Want this question answered?
high pressure and temperature
In high pressures
it is when something breaks from its original shape and cannot return to its original form
Faulting and folding (also known as brittle and ductile deformation). Please see the related links.
The deformation of rocks is dependent on the surface is which they are created. Rocks are deformed when they are in a compromised space when created.
high pressure and temperature
In high pressures
Plastic deformation, either elastic or ductile.
it is when something breaks from its original shape and cannot return to its original form
Faulting and folding (also known as brittle and ductile deformation). Please see the related links.
Faulting and folding (also known as brittle and ductile deformation). Please see the related links.
Faulting and folding (also known as brittle and ductile deformation). Please see the related links.
The deformation of rocks is dependent on the surface is which they are created. Rocks are deformed when they are in a compromised space when created.
Faulting is a type of brittle deformation; rocks crack and then move along those cracks. Deep inside Earth rocks are hotter and softer, so they will deform in a ductile manner, stretching and flowing like taffy.
deformation
Internal Controlling Factors: Strength: The strength of the rock determines the amount of deformation that can occur before it fractures. Different types of rocks have different strengths, so the amount of deformation that can occur will vary depending on the type of rock. 2. Temperature: The temperature of the rock determines the amount of deformation that can occur. When rocks are heated, they become more ductile and can deform more easily than when they are cold. 3. Composition: The chemical composition of the rock can also influence its ability to deform. Rocks with higher amounts of silica tend to deform more easily than rocks with lower amounts. External Controlling Factors: Pressure: The external pressure applied to the rock can influence the amount of deformation it can endure. Higher pressures tend to cause rocks to deform more easily than lower pressures. 2. Stress: The type of stress applied to the rock can also influence how much deformation it can endure. Different types of stresses can cause different amounts of deformation. 3. Time: The amount of time over which the deformation takes place can also influence the amount of deformation that can occur. Deformation can occur over
Gneiss is brittle. Actually, very few rocks are ductile by definition. Most rocks are not maleable unless under extreem heat.