The answer is...
Shearing affects the rocks in the earth's crust when the rocks are being pulled apart in opposite horizontal directions
Temperature changes make rocks expand and contract and it is one of the important cause of mechanical weathering. Water abrasion is the other important cause. Wind and moving water cause rocks to rub against each other and the rocks could well break into smaller pieces.
Glaciers not only transport material as they move, but they also sculpt and carve away the land beneath them. A glacier's weight, combined with its gradual movement, can drastically reshape the landscape. Over hundreds or even thousands of years, the ice totally changes the landscape. The ice erodes the land surface and carries the broken rocks and soil debris far from their original places, resulting in some interesting glacial landforms
The force of ice being pulled down by gravity can create sufficient movement to displace all but the largest or most well-anchored rocks. Glacial movement can slide rocks several tons in weight.
There is only the four vehicles, water, wind, ice, gravity. This is really easy to remember when you use my teacher's motions.
Ice with rocks in it.
Would you like your drink neat or on the rocks? -->> neat = without ice just as it is on the rocks = with ice
It breaks from ice wedging
Which rocks are exposed to more wind, rain, and ice
ice and loose rocks
Rocks refers to ice cubes. A drink served on the rocks means that it is poured over ice cubes, and served with the ice cubes in the drink.
Chemical weathering affects rocks rain, wind or ice . Chemical weathering is the process that changes the composition ( the inside) of rocks on the earth surface.
Which rocks are exposed to more wind, rain, and ice
the rocks is wet
The effects of ice wind and rain on rocks is called erosion.
Ice.
Comets are made mainly from ice, with a slight mixture of small rocks and dust.