it is under so much pressure form the rest of the earth it behaves like a solid.
The outer core is liquid and composed of molten iron and nickel, while the inner core is solid due to the extreme pressure at its center. The outer core's movement creates Earth's magnetic field, while the inner core's solidification is thought to be a result of cooling over time.
The Earth's inner core is a solid ball of iron and nickel at the center of the planet, while the outer core is a layer of molten iron and nickel surrounding the inner core. The inner core is believed to be solid due to high pressure, while the outer core is liquid due to lower pressure and higher temperatures. The movement of the molten outer core is thought to generate Earth's magnetic field.
well i learnt this in yr 5 when i did a project the crust is what we walk on then theres the mantle below the crust then there is the outer core which is below the mantle then there is the inner core which is in the centre of the earth so the answer to your question would be 'the outer core'
The inner core of the Earth is a solid iron-nickel alloy with a radius of about 1220 kilometers. It is the densest layer of the Earth and produces the planet's magnetic field through the movement of molten iron in the outer core. The inner core is believed to have formed as a result of solidification of the outer core due to decreasing temperatures and increasing pressure.
The layer beneath the mantle and surrounding the inner core is the outer core. The outer core is composed mostly of liquid iron and nickel. Its movement is responsible for generating Earth's magnetic field.
The outer core is liquid and composed of molten iron and nickel, while the inner core is solid due to the extreme pressure at its center. The outer core's movement creates Earth's magnetic field, while the inner core's solidification is thought to be a result of cooling over time.
The inner core of the Earth rotates in an eastward direction, which is the same direction as the Earth's overall rotation. This rotation is believed to be caused by the movement of the molten outer core surrounding it.
The inner core of Earth is believed to be in a solid state, primarily composed of iron and nickel. This solid inner core is surrounded by a liquid outer core, which is responsible for generating the planet's magnetic field through convection currents and the movement of molten metal. The extreme pressure at the center of the Earth keeps the inner core solid despite the high temperatures.
The Earth's inner core is a solid ball of iron and nickel at the center of the planet, while the outer core is a layer of molten iron and nickel surrounding the inner core. The inner core is believed to be solid due to high pressure, while the outer core is liquid due to lower pressure and higher temperatures. The movement of the molten outer core is thought to generate Earth's magnetic field.
The fast movement of seismic waves through the Earth's inner core suggests that it is solid and composed primarily of iron and nickel. This rapid transmission indicates high density and rigidity, supporting the idea that the inner core is under immense pressure. Additionally, the distinct behavior of these waves helps scientists infer the inner core's temperature and composition, furthering our understanding of Earth's internal structure.
well i learnt this in yr 5 when i did a project the crust is what we walk on then theres the mantle below the crust then there is the outer core which is below the mantle then there is the inner core which is in the centre of the earth so the answer to your question would be 'the outer core'
The scientific name for the Earth's inner core is "Earth's solid inner core."
The inner core.
The inner core
The Earth's inner core and outer core interact through the process of convection. Heat from the inner core causes the outer core to heat up and become less dense, leading to the movement of molten iron and nickel in a circular pattern. This convection motion generates the Earth's magnetic field.
The primary difference between Earth's inner core and outer core is their physical state; the inner core is solid due to immense pressure, while the outer core is liquid. Additionally, the inner core is primarily composed of iron and nickel, whereas the outer core also contains lighter elements like sulfur and oxygen. This difference in state contributes to the generation of Earth's magnetic field, as the movement of the liquid outer core creates convection currents.
The inner core of the Earth is a solid iron-nickel alloy with a radius of about 1220 kilometers. It is the densest layer of the Earth and produces the planet's magnetic field through the movement of molten iron in the outer core. The inner core is believed to have formed as a result of solidification of the outer core due to decreasing temperatures and increasing pressure.