic time boundaries