How do the mass and the density of the mantle compare with the mass and density of Earth’s core?(1 point)
Responses
The mantle’s mass and its density are less than that of the core.
The mantle’s mass and its density are less than that of the core.
The mantle’s mass is less than the core’s mass, but with greater density.
The mantle’s mass is less than the core’s mass, but with greater density.
The mantle’s mass and its density are greater than that of the core.
The mantle’s mass and its density are greater than that of the core.
The mantle’s mass is greater than the core’s mass, but with less density.
Well, the mantle and the core are kind of like the odd couple of the Earth's interior. The mantle's mass is indeed greater than the core's mass, but it compensates by having less density. It's like the mantle went on a diet and lost some pounds but kept the flavor. So to sum it up, the mantle's mass is greater than the core's mass, but with less density.
The correct response is: The mantle’s mass is less than the core’s mass, but with greater density.
To understand why this is true, we need to understand the composition and structure of Earth. The Earth consists of several layers, with the mantle and core being two of them. The mantle is the layer between the crust and the core.
The mantle is composed mainly of solid rock and is less dense compared to the core. It has a relatively lower mass than the core. The core, on the other hand, is composed mainly of iron and nickel and is much denser compared to the mantle. It has a higher mass than the mantle.
So, while the mantle has a lower mass compared to the core, it compensates for its lower mass by having a greater density. This means that even though the mantle has less material in terms of mass, it is packed more tightly and denser than the core.
The correct response is:
The mantle’s mass is less than the core’s mass, but with greater density.