What is earths core made of?

Answer 1

According to the experts, it's a solid iron ball. That's where we get the Earth's magnetic poles from. (BTW, the magnetic poles have been known to flip--usually about every 130,000 years, but they haven't for about 700,000 years [we're overdue!].) If we didn't have the magnetic poles caused by the Earth's core, the atmosphere would be stripped away, like Mars'. And, without the magnetic field around the Earth, deadly levels of radiation from the sun would fry everything on the planet. Not good.

Answer 2

The central core is made up of mostly Iron and some Nickel. Iron as most probably know is a very magneticly charged metal, so we can thank that swirling Iron at our core for creating the magnetic field around the Earth which protects us from many harmful rays and particles drifting through space.

Answer 3

First, we know the overall density and mass of the Earth based on measurments of how the Earth perturbs the orbits of other planets and the moon.
Second, we know the overall density of the variousd layers of the Earth based upon the way in which seismic pressure waves (compressional waves created by earthquakes) move through the earth to arrive at locations remote from the earthquake source.
Third, by examining a second type of seismic wave (a shear wave, that is equivalnet in motion to a back and forth rubbing of one's hands together) we know that the outer part of the core is liquid, even though it is at immense presure from being underneath so much rock. Shear waves can't travel through liquids.
Forth, we know the overal composition of the Earth by examining the bulk chemical composition of the Sun (by examining its light spectrum) and by analyzing a class of meteorites known as Chondrites (which have similar composition to the Sun and are believed to be similar to the material from which the Earth accreted).
Fifth, we know the composition of the Earth's crust and its mantle, by examining samples of them. For the lower mantle, we use experiments of the effect of pressure on upper (shallow) mantle minerals to predict the mineralogy of the lower reaches of the mantle. We then pass seismic waves through it in the lab to see if our experimental rocks match the observations.
Six, now that we know the size, mass and composition of the whole Earth, its crust, and its mantle, we can contruct a balance sheet of materials and see which chemical elements aren't in the crust (including atmosphere and hydrosphere) or mantle that we know should be on the Earth. These must be in the core.
Seven, to aid us in our assessment, we recall that we need metallic elements in high concentration somewhere in the interior of the Earth to generate our magnetic field. Also, this metal must be able to be in the liquid state even at very high pressures.


Adding all this up, we find the core is predominantly Iron metal (Fe). We find it has a significant amount of the element Nickel (Ni, about 4%) and a light element to make it less dense (about 10% by mass). This light element is either mostly oxygen or sulfur, with the arguments for oxygen (too detailed to go into here) being more believable in general.

Answer 4

Interestingly, there is a theory that the outer core is liquid while the inner core is solid. It is the spinning of the liquid part of the core that gives the Earth its magnetic field.

Answer 5

solid Nickel and Iron as per seismological interpretation, and is a source of earth magnetism.

Answer 6

THE probability is wrather high that it is a mixture of nickel and iron. this is because of the age of our sun. perhaps in the future it will be an element of higher density.

Answer 7

Uh, pretty much wickedly hot molten magma, melted rock, held together by extremely high pressure.

Answer 8

A mixture of molten iron and lead.

Answer 9

It's made out of Spam.

Answer 10

iron