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!
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
Erosion can occur on land or in water. It is usually caused by weathering from the sun or prolonged contact with water. For example, sand is composed of eroded rocks that over time have ground down to the granules that you see as sand. Wind and water contributed to the erosion of the rocks that make up sand..
The Colorado river gradually eroded the rocks, cutting the deep gorge we see today.
Look at the Grand Canyon. The Colorado River has eroded the rock (as it has risen due to other geological forces).
Some mixtures are easier to seperate than others because some mixtures are heterozygous mixtures. These mixtures are easier to seperate then others because you can see what is in them so you would know how to get them out.
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
well, lets see. weathering and ersion are both destructive fources, there for, they destroy Earth's surface.
Let's see. I believe that the crater has been covered in ash and sot. Your welcome!! =)
the answer is maybe a mechanical is the time where u run but the chemical is when you see not the tie so the right answer is the mechanical the time
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!! ^^^^^^^^_________^^^^^^^^^
Erosion can occur on land or in water. It is usually caused by weathering from the sun or prolonged contact with water. For example, sand is composed of eroded rocks that over time have ground down to the granules that you see as sand. Wind and water contributed to the erosion of the rocks that make up sand..
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..:)
Yes but they say that light blue is harder to see than yellow
Well, as the name implies, visible areas of the crust are areas that you can see. These are areas that are either very new, resulting from recent vulcanism; or areas which have been exposed by weathering and erosion. Non-visible parts of the crust are just that - not visible to the eye. This is either because they have formed recently, but many miles underground; or they are just too old to have been efficiently exposed by weathering and erosion.
no
The sun can cause a form of weathering known as thermal stress weathering / insolation weathering (or more informally as onion skin weathering). This is a process whereby surface material of a rock expands due to heating by the suns radiation and then contracts again when it cools at night. As only the surface of the rock undergoes this expansion and contraction it begins to de-laminate or break away from the underlying material due to the differential stresses that develop in the rock.
The arches were formed by erosion. There was formerly a rock whose mineral makeup was more susceptible to weathering below the rock that we see as the arch today. Since the lower rock weathered more easily, it eroded away before the rock above it, which continues to largely withstand weathering to this day because of its strong chemical composition.