A reverse fault forms when a hanging wall moves upward due to compressional forces. This type of fault occurs in areas where the crust is being pushed together, causing the hanging wall to move up and the footwall to move down.
A normal fault causes the land to move downward. This type of fault is formed when the hanging wall drops down relative to the footwall, often due to tensional forces pulling the plates apart.
In a normal fault, the hanging wall moves downward relative to the footwall, creating extensional forces. In a reverse fault, the hanging wall moves upward relative to the footwall, generating compressional forces.
In a reverse fault, compression (plates crashing together) causes the hanging wall to move up. In a normal fault, tension ( plates pulling apart) causes the footwall to push up.
This is called a reverse or thrust fault.
Reverse
normal fault
In a lateral fault, the hanging wall moves horizontally in relation to the footwall. This type of fault occurs when the blocks of rock on either side of the fault move horizontally past each other. The hanging wall moves in the direction of the fault line, while the footwall remains relatively stationary.
A reverse fault forms when a hanging wall moves upward due to compressional forces. This type of fault occurs in areas where the crust is being pushed together, causing the hanging wall to move up and the footwall to move down.
A normal fault causes the land to move downward. This type of fault is formed when the hanging wall drops down relative to the footwall, often due to tensional forces pulling the plates apart.
In a normal fault, the hanging wall moves downward relative to the footwall, creating extensional forces. In a reverse fault, the hanging wall moves upward relative to the footwall, generating compressional forces.
thrust
normal faults move from tension while the hanging wall goes up
In a reverse fault, compression (plates crashing together) causes the hanging wall to move up. In a normal fault, tension ( plates pulling apart) causes the footwall to push up.
A normal fault moves because it is under tension. In a normal fault, the hanging wall moves down relative to the footwall due to the pulling apart of the Earth's crust, creating space and tension that cause the fault to move.
reverse fault. but that is when the foot wall moves down, the hanging wall moves up. in a strike-slip fault, they slide past each other, the foot wall and hanging wall are not there because it has to be like this to be a reverse or normal fault: hanging wall ----------foot wall ----------- in this diagram, the foot wall has moved down making the hanging wall move up to form a reverse fault. remember this on tests: the hanging wall is always above the fault line: /hanging wall above foot wall below / /
The answer would be upward