The diagram shows physical weathering through the process of frost wedging. Water seeps into cracks in the rock, freezes, expands, and causes the rock to break apart. Over time, this repeated cycle leads to the gradual breakdown of the rock into smaller pieces.
A simple particle diagram for the weathering process could show a large rock breaking down into smaller particles due to physical weathering, such as freeze-thaw. The diagram would illustrate the rock splitting into smaller pieces as water enters cracks, freezes, and expands, causing the rock to fragment. This process eventually leads to the formation of smaller particles like gravel, sand, and silt as the rock continues to weather over time.
Carbonation weathering is a chemical weathering process where carbon dioxide from the atmosphere reacts with minerals in rocks, such as calcium carbonate, to form new compounds like calcium bicarbonate. This reaction weakens the structure of the rock, leading to its breakdown and erosion over time. The diagram would show rocks being exposed to carbon dioxide, leading to the formation of carbonic acid and subsequent weathering of the rock.
Which statement is best supported by the information provided in the reference diagram of the Rock CycleinEarth's Crust?1. Igneous rocks are formed from eroded sediments 3. Metamorphic rocks are formed by the completeof metamorphic rocks. melting of any other rock.2. Sedimentary rocks are composed of intergrown 4. Rocks may be formed from other rocks by variouscrystals. processes.Answer: 4
It is your fault in not including diagram a!
The main reason that the HR Diagram is so useful and important to scientists is, you can tell the size of the star by plotting it on the HR Diagram. The different sizes of stars form a pattern on the HR diagram.
Physical activity
retype the question
well.. a chemical weathering process is acid rain, so you could do a particle diagram for fizzing- reaction with acid rain. or. a physical weathering process is melting, so you could do a particle diagram for melting. hope this has helped :).
Weathering processes act on a cliff face through physical and chemical mechanisms. Physical weathering, such as freeze-thaw cycles and salt crystallization, causes rock to break apart into smaller fragments. Chemical weathering, like oxidation and hydration, alters the mineral composition of the rock. Over time, these processes can cause the cliff face to erode and change in appearance.
A simple particle diagram for the weathering process could show a large rock breaking down into smaller particles due to physical weathering, such as freeze-thaw. The diagram would illustrate the rock splitting into smaller pieces as water enters cracks, freezes, and expands, causing the rock to fragment. This process eventually leads to the formation of smaller particles like gravel, sand, and silt as the rock continues to weather over time.
Without the relevant diagram, it is not possible to answer the question.
A+
Weathering is the breaking down of rock and erosion carries it away. Both of them contribute in some way to the formation of new soil.
The final outcome of using the cause-and-effect (Fishbone) diagram is to identify the problem statement.
The final outcome of using the cause-and-effect (Fishbone) diagram is to identify the problem statement.
A plot diagram.
Carbonation weathering is a chemical weathering process where carbon dioxide from the atmosphere reacts with minerals in rocks, such as calcium carbonate, to form new compounds like calcium bicarbonate. This reaction weakens the structure of the rock, leading to its breakdown and erosion over time. The diagram would show rocks being exposed to carbon dioxide, leading to the formation of carbonic acid and subsequent weathering of the rock.