During this transform plate movement, the plates experiences friction and shearing, accompanied by compressive stress, thereby increases the transfer of heat. Due to this, the rocks in those region undergoes metamorphism process because of the high temperature and pressure condition.
Metamorphic rocks form when rocks change after undergoing extreme pressure or temperature increase. These temperature changes must be hot enough to reorganize matter within the rock but not hot enough to melt it.
The event at a transform boundary that can help form metamorphic rocks is the intense pressure and shear forces produced by the sliding of tectonic plates past each other. This pressure can cause existing rocks to recrystallize and change their mineral composition, creating metamorphic rocks.
At a transform fault boundary, the intense friction and pressure generated during the sliding motion of tectonic plates can lead to the formation of metamorphic rocks. This process, known as shear metamorphism, occurs as rocks are subjected to high stress and temperature conditions, causing mineralogical and structural changes. Additionally, the presence of hydrothermal fluids along these boundaries can further facilitate metamorphism, altering the mineral composition of the rocks involved.
An earthquake. ^^^^^^^^^^^ A earthquake can't do squat. That answer is wrong
Rocks that form at transform boundaries are typically fault rocks, such as fault breccia and mylonite. These rocks are characterized by intense deformation due to the shearing forces present at transform boundaries.
A crack in Earths's crust along which rocks move. It is created by a transform boundary.
A transform plate boundary, also known as a strike-slip boundary, causes faulting. This boundary occurs when two tectonic plates slide horizontally past each other, causing rocks to break along fault lines.
At transform boundaries, you will typically find rocks such as fault gouge, mylonite, and cataclasite. These rocks are formed due to intense shearing and fracturing processes that occur at transform boundaries as plates slide past each other horizontally.
shearing
At these boundaries, the rocks grind and slide against each other, causing earthquakes.
The process that is found at a divergent boundary that will help form metamorphic rocks is metamorphism. This refers to the change in the composition or structure of a rock by heat and pressure.
at a transform fault boundary does not experience any significant formation or destruction. Instead, it undergoes horizontal sliding past each other. This movement can result in earthquakes as the two plates grind against each other.