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because erosion is the carrying away of rocks and stuff, and weathering is the wearing away or breaking down of rocks and other stuff. so you can see the rocks that got carried away from their original spot but its kind of hard to see the breaking down of rocks. hope that helps!
What else can I help you with?
Which process weathering or erosion is easier to see actually taking place?
Why is erosion easier to see than weatheringHow can the process of erosion take placeWhat caused the weathering or erosion take placeWhere does weather erosion mostly take placeDoes weathering take place before or after erosionDoes weathering need to occur before erosion takes placeDoes weathering must take place before erosionWhy is weathering important to the process of erosionWhich process is faster erosion or weatheringWhat does ice have to do with the process of weathering and erosionB1TCH
Names places where natural forces that break down rocks happens?
Natural forces that break down rocks occur in various places, including mountainous regions where weathering and erosion are prevalent due to wind and water. Coastal areas experience significant rock breakdown from wave action and salt weathering. Additionally, deserts see mechanical weathering from temperature fluctuations, while riverbanks undergo erosion from flowing water. These processes are fundamental in shaping landscapes across the globe.
How can a valley be formed by erosion and weathering?
A valley can be formed by erosion and weathering when a river or stream cuts through the land over time, wearing away the softer rock and soil. Additionally, weathering processes like freeze-thaw cycles and chemical weathering can break down the rocks along the valley walls, deepening and widening the valley over time.
Is weathering constructive or destructive?
I can answer that with another question...is the glass half full for half empty? and like that question it depends on your point of view, and if you see the formation of landscapes as constructive...or destructive! In short its always happened and it always will..
Why does landforms exists?
Landforms exist due to a combination of geological processes, including tectonic activity, erosion, weathering, and sediment deposition. Tectonic forces can create mountains and valleys by uplifting or collapsing the Earth's crust. Erosion and weathering shape these landforms over time by breaking down rocks and transporting materials, while sediment deposition can form features like deltas and beaches. The interaction of these processes over millions of years results in the diverse landscapes we see today.
Which process weathering or erosion is easier to see actually taking place?
Why is erosion easier to see than weatheringHow can the process of erosion take placeWhat caused the weathering or erosion take placeWhere does weather erosion mostly take placeDoes weathering take place before or after erosionDoes weathering need to occur before erosion takes placeDoes weathering must take place before erosionWhy is weathering important to the process of erosionWhich process is faster erosion or weatheringWhat does ice have to do with the process of weathering and erosionB1TCH
Which process-weathering or erosion easier to see actually taking place?
Erosion is generally easier to see taking place because it involves the physical movement of rocks, minerals, and soil. This movement can be observed through processes such as rivers carving out canyons or coastlines being reshaped by waves. In contrast, weathering typically occurs at a slower rate and involves the breakdown of rocks and minerals into smaller particles, which may be less conspicuous.
Where on Earth do we see weathering and erosion?
Weathering and erosion can be seen all over the world, from river valleys carved into mountains to coastal cliffs eroded by the ocean. Examples include the Grand Canyon in the United States, where weathering and erosion have created a vast canyon, and the Great Barrier Reef in Australia, where erosion and weathering play a role in shaping the reef structure.
Why is Weathering important to erosion?
weathering breaks down rocks, which makes the sediment easy to be transported
How does weathering and erosion effect earths surface?
well, lets see. weathering and ersion are both destructive fources, there for, they destroy Earth's surface.
What has erosion and weathering caused on MtStHelens?
Let's see. I believe that the crater has been covered in ash and sot. Your welcome!! =)
How does erosion and weathering create the Kentucky cave systems?
Erosion and weathering of limestone rock over millions of years in Kentucky have created the cave systems. Water, containing carbonic acid from the atmosphere, gradually dissolves the limestone, creating cracks and passages that eventually form caves. Over time, these processes can lead to the formation of intricate cave networks that we see in Kentucky today.
What can cause a slow change to the earth's surface?
Processes such as weathering, erosion, volcanic activity, and tectonic movements can cause slow changes to the Earth's surface over time. These processes gradually shape and reshape the landforms we see today.
How the Grand Canyon got its name?
well what do you think when you see it Grand Canyon well. its reallt big and tall large and deep so they called is Grand and its a canyon so hence you have the Grand Canyon!! ^^^^^^^^_________^^^^^^^^^
How do weathering and erosion shape earth's surface?
Weathering breaks down rocks into smaller pieces, while erosion transports these pieces to different locations. Together, they gradually shape Earth's surface by wearing down mountains, carving out valleys, and creating unique landforms such as beaches and canyons. Over time, this continuous process influences the landscape we see today.
Is the great sphinx still in good condition?
I believe it is, in an alright condition, weathering and erosion, eats away the sandstone, but at least you can still see the majestic structure.. And it had lost it's nose..:)
How did weathering help the shape the appalanchian mountains?
Weathering helped shape the Appalachian Mountains by breaking down rock and soil over time through processes like mechanical and chemical weathering. This allowed for erosion and the gradual uplift of the mountains through tectonic activity, resulting in the distinctive shape and formation of the Appalachian range we see today.
