answersLogoWhite

0

Physical weathering would be least common in extremely cold polar regions, such as Antarctica, where freeze-thaw cycles are limited due to consistently low temperatures. Without the repeated cycles of freezing and thawing, which cause physical weathering through ice wedging, the rate of physical weathering is significantly reduced in these areas.

User Avatar

AnswerBot

1y ago

What else can I help you with?

Continue Learning about Earth Science

Where on earth with physical weathering from temperature changes be least common?

Physical weathering from temperature changes would likely be least common in regions with stable and moderate climates, such as tropical rainforests or areas along the equator where there are minimal temperature fluctuations throughout the year.


Where on earth would physical weathering from temperature changes be least common?

Physical weathering from temperature changes would be least common in polar regions where temperatures remain consistently low, as there is little variation in temperature to cause the expansion and contraction of rocks.


Where on earth would physical weathering from temperature changes be least common and why?

In cold regions because ice wedging also known as frost wedging physically breaks apart rocks.Ice wedging causes cracks in rock to expand as water seeps in and freezes. So colder regions is where it is least common for physical weathering to occur from temperature changes.


Refers to the group of destructive processes that change the physical and chemical character of rocks at the earth's surface?

Weathering refers to the group of destructive processes that change the physical and chemical character of rocks at the Earth's surface. It includes processes like mechanical weathering, chemical weathering, and biological weathering that break down rocks into smaller particles or alter their composition.


Where on earth would physical weathering from temperature changes MOST common and why?

Physical weathering from temperature changes is most common in regions with extreme temperature fluctuations, such as deserts or high mountain areas. These areas experience large temperature variations between day and night, causing rocks to expand and contract, leading to weathering. Additionally, regions with frequent freeze-thaw cycles, like in polar regions or high altitudes, are also prone to temperature-induced weathering.

Related Questions

Where on earth would physical weathering from temperature changes be least common why?

jamiaca


Where on earth with physical weathering from temperature changes be least common?

Physical weathering from temperature changes would likely be least common in regions with stable and moderate climates, such as tropical rainforests or areas along the equator where there are minimal temperature fluctuations throughout the year.


Where on earth would physical weathering from temperature changes be least common?

Physical weathering from temperature changes would be least common in polar regions where temperatures remain consistently low, as there is little variation in temperature to cause the expansion and contraction of rocks.


Where on earth would physical weathering from temperature changes be least common and why?

In cold regions because ice wedging also known as frost wedging physically breaks apart rocks.Ice wedging causes cracks in rock to expand as water seeps in and freezes. So colder regions is where it is least common for physical weathering to occur from temperature changes.


Where on earth would physical weathering from temperature chang be most common?

Physical weathering from temperature changes is most common on the shorelines, because waves are able to take down rocks that have been weathers. They would be least noticeable inland, in desert areas with little forestation.


Where on earth would most physical from temperature changes be most common?

Physical weathering from temperature changes is most common on the shorelines, because waves are able to take down rocks that have been weathers. They would be least noticeable inland, in desert areas with little forestation.


Which physical process has helped build up Earth's surface?

weathering


Which process involves either a physical or chemical breakdown of earth materials?

Weathering is the process that involves the physical or chemical breakdown of Earth materials. Physical weathering involves the mechanical breakdown of rocks into smaller pieces, while chemical weathering involves the breakdown of minerals in rocks through chemical reactions with water, air, or other substances.


Refers to the group of destructive processes that change the physical and chemical character of rocks at the earth's surface?

Weathering refers to the group of destructive processes that change the physical and chemical character of rocks at the Earth's surface. It includes processes like mechanical weathering, chemical weathering, and biological weathering that break down rocks into smaller particles or alter their composition.


Where on earth would physical weathering from temperature changes MOST common and why?

Physical weathering from temperature changes is most common in regions with extreme temperature fluctuations, such as deserts or high mountain areas. These areas experience large temperature variations between day and night, causing rocks to expand and contract, leading to weathering. Additionally, regions with frequent freeze-thaw cycles, like in polar regions or high altitudes, are also prone to temperature-induced weathering.


Weathering is also known as?

Weathering is also known as the breakdown of rocks and minerals at the Earth's surface through processes like mechanical weathering (physical disintegration) and chemical weathering (chemical decomposition).


Does weathering break down rock at or near the earths surface?

Yes, weathering breaks down rock at or near the Earth's surface through physical or chemical processes. Physical weathering involves the physical breakdown of rock into smaller pieces, while chemical weathering involves the breakdown of rock through chemical reactions. Both processes play a key role in shaping the Earth's landscape over time.