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When heavier elements sink toward the core and lighter elements rise to the top the Earth is said to be what?
The Earth is said to be undergoing differentiation when heavier elements sink towards the core and lighter elements rise to the top. This process results in the formation of distinct layers within the Earth based on differences in density.
How did rock density affect the formation of earth?
As the earth formed, the heavier, more dense elements sunk toward the center, while the lighter, less dense ones stayed near the surface. The result was layers of rocks of similar density.
What physical property causes earth's core to be made up of heavier elements including metals such as iron and earth's crust to be made of lighter elements such as silicon?
Density.
What cause our planet to separate into layers?
As the earth formed from the mix of elements in surrounding space, the heavier elements wound up at the bottom of the pile (earth's core) the lighter elements collecting above them. This happened when the earth was still essentially molten (4 billion years ago).
How many times earth is bigger than mercury?
99000 times lighter than earth.
When heavier elements sink toward the core and lighter elements rise to the top the Earth is said to be what?
The Earth is said to be undergoing differentiation when heavier elements sink towards the core and lighter elements rise to the top. This process results in the formation of distinct layers within the Earth based on differences in density.
Why is the earth's outermost layer composed mostly of lighter elements?
The Earth's outermost layer, the crust, is composed mostly of lighter elements like oxygen and silicon because these elements are more buoyant and rise to the surface during the Earth's formation due to differentiation. Heavier elements tend to sink towards the Earth's core, leaving lighter elements to form the crust.
How did density affect the formation of earth's layers?
As the earth formed, the heavier, more dense elements sunk toward the center, while the lighter, less dense ones stayed near the surface. The result was layers of rocks of similar density.
How did rock density affect the formation of earth?
As the earth formed, the heavier, more dense elements sunk toward the center, while the lighter, less dense ones stayed near the surface. The result was layers of rocks of similar density.
What physical property causes earth's core to be made up of heavier elements including metals such as iron and earth's crust to be made of lighter elements such as silicon?
Density.
How did rock affect the formation of earths layers?
As the earth formed, the heavier, more dense elements sunk toward the center, while the lighter, less dense ones stayed near the surface. The result was layers of rocks of similar density.
What cause our planet to separate into layers?
As the earth formed from the mix of elements in surrounding space, the heavier elements wound up at the bottom of the pile (earth's core) the lighter elements collecting above them. This happened when the earth was still essentially molten (4 billion years ago).
Is mercury's gravity heavier or lighter than earth's gravity?
Much lighter. If you weighed 180 pounds on earth you would weigh 68.4 pounds on Mercury.
How many times earth is bigger than mercury?
99000 times lighter than earth.
How did the layers of earth end up being arranged in order of density?
The layers of the Earth have arranged themselves in order of density due to a process called differentiation that occurred early in the Earth's formation. During this process, the heavier elements sank towards the Earth's core, creating layers based on their density. This resulted in the current layered structure of the Earth, with the densest materials at the center and lighter materials towards the surface.
Why do less dense compounds make up earths crust while the densest compounds make up the core?
because the heavier elements are pulled toward center of the earth by gravity
How is a supernova related to matter found on earth?
A supernova is a star that explodes. Stars about the size of our Sun explode when they run out of "fuel". The fuel they have is Hydrogen which they fuse into Helium and thus convert mass into energy (they shine brightly), Then the Helium and some Hydrogen are fused into heavier elements (Lithium etc) making more energy. All elements heavier than Carbon and lighter than Iron are made in the supernova explosion that comes at the end of the star's "life". Heavier stars will make even heavier elements. The Earth is mostly made of these heavier elements. We are all stardust.
