When the material gets closer to the core it gets hotter and more dense.
The answer is a cuz ais closer.
Because its closer to the mantle and the core.
The answer depends on where points b and c are!
As you go deeper into the Earth, both temperature and density increase. The increase in temperature is due to the Earth's molten core and radioactive decay in the mantle. Density increases because of the weight of the overlying rock pushing down on the material below.
Changing the size of a material does not affect its density. Density is a characteristic property of a material that remains the same regardless of its size or shape. Density is calculated by dividing the mass of a material by its volume.
Raising the temperature the density is lowered.
The movement of material due to differences in density caused by differences in temperature is called convection.
Higher the temperature the lower the density
As point D turns right to Point A the temperature increases and the density decreases
Aluminum's density is 2.698
The characteristics of color, size, shape, temperature, and pressure can influence the density of a material. For example, temperature affects density as substances typically expand when heated, decreasing their density, while cooling generally increases density. Pressure can also increase density, particularly in gases, as compressing a material decreases its volume without changing its mass. However, color, size, and shape do not directly affect density but can indicate material properties or influence how density is measured in specific contexts.
The density of a substance can vary due to differences in temperature, pressure, and impurities present in the material. Changes in temperature can cause the molecules to move further apart or closer together, affecting the overall density. Pressure can also compress or expand the material, altering its density. Additionally, impurities or variations in the material's composition can result in differences in density.