Because they look like poo!! Which means they look like you!!! YES YOOOUUUU! YOOOUUUUU! YOU LOOK LIKE POO AND YOU KNOW IT SO DONT DENY IT YOU POOOOO!!!!!
Pressure plays a significant role in the formation and transformation of rocks. High pressure can cause rocks to change their structure and composition, leading to the formation of new types of rocks through processes like metamorphism. This pressure can come from the weight of overlying rocks or tectonic forces, and it can also affect the temperature at which rocks form. Overall, pressure is a key factor in shaping the Earth's crust and the rocks within it.
Lithostatic pressure is the force exerted on rocks deep within the Earth due to the weight of overlying rocks. This pressure can cause rocks to compact, deform, and recrystallize, leading to the formation of new minerals and rock structures. It also influences the behavior of rocks by affecting their strength, density, and ability to flow or fracture under stress. Overall, lithostatic pressure plays a significant role in shaping the composition and properties of rocks within the Earth's crust.
No, erosion is not necessary for the formation of igneous rocks. Igneous rocks are formed from the cooling and solidification of magma or lava, which can occur below the Earth's surface or on the surface. Erosion can affect igneous rocks once they have been formed by breaking them down and transporting the sediments.
Two points here: rocks are solidified material--early Earth was molten. The first rocks appeared after the molten Earth cooled somewhat. Secondly, Earth's rocks are constantly being recycled through the 'rock cycle'. The oldest rocks on Earth have somehow survived those recycling efforts, but no rock found on Earth (other than some meteorites) is as old as the planet.
Weathering can only occur on the surface of the earth because the weather is only present on the surface of the earth. The surface of the earth refers to any exposed area.
it doesnt.
Rocks and the Rock Cycle. ROCKS: Rocks, rocks, rocks. Weathering is all about rocks.
Shearing affects the rocks in the earth's crust when the rocks are being pulled apart in opposite horizontal directions
Temperature and pressure are two key factors that affect rocks in the Earth's crust. These conditions can cause rocks to undergo changes such as metamorphism, melting, or deformation, leading to the formation of different types of rocks. Additionally, the presence of fluids and mineral compositions also play a significant role in influencing the properties of rocks in the crust.
The main force that affects the rocks on the earth's surface is heat and erosion. Erosion causes rocks to have landslides and heat changes their structure causing them to take place as different structures.
Pressure plays a significant role in the formation and transformation of rocks. High pressure can cause rocks to change their structure and composition, leading to the formation of new types of rocks through processes like metamorphism. This pressure can come from the weight of overlying rocks or tectonic forces, and it can also affect the temperature at which rocks form. Overall, pressure is a key factor in shaping the Earth's crust and the rocks within it.
the rocks is wet
Lunar rocks are those forming the Moon - as the word 'lunar' says. Earth rocks are formed on Earth - but the rock forming the Moon is also a constituent of the Earth.
The three main types of rocks on Earth are igneous, sedimentary, and metamorphic rocks. Igneous rocks are formed from the cooling and solidification of magma or lava. Sedimentary rocks are created from the accumulation and compaction of sediment particles. Metamorphic rocks are rocks that have undergone changes in temperature and pressure, often deep within the Earth's crust.
Yes, rocks are part of geology, which is an earth science.
Lithostatic pressure is the force exerted on rocks deep within the Earth due to the weight of overlying rocks. This pressure can cause rocks to compact, deform, and recrystallize, leading to the formation of new minerals and rock structures. It also influences the behavior of rocks by affecting their strength, density, and ability to flow or fracture under stress. Overall, lithostatic pressure plays a significant role in shaping the composition and properties of rocks within the Earth's crust.
Rocks were brought back to the Earth from the various Moon landings the Americans undertook. No other rocks from the Moon are on Earth. The Moon was formed from the Earth - so, if anything, there are Earth rocks on the Moon.