subduction? I'm not sure.
The respective terrain is made up of mountain tops and slopes, so...
Yes
The phenomenon of gas diffusion.
Major mountain belts are commonly found along convergent plate boundaries, where two tectonic plates collide and force the crust to uplift and fold. This process results in the formation of large mountain ranges, such as the Himalayas and the Andes.
The driving force of tectonics is primarily the heat from the Earth's interior, which generates convection currents in the mantle. These currents cause the tectonic plates to move and interact at their boundaries, leading to various geological phenomena such as earthquakes, volcanic activity, and mountain building. Additionally, gravity plays a role in driving plate motion through processes like slab pull and ridge push. Together, these forces shape the Earth's surface over geological time.
In fact you are attracted to the building's mass, but by a very tiny quantity.A number of experiments have been devised to measure this force, and those of Mitchell, and of Cavendish are notable. (Check out Cavendish balance.)One experiment, the Schiehallion experiment measured the lack of parallelism of measurements made on opposite sides of a mountain, looking at astronomical targets to measure G.Surveying close to a large mountain mass has an error due to the mass of the mountains, of importance near the Andes and the Himalaya.
Competition would be the driving force of exclusion
The force that causes a rock to roll down the side of a mountain is primarily gravity. Gravity pulls the rock downward toward the center of the Earth, and when the rock is on an incline, this force causes it to accelerate down the slope. Additionally, friction between the rock and the surface may influence its movement, but gravity is the dominant force driving it downward.
The force of gravity pulls a snowboarder down a mountain, causing them to accelerate and move downhill. This force is responsible for the snowboarder gaining speed and ultimately reaching the bottom of the mountain.
blee
blee
The Force on Thunder Mountain - 1978 is rated/received certificates of: UK:U