The hanging wall is the block of rock that lies above an inclined fault plane or dip in the Earth's crust. It moves down relative to the footwall during faulting or mining activities.
No, a picture hanging on the wall does not have kinetic energy because it is not in motion. Kinetic energy is the energy possessed by an object due to its motion.
A picture hanging on the wall has potential energy. If it comes loose, it will fall, converting the potential energy to kinetic energy.
The picture hanging on a wall has potential energy due to its position above the ground. When the picture is lifted higher, its potential energy increases, and when it is lowered, the potential energy decreases.
The main forces that affect a picture hanging on a nail on a wall are gravity pulling the picture downwards, tension in the nail supporting the weight of the picture, and the frictional force between the picture frame and the wall that keeps it from sliding.
a normal fault, which is caused by tensional forces pulling apart the Earth's crust. This movement results in the hanging wall dropping relative to the footwall, creating a sloping fault plane.
In geology, the hanging wall refers to the rock layer above a fault plane, while the footwall refers to the rock layer below the fault plane. The hanging wall moves downward relative to the footwall in a normal fault, whereas in a reverse fault, the hanging wall moves up relative to the footwall.
There were 10 green bottles hanging on the wall.
Hanging Wall
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 / /
you would call it a normal fault because the hanging wall goes down and the foot wall goes up and over the hanging wall.
because the dry wall isn't suposesd to go all the way to the ground
no
ar·ras (rs) n. pl. arras1. A wall hanging; a tapestry.2. A curtain or wall hanging, especially one of Flemish origin.
thrust
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.
The location on the surface of the earth immediately above the origin of a fault is called the "epicenter."
In a normal fault, the hanging wall moves down relative to the foot wall.