The effect that Earth's gravity has on other planets and the sun can be calculated. This degree of gravity that is demonstrated points to a heavy core that is metal. Fragments of nickel-iron meteorites that are remnants of planetary collisions also indicate that other planets have a nickel-iron core.
Magnets were attracted to the cor of earth.
One piece of evidence is that seismic waves pass through the Earth's core, indicating that it is not a solid mass. Additionally, the Earth's magnetic field is believed to be generated by the movement of molten iron within the outer core. Lastly, experiments conducted in labs using high-pressure and high-temperature conditions have simulated the Earth's core and showed that it behaves as a liquid.
Scientists use the difference in density between the inner and outer core as evidence that the inner core is solid. This was proven using seismic waves traveling through the earth.
There are two parts to the earth's core. A liquid outer core and a solid inner core, both made of nickel-iron The reason that the inner core is solid is because the intense pressure from the entire mass of earth surrounding it compresses the liquid metal into a solid state.
solid can be found on the inner core of the earth
Magnets were attracted to the cor of earth.
The evidence is largely from the way that seismic waves travel through the earth after an earthquake.(:
The Earth's inner core is solid, the outer core is liquid.
The inner core is solid.
Seismic waves travel faster when they travel through the core
The inner core is the solid part
The study of the reflection and refraction of seismic waves within the Earth.
One piece of evidence is that seismic waves pass through the Earth's core, indicating that it is not a solid mass. Additionally, the Earth's magnetic field is believed to be generated by the movement of molten iron within the outer core. Lastly, experiments conducted in labs using high-pressure and high-temperature conditions have simulated the Earth's core and showed that it behaves as a liquid.
There are two parts to the earth's core. A liquid outer core and a solid inner core, both made of nickel-iron The reason that the inner core is solid is because the intense pressure from the entire mass of earth surrounding it compresses the liquid metal into a solid state.
Scientists use the difference in density between the inner and outer core as evidence that the inner core is solid. This was proven using seismic waves traveling through the earth.
seismic data from earthquakes all around the world.
No. Earth's outer core is liquid.