Normal Fault Hanging Wall Movement

They are identified by the relative movement of the hanging wall and foot wall.

Normal fault hanging wall movement.

Faults are subdivided according to the movement of the two blocks. Faults are classified according to the direction of relative movement along the fault. They are caused by extensional tectonics. A downthrown block between two normal faults dipping towards each other is a graben.

In a normal fault the hanging wall moves downwards relative to the foot wall. The hanging wall moves up and over the footwall. Hanging wall movement determines the geometric classification of faulting. Fault types three main types of faults.

They bound many of the mountain ranges of the world and many of the rift valleys found along spreading margins. We distinguish between dip slip and strike slip hanging wall movements. Tensional faults are produced through tension extension or pulling apart of the crust causing the hanging wall to move down relative to the footwall. Normal dip slip faults are produced by vertical compression as earth s crust lengthens.

In a normal fault the hanging wall moves downward relative to the footwall. Normal faults are common. The forces creating reverse faults are compressional pushing the sides together. If the motion was down the fault is called a normal fault if the movement was up the.

The terms hanging wall and foot wall refer to the relative position of the plates after movement. Low angle normal faults with regional tectonic significance may be designated detachment faults. Thrust faults with a very low angle of dip and a very large total displacement are called overthrusts or detachments. Thrust faults are reverse faults that dip less than 45.

There are three or four primary fault types. A dip slip fault in which the block above the fault has moved downward relative to the block. Economic minerals often grow along faults and these terms come from where a miner would stand and where they would hang their lantern. In this type of fault the hanging wall and footwall are pushed together and the hanging wall moves upward along the fault relative to the footwall.

Faults showing vertical movement include tensional normal and compressional reverse faults. These are often found in intensely deformed. Reverse dip slip faults result from horizontal compressional forces caused by a shortening or contraction of earth s crust. Other articles where normal fault is discussed.

Reverse faults form when the hanging wall moves up. Dip slip movement occurs when the hanging wall moved predominantly up or down relative to the footwall. An upthrown block between two normal faults dipping away from each other is a horst. This is literally the reverse of a normal fault.

Together normal and reverse faults are called dip slip faults because the movement on them occurs along the dip direction either down or up respectively. The hanging wall slides down relative to the footwall.