Gravity speeds them up.
No, avalanches can also consist of ice, rock, soil, and debris.
One cause of landslides and avalanches is heavy rainfall or melting snow, which can saturate the ground and destabilize slopes, leading to the movement of debris and rock downhill.
The speed required to move a rock with wind depends on the rock's size, shape, and weight. Generally, wind speeds of at least 20-30 miles per hour are needed to significantly move small rocks, while larger rocks may require much stronger winds exceeding 40-50 miles per hour.
Avalanches can start when a layer of snow collapses and slides downhill. Factors such as weather conditions, such as heavy snowfall, warming temperatures, or strong winds, can trigger avalanches. Terrain features like steep slopes or rock outcroppings can also contribute to avalanche formation.
How does a convection current move rock
No, avalanches can also consist of ice, rock, soil, and debris.
rock slides
lava
Some of the fastest forms of mass wasting besides avalanches include rockfalls and debris flows. Rockfalls are sudden and rapid movements of individual rock fragments down a slope, while debris flows are fast-moving mixtures of water, rock, and soil that can travel downhill at high speeds. Both of these processes can be triggered by factors like heavy rainfall, earthquakes, or human activities.
Avalanches and rock slides are the fastest forms of mass wasting.
because debris avalanches occur in steep valleys, and are made up of more solid matter than debris flows. debris avalanches are the direct cause of debris flows, which are fluid flows of water, rock and sediment.
pyroclastic , STRAIGHT OUTTA THE TEXT BOOK (:
One cause of landslides and avalanches is heavy rainfall or melting snow, which can saturate the ground and destabilize slopes, leading to the movement of debris and rock downhill.
The speed required to move a rock with wind depends on the rock's size, shape, and weight. Generally, wind speeds of at least 20-30 miles per hour are needed to significantly move small rocks, while larger rocks may require much stronger winds exceeding 40-50 miles per hour.
The tectonic plates move because of the great amount of liquid rock, or magma that they 'float' on and get pushed by.
pyroclastic , STRAIGHT OUTTA THE TEXT BOOK (:
move the red rock to the yellowish rock then move the white rock on that stack then move the grey rock on the biggest rock then move the white rock on the the grey rock move the red rock on the stick that doesn't have a rock the move the white rock on the red one then the yellowish rock on the grey one then move the white rock on the stick with no rock put the red rock on the stack and to top it off put the white rock on top