Extracting iron from its ore, such as hematite or magnetite, is a complex process because it involves multiple steps. The iron ore must first be crushed and concentrated, then undergo processes like smelting to extract the pure iron. These processes require high temperatures, specific chemical reactions, and advanced machinery, making it a challenging and energy-intensive process.
It's possible to do so (if you mean extract iron from iron pyrite) , but because pyrite is exothermic, it creates a hazard in mines. Also, it is much more economical to extract iron from other minerals. Pyrite is also geologically unstable, and will eventually turn into sulfurous minerals and actually viable iron ores, so it is best left for future mines. Pyrite is really only worth it for making sulfuric acid or jewelry.
Copper melts at a lower temperature than iron. Therefore, in order to remove it from the ore in which it is found, and in order to work it, a hotter fire is needed to for iron than for copper. Making a fire hot enough to extract and work iron is more difficult, so iron tools were more difficult to obtain than copper tools.
The process to make iron from iron ore is called iron smelting. Iron ore is heated in a blast furnace with coke (carbon) and limestone to remove impurities and extract the iron metal. The resulting product is molten iron, which is then cast into various shapes for use in manufacturing.
Gold ore contains gold metal, which is highly visible due to its distinctive yellow color. Iron ore, on the other hand, contains iron in the form of iron compounds such as hematite and magnetite, which do not exhibit the same visible metal characteristics as gold. The presence of visible gold in gold ore is due to its high density and purity compared to iron compounds found in iron ore.
Gold is formed independently from rocks so unlike iron or copper there is no 'ore' to extract it from. In general gold is acquired by finding nuggets in rocks. The gold is simply chipped off from the rock. It is extremly difficult if not impossible to extract the small traces of gold that can be found in many rocks and as far as i am aware no commercial technique for acccquiring such gold.
It's possible to do so (if you mean extract iron from iron pyrite) , but because pyrite is exothermic, it creates a hazard in mines. Also, it is much more economical to extract iron from other minerals. Pyrite is also geologically unstable, and will eventually turn into sulfurous minerals and actually viable iron ores, so it is best left for future mines. Pyrite is really only worth it for making sulfuric acid or jewelry.
Ore, as in rocks which contain sufficient metal to extract and it is economical to do so. Ores include bauxite, a copper ore. Ores can be used to extract precious metals which in turn can be used for electrical wiring, in the case of copper or as a catalyst, in the case of Haematite, Iron ore (the haber process).
Copper melts at a lower temperature than iron. Therefore, in order to remove it from the ore in which it is found, and in order to work it, a hotter fire is needed to for iron than for copper. Making a fire hot enough to extract and work iron is more difficult, so iron tools were more difficult to obtain than copper tools.
Copper melts at a lower temperature than iron. Therefore, in order to remove it from the ore in which it is found, and in order to work it, a hotter fire is needed to for iron than for copper. Making a fire hot enough to extract and work iron is more difficult, so iron tools were more difficult to obtain than copper tools.
Electric arc furnace steel-making in the United States, which accounted for 43 percent of total steel making in 1993 and does not use iron ore, is the technology most often used by minimills That re-uses existing iron and steel, and rightly so, but the world still needs to extract iron from its ore, so there's not really an alternative to using iron ore.
yes, it is quite easy to remove cu from its ore because cu is less reactive so less energy is required i.e.it can be removed from its ore by just heating its ore in air for two to three times.
We extract iron form it's ore so that we can use it for a lot more things. For Example, this process makes wrought iron which can be used for ornamental work in gates. A lot of the iron from the blast furnace can be made into steel. Useful website: gcsescience.com
Copper melts at a lower temperature than iron. Therefore, in order to remove it from the ore in which it is found, and in order to work it, a hotter fire is needed to for iron than for copper. Making a fire hot enough to extract and work iron is more difficult, so iron tools were more difficult to obtain than copper tools.
Yes Iron is a reactive metal but it is not an 'energetic' metal. The energy required to get a reaction started is low compared to something like Gold, and the amount of energy you get from a reaction is also low compared to something like Aluminum or Magnesium. So it is easy to get Iron to react but because the energy you get in return from the reaction is low the reaction does not progress quickly - it doesn't feed itself so to speak. It is relatively easy to extract iron from its ores. The Iron age was well under way by 1000BC. However it is not as easy as Copper and Tin, which is why the Bronze age preceded the Iron age. In refining Iron from its ore you put the iron ore in an oxygen deprived environment. This is done by surrounding the ore with coal so that the Carbon in the coal 'robs' the oxygen off of the Iron to foster its own oxidation. This gives the iron not chance to re-oxidize.
You smelt (melt the iron ore in a furnace so that all the iron is extracted from the stone and other things that are stuck onto or near the iron ore.
The process to make iron from iron ore is called iron smelting. Iron ore is heated in a blast furnace with coke (carbon) and limestone to remove impurities and extract the iron metal. The resulting product is molten iron, which is then cast into various shapes for use in manufacturing.
Gold ore contains gold metal, which is highly visible due to its distinctive yellow color. Iron ore, on the other hand, contains iron in the form of iron compounds such as hematite and magnetite, which do not exhibit the same visible metal characteristics as gold. The presence of visible gold in gold ore is due to its high density and purity compared to iron compounds found in iron ore.