Crust Mantle Core Inner Core
If you mean ferrous metal, you mean a metal with iron in it.On the periodic table of elements iron = 26th element = Fe = (latin):ferrum.Ferrous metals include both iron and steel.
Diamonds form deep in the mantle due to the extreme pressure exerted by overlying rocks. This pressure, combined with high temperatures, helps carbon atoms to bond together in a unique crystalline structure that makes up diamonds.
Cooler material (magma) shrinks and becomes more dense. Gravity acts on this denser material more strongly because of its greater unit mass (density = Mass/volume). Lighter material rises as the heavier material displaces it below. This produces a the apparent bouyant force.
Wayne Matle was born on 1988-01-21.
The core, the matle, and the crust.
the earth is made of metal and liquid
the earth is made of metal and liquid
A solid layer made of iron and a nicel
Crust Mantle Core Inner Core
no, because its very hot in there. Even you cant pass to matle going to the core, no one ever tried going there.
Muammad Amr asan Khn abb has written: 'Matle'-i Sir' 'Khubah-i ghadryah' -- subject(s): Arabic Islamic sermons
If you mean ferrous metal, you mean a metal with iron in it.On the periodic table of elements iron = 26th element = Fe = (latin):ferrum.Ferrous metals include both iron and steel.
Diamonds form deep in the mantle due to the extreme pressure exerted by overlying rocks. This pressure, combined with high temperatures, helps carbon atoms to bond together in a unique crystalline structure that makes up diamonds.
The heat mantle typically uses a heating element made of resistive wire, such as nichrome wire, which generates heat when an electric current passes through it. This wire is embedded within a ceramic insulation material to ensure uniform heating and safety during operation.
Cooler material (magma) shrinks and becomes more dense. Gravity acts on this denser material more strongly because of its greater unit mass (density = Mass/volume). Lighter material rises as the heavier material displaces it below. This produces a the apparent bouyant force.