The answer is Earthquakes
At a transform boundary, plates slide past each other horizontally in opposite directions. This movement can cause earthquakes along the boundary.
At a transform boundary, tectonic plates slide past each other horizontally in opposite directions. This movement can cause earthquakes along the boundary.
A possible result of plates moving along a transform boundary is earthquakes. The movement of plates past each other along a transform boundary can result in sudden release of energy, causing the Earth's crust to shake and creating seismic waves.
A transform plate boundary occurs when two plates slide past one another horizontally. This movement can cause earthquakes along the boundary as the plates grind against each other. The San Andreas Fault in California is a well-known example of a transform plate boundary.
A transform plate boundary forms where two plates slide past one another horizontally. This movement can cause earthquakes due to the friction and pressure buildup along the boundary. An example of this type of boundary is the San Andreas Fault in California.
The answer is Earthquakes
No. it was along a convergent boundary.
No crust is created when a transform boundary pulls away from each other.
At a transform boundary, plates slide past each other horizontally in opposite directions. This movement can cause earthquakes along the boundary.
No crust is created when a transform boundary pulls away from each other.
At these boundaries, the rocks grind and slide against each other, causing earthquakes.
At a transform boundary, tectonic plates slide past each other horizontally in opposite directions. This movement can cause earthquakes along the boundary.
yes
This is a transform plate boundary. At transform boundaries, plates slide past each other horizontally. This movement can cause earthquakes due to the stress and friction along the boundary.
Along the San Andreas Fault line.
A possible result of plates moving along a transform boundary is earthquakes. The movement of plates past each other along a transform boundary can result in sudden release of energy, causing the Earth's crust to shake and creating seismic waves.
Plates moving along a transform boundary can result in earthquakes due to friction and stress buildup. The movement can also create faults and fractures in the Earth's crust.